The Issue The issue in this case is whether the Department of Environmental Protection (DEP) should issue a permit to Out of Bounds, Inc. (Out of Bounds, or applicant), to construct, operate, and close a construction and demolition debris disposal facility (C&D facility) in Hernando County.
Findings Of Fact On September 8, 2008, Out of Bounds applied to DEP for a permit to construct, operate, and close an unlined C&D facility on 26 acres located at 29251 Wildlife Lane, Brooksville, Hernando County, Florida, to be known as the Croom C&D Debris Landfill and Recycling Facility. There were four requests by DEP for additional information, which was provided, and the application was complete on September 3, 2009. In 1994, a previous owner of the property was issued a permit to construct, operate, and close an unlined C&D facility on the property. That owner did not proceed with construction, and the permit expired in 1999. The Out of Bounds application was for a new permit, not for the renewal of an existing permit. Robert McCune owns property adjacent to the proposed C&D facility. He and his wife reside on the property, keep horses in stables on the property, and use the property for horseback riding business, which includes hosting public horseback riding events. Hernando SSK was formed by David Belcher and one or more others to continue the business being operated by Paige Cool when she died during this proceeding. The business is conducted on ten acres of property Cool owned approximately one mile west of the proposed C&D facility. Belcher is one of two co-personal representatives of Cool’s estate. Belcher and his wife hold a mortgage on the property. When the estate is finalized, the Belchers plan to assign their mortgage to Hernando SSK. It is not clear who will own the property after the estate is finalized, or how Hernando SSK will be authorized to continue the business on the property. Western pleasure and trail-riding horses are boarded on the Cool property, which is known as At Home Acres. The business also has access to 20 adjoining acres to the east, which are used for grazing. Access to the horseback riding trails in the Withlacoochee State Forest is conveniently located just across Wildlife Lane from the property, to the north. A manager resides in a double-wide trailer on the property, and another trailer and a barn to the east of it are leased out. There is a potable water well on the property, which is the source of drinking water for the manager and lessees. Well Setback In the application process, Out of Bounds disclosed two potable water wells within 500 feet of the proposed landfill disposal area. The application provided that those wells would be converted to non-potable use. Out of Bounds did not disclose the existence of a third potable water well, on property owned by Daniel Knox, which is within 500 feet of the proposed landfill disposal area. When the Knox well was brought to the attention of DEP, Out of Bounds admitted that the well was permitted for potable use but took the position that it was not for potable use because it was not in use, was not connected to a source of electricity, and appeared to be abandoned. Daniel Knox and his brother, Robert Knox, had the Knox well dug and permitted in 1979 in anticipation of using it as the source of potable water for a residence to be built on the property for their parents and sister. The Knoxes have not yet built a residence on the property, but it still is their intention to do so and to use the well as the source of potable water. Since its construction, the well had been maintained and operated periodically using a gasoline-powered generator so that it will be ready for use when needed. During the application process, Out of Bounds also did not disclose the existence of a fourth potable water well within 500 feet of the proposed landfill disposal area on property once owned by Larry Fannin and now owned by his daughter and son-in- law, Robert McCune. The McCune well was permitted and installed in mid-2005 while the sale of the land from Fannin to the McCunes was pending. The intended purpose of the well was to provide potable water for the use of the McCunes when they started to reside on the property. Despite this intent, and unbeknownst to the McCunes, Fannin had the well permitted as an irrigation well. In mid-2008, the McCunes began to reside on their property. At first, they resided in a mobile home. They ran pipes from the well to the mobile home to provide drinking water. Eventually, later in 2008, they began construction of a residence on the property and ran pipes from the well to the house to provide drinking water to the house. The well was being used for drinking water before the Out of Bounds application was complete. (They also use water from the well from time to time for irrigation purposes--i.e., when they host horseback-riding events on weekends, they truck water from the well to their horseback-riding arena to apply to the ground to control dust.) Groundwater flows from the disposal area of the proposed landfill to the west and southwest. The Knox and McCune wells are down-gradient of the groundwater flow from the proposed disposal area. Out of Bounds represented at the hearing that it would accept a permit condition that no C&D debris, but only clean debris, would be disposed within 500 feet of the Knox and McCune wells. See Fla. Admin. Code R. 62-701.200(15)-(16) and (24). However, there was no evidence of new designs, plans, or operations that would be used to meet such a permit condition. Liner and Leachate Collection Existing unlined C&D facilities in the Southwest District report various parameters that exceed groundwater quality standards and criteria. These include arsenic, benzene, iron, aluminum, nitrate, ammonia, vinyl chloride, methylene chloride, 3- and 4-methyl phenols, sulfate, and total dissolved solids (TDS). Arsenic and benzene are primary (health-based) groundwater quality standards. The others are secondary standards that relate to taste, odor, and aesthetics. The likely source of the reported arsenic violations in the Southwest District is wood treated with chromate copper arsenate (CCA). See Fla. Admin. Code R. 62-701.200(11). Out of Bounds proposes to not accept CCA-treated wood and to use a trained “spotter” to exclude CCA-treated wood from the landfill. This is an appropriate measure to prevent arsenic violations, and is now required for C&D facilities. See Fla. Admin. Code R. 62-701.730(7)(d), (8), and (20). It was not clear from the evidence whether the C&D facilities in the Southwest District with arsenic violations accepted CCA-treated wood. Even if they did, the operational plan proposed by Out of Bounds to exclude CCA-treated wood and to use a trained spotter is not a guarantee that no CCA-treated wood will enter the landfill. A C&D facility would not be expected to dispose of material that would result in benzene contamination. The reported benzene violations suggest that unauthorized material contaminated with benzene nonetheless makes its way into C&D facilities in the Southwest District. The evidence was not clear whether a trained spotter was used at those facilities. Whether or not a spotter was used at those facilities, having a trained spotter would not guarantee that no benzene-contaminated material will enter the landfill proposed by Out of Bounds. Out of Bounds suggested that ammonia violations result from C&D facilities accepting yard trash. However, there was no evidence of a connection between acceptance of yard trash and ammonia violations. The operational plan proposed by Out of Bounds to “cover as you go” is the accepted best practice to control hydrogen sulfide odor, which comes from wet drywall. Out of Bounds suggested that its cover plan would prevent any sulfate violations, but there was no evidence to prove it. There was no evidence as to whether the C&D facility proposed by Out of Bounds would be substantially different from the other existing C&D facilities in DEP’s Southwest District. Absent such evidence, Out of Bounds did not provide reasonable assurances that its proposed facility would not cause groundwater quality violations. The site for the C&D facility proposed by Out of Bounds is internally drained. There are no surface waters onsite or within a mile of the site. There was no evidence of a surficial aquifer above the Floridan aquifer. Rainfall entering the Out of Bounds property migrates downward into the Floridan aquifer. Once in the aquifer, there is a horizontal component of groundwater water flow in a generally southwest direction, towards the Knox and McCune wells. Contaminated leachate from the proposed C&D facility would migrate with the groundwater. Out of Bounds suggests that a thick clay layer under the site of its proposed facility would prevent the downward migration of groundwater into the Floridan aquifer. There are several reasons why the clay layer does not provide the reasonable assurance of a liner that contamination from the proposed landfill would not reach the Floridan aquifer. Clay is much more permeable than a geomembrane meeting DEP’s specifications for use as a liner. The clay on the proposed site is on the order of at least a thousand times more permeable. (Out of Bounds appeared to confuse the permeability of such a geomembrane with the allowable permeability of the geosynthetic clay layer or compacted clay layer underlying the geomembrane. Cf. Fla. Admin. Code R. 62-701.730(4)(f).) In the application process, Out of Bounds relied on the clay layer for purposes of sinkhole prevention and mitigation, not for reasonable assurance that no liner was needed. The limestone formation underlying the site is highly variable, with numerous pinnacles; for that reason, the thickness of the clay layer also is highly variable, making it difficult to excavate the proposed landfill with complete assurance that the clay layer would not be penetrated. To provide reasonable assurance for purposes of sinkhole prevention and mitigation, Out of Bounds proposed to leave or create a clay layer at least six feet thick underlying the bottom of the proposed landfill. Because the site is in an area of high recharge to the Floridan aquifer and drains entirely internally, the clay layer alone does not provide reasonable assurance that there will be no downward migration of contaminated groundwater to the Floridan aquifer. Reasonable assurance requires a liner and leachate collection system.
Recommendation Based upon the foregoing Findings of Fact and Conclusions of Law, it is RECOMMENDED that DEP deny the application for a C&D facility made by Out of Bounds. DONE AND ENTERED this 8th day of December, 2011, in Tallahassee, Leon County, Florida. S J. LAWRENCE JOHNSTON Administrative Law Judge Division of Administrative Hearings The DeSoto Building 1230 Apalachee Parkway Tallahassee, Florida 32399-3060 (850) 488-9675 Fax Filing (850) 921-6847 www.doah.state.fl.us Filed with the Clerk of the Division of Administrative Hearings this 8th day of December, 2011. COPIES FURNISHED: Ronda L. Moore, Esquire Department of Environmental Protection 3900 Commonwealth Boulevard, Mail Stop 35 Tallahassee, Florida 32399-3000 John R. Thomas, Esquire Law Office of John R. Thomas, P.A. 233 Third Street North, Suite 101 St. Petersburg, Florida 33701-3818 Timothy W. Weber, Esquire Battaglia, Ross, Dicus & Wein, P.A. Post Office Box 41100 St. Petersburg, Florida 33743-1100 Herschel T. Vinyard, Jr., Secretary Department of Environmental Protection 3900 Commonwealth Boulevard, Mail Stop 35 Tallahassee, Florida 32399-3000 Thomas Beason, General Counsel Department of Environmental Protection 3900 Commonwealth Boulevard, Mail Stop 35 Tallahassee, Florida 32399-3000 Lea Crandall, Agency Clerk Department of Environmental Protection 3900 Commonwealth Boulevard, Mail Stop 35 Tallahassee, Florida 32399-3000
The Issue The issues to be determined in this proceeding are: whether the challengers have standing; and (2) whether Proposed Rule 40E-8.221(2) is an invalid exercise of delegated legislative authority.
Findings Of Fact Based on the parties' stipulations and the evidence adduced at the final hearing, the following findings of fact are made: The Parties The District is a government entity existing and operating pursuant to chapter 373, Florida Statutes, as a multi- purpose water management district. The District has the power and duty to adopt MFLs consistent with the provisions of part I of chapter 373. Sanibel is a barrier island sanctuary in Lee County and a duly-formed municipality with a population of more than 6,000. Sanibel is situated at the mouth of the Caloosahatchee River, within the Caloosahatchee's greater estuarine area. Sanibel is known primarily for its natural beauty, including clear blue waters, shell beaches, world-class sport fisheries, and wildlife refuges. That is why tourists come from around the globe to visit Sanibel, and why Sanibel's residents move and remain there. Sanibel actively participated in the rulemaking process for the Proposed Rule from its inception. Sanibel submitted two technical comment letters to the District during the development of the Proposed Rule. Sanibel's natural resources director, James Evans, attended numerous public and technical meetings associated with the development of the Proposed Rule, speaking on the record at each of the public meetings prior to the adoption hearing by the District's governing board. The Town, located on Estero Island in Lee County, is also a barrier island community and duly-formed municipality with a population of more than 6,000. The Town is situated just south of the mouth of the Caloosahatchee River and on the southeastern edge of the Caloosahatchee River's greater estuarine area. The Town is known primarily for its natural beauty, including clear blue waters, shell beaches, world-class sport fisheries, and wildlife refuges. Cape Coral is a duly-formed municipality in Lee County and is the largest city between Tampa and Miami, with a population in excess of 150,000. Cape Coral is bordered on the south by the Caloosahatchee River and has over 400 miles of navigable canals and waterways, all of which are within the Caloosahatchee River's greater estuarine area. In addition, Cape Coral has an assigned load reduction allocation under the Basin Management Action Plan (BMAP) for the Caloosahatchee River Estuary (CRE) due to it being designated as impaired for dissolved oxygen and nutrients. Maintaining sufficient flow in the Caloosahatchee River would have a direct impact on Cape Coral's ability to meet its assigned load reduction allocation. In addition to living on or near the water, a substantial number of the residents of Sanibel, Cape Coral, and the Town engage in water-based recreational activities such as swimming, fishing, boating, kayaking, paddle boarding, bird watching, and nature observation in and around the Caloosahatchee River's greater estuarine area. Fort Myers is a duly-formed municipality in Lee County and has a population of approximately 80,000. Fort Myers is bordered by the CRE throughout its entire jurisdictional boundary. Fort Myers owns and maintains a yacht basin (Ft. Myers Yacht Basin), which includes a mooring field and an anchorage field in the Caloosahatchee River. Fort Myers presented testimony that commercial crabbing and recreational fishing have declined and that it has suffered economic harm due to water quality issues. Fort Myers owns the submerged land in the Caloosahatchee River from Marker 39 to Marker 58, and islands in the river. One such island will be used as a park for recreational activities such as canoeing, kayaking, and hiking for visitors to enjoy the Caloosahatchee River. Fort Myers also owns and operates piers and a public boat ramp within the Caloosahatchee River. Fort Myers' dock master has observed declines in seagrasses in the Caloosahatchee River during his 19-year career working at the Ft. Myers Yacht Basin. Fort Myers has adopted a Harbor Management Plan for the management of its mooring and anchorage fields in the Caloosahatchee River. Fort Myers has also been assigned a load reduction allocation under the BMAP for the CRE, and is responsible for a certain amount of pollution reduction over time. Bonita Springs is a municipality of more than 50,000 in Lee County. The borders of Bonita Springs include portions of Estero Bay, which, along with San Carlos Bay and the Caloosahatchee River, is part of the greater Lower Charlotte Harbor Estuary. Bonita Springs includes wildlife refuges, such as the Estero Bay Aquatic Preserve and Lovers Key State Park and Recreation Area. While Bonita Springs' strategic priorities include environmental protection and water quality, it does not have environmental staff or test water quality. Bonita Springs participates in Estero Bay Management and the Charlotte Harbor National Estuary Program (CHNEP). Bonita Springs provides financial assistance to the Caloosahatchee Citizen Sea Grass Gardening Project. Concerns regarding harm to the CRE and tape grasses are shared by a significant number of residents in Bonita Springs and Estero, including injury to the quality of life and recreational uses such as swimming, boating, and kayaking in the waterways. Estero is a municipality of more than 30,000 in Lee County. Estero borders the eastern portion of Estero Bay. Estero includes wildlife refuges, such as Estero Bay Aquatic Preserve and Koreshan State Park. While Estero has environmental policies, it does not have environmental staff or test water quality. Estero makes financial contributions to CHNEP. Estero is concerned that the Proposed Rule will affect its water quality, which could affect its residents' quality of life. Estero believes it could be harmed by poor water quality because its residents are portable retirees who can move away, or tourists who can choose not to visit. Captiva Island is situated at the mouth of the Caloosahatchee River, within the Caloosahatchee's greater estuarine area. CCP is a Florida not-for-profit corporation representing property owners, businesses, and the community of Captiva Island. Captiva Island is part of unincorporated Lee County and is located north of Sanibel. CCP has 200 financial contributors comprised of property owners, businesses, and residents on Captiva Island. CCP's mission includes protection of clean off-shore water, diverse and healthy marine life, and robust native vegetation along with the protection of mangrove fringe and water quality. CCP works with Lee County on provisions of the County's comprehensive plan, which include the quality of adjacent waters. CCP relied on the expertise of James Evans, the director of natural resources for Sanibel, and on the Sanibel- Captiva Conservation Foundation (SCCF). CCP was advised that the Proposed Rule was not sufficient to protect the environment and Vallisneria americana (Vallisneria) or tape grass during the dry season. Caloosahatchee River and Estuary The watershed of the Caloosahatchee River covers approximately 861,058 acres. The watershed consists of four sub-watersheds, three of which are upstream of the S-79 structure. The Tidal Caloosahatchee Basin sub-watershed (estuarine system) is downstream of the S-79 structure. The S-79 structure captures all the upstream discharges of fresh water that go into the estuarine system through the S-79 structure. Major tidal tributaries of the Tidal Caloosahatchee Basin are the Orange River and Telegraph Creek, which drain into the upper estuary downstream of the S-79 structure. Fresh water inflows from these and other tributaries also contribute fresh water into the estuarine system. The Caloosahatchee River was originally a natural watercourse running from its origin at Lake Flirt to San Carlos Bay. It is currently defined as the "surface waters that flow through the S-79 structure, combined with tributary contributions below S-79 that collectively flow southwest to San Carlos Bay." Fla. Admin. Code. R. 40E-8.021(2). Man-made alterations to the Caloosahatchee River began as early as 1884, but major alterations began in the 1930s with the authorization and construction of the C-43 Canal. The C-43 Canal runs 41.6 miles from Lake Okeechobee at Moore Haven, i.e., from the S-77 structure, to Olga, i.e., the S-79 structure. The C-43 Canal serves as a conveyance feature to drain water from the three sub-watersheds located upstream of the S-79 structure and convey regulatory discharges of water from Lake Okeechobee. In 1957, the United States Army Corps of Engineers (USACOE) prepared a report focused on drainage, flood control, and navigation needs of the Caloosahatchee River Basin, and one recommendation was construction of the S-79 structure. The key objectives of the S-79 structure were to eliminate undesirable salinity in the lower Caloosahatchee River, prevent the rapid depletion of water supplies, and raise the prevailing dry weather water table levels. The S-79 structure was constructed in 1965. It is a lock and dam structure that is also known as the Franklin Lock and Dam. The S-79 structure captures all upstream fresh water discharges that go into the CRE. The S-79 structure demarcates the head of the CRE, which extends 26 miles downstream to Shell Point, where it empties into San Carlos Bay in the southern portion of the greater Lower Charlotte Harbor Estuary. Most of this surface water flow takes a southerly route, flowing to the Gulf of Mexico under the Sanibel Causeway that crosses San Carlos Bay. When fresh water inflows are high, tidal action pushes some of this water back up into Matlacha Pass and Pine Island Sound. Additionally, some water exits to the south and flows into Estero Bay through Matanzas Pass. Salinity exhibits a strong gradient in the CRE. Changes in the watershed upstream of the S-79 structure have profoundly influenced the delivery of fresh water to the CRE. Runoff is now more variable with higher wet season flows and lower dry season discharges. Large volumes of fresh water during the wet season can flush salt water from the tidally-influenced sections of the water body, resulting in low salinity conditions throughout most of the CRE. In contrast, fresh water inflow at the S-79 structure can stop entirely during the dry season, especially during significant drought events. This results in saline intrusion that can extend upstream to the S-79 structure. Fluctuations of this magnitude at the head and mouth of the system cause mortality of organisms at both ends of the salinity gradient. Downstream of the S-79 structure, the CRE was significantly altered by multiple dredging activities, including the removal of extensive shoals and oyster bars. Seven automobile bridges, a railroad trestle, and the Sanibel Causeway were built between the 1880s and 1960s. A large canal network was built along the northern shoreline of the CRE in Cape Coral. To provide navigational access from the canal network to deeper water, multiple access channels were dredged within the CRE. Alterations to the delivery of fresh water combined with structural changes to the tidally-influenced sections of the water body have had lasting ecological consequences. These include the loss of extensive shoals and oyster bars, loss of a flourishing bay scallop fishery, and significant decline in seagrass cover in deeper areas. MFLs An MFL is the limit at which further withdrawals would be significantly harmful to the water resources or ecology of the area. The District's rules define significant harm as the "temporary loss of water resource functions, which results from a change in surface or ground water hydrology, that takes more than two years to recover, but which is considered less severe than serious harm." Fla. Admin. Code R. 40E-8.021(31). The rule further specifies that a water body's specific water resource functions addressed by an MFL are defined in the MFL technical support document. Id. MFLs are calculated using the best information available. The regulatory agency is required to consider changes and structural alterations to watersheds, and the constraints such changes or alterations placed on the hydrology of an affected watershed. Certain waterbodies may not serve their historical hydrologic functions and recovery of these waterbodies to historical hydrologic conditions may not be economically or technically feasible. Accordingly, the regulatory agencies may determine that setting an MFL for such a water body based on its historical condition is not appropriate. Caloosahatchee MFL For the CRE, MFL criteria were designed to protect the estuary from significant harm due to insufficient fresh water inflows and were not guidelines for restoration of estuarine functions to conditions that existed in the past. The MFL criteria consider three aspects of the flow in terms of potential significant harm to the estuary: (1) the magnitude of the flow or the volume of fresh water entering the estuary; (2) the duration of time that flows can be below the recommended level before causing significant harm; and (3) the return frequency, or the number of times the MFL can be violated over a number of years before it results in significant harm, recognizing that natural climatic variability will be expected to cause fresh water inflows to fall below recommended levels at some natural frequency. The CRE MFL initially adopted in 2001 was primarily based on the salinity tolerance of one valued ecosystem component (VEC). The VEC was Vallisneria americana or tape grass, a fresh water aquatic plant that tolerates low levels of salinity. A major assumption of this approach was that flow and salinity conditions that protect Vallisneria would also protect other key organisms in the estuary. The 2001 CRE MFL was based on a regression model for estimating the relationship between surface salinity measured at the Ft. Myers monitoring station located in the Ft. Myers Yacht Basin and discharge at the S-79 structure. Although the District monitors surface and bottom salinity at multiple stations in the CRE, the Ft. Myers monitoring station is located centrally in the CRE and at the historical downstream extent of the Vallisneria habitat. The Ft. Myers monitoring station also has the most comprehensive period of record of monitoring data available. The fixed data sondes that monitor surface and bottom salinity are located at 20 percent and 80 percent of total river depth measured at mean low water. The data sondes continuously measure temperature and specific conductivity and, depending on the manufacturer, contains programs that calculate salinity. Those calculations are based on standards recognized and used worldwide by estuarine, marine, and oceanographic scientists.1/ The regression model only implicitly included inflows from the Tidal Caloosahatchee Basin sub-watershed downstream of the S-79 structure. To address this, during the 2003 re-evaluation, a linear reservoir model of Tidal Caloosahatchee Basin inflows was developed. The regression model results showed that a total inflow from S-79 plus the Tidal Caloosahatchee Basin of about 500 cubic feet per second (cfs) was required to produce a salinity of 10 at the Ft. Myers monitoring station. Thus, the 2001 CRE MFL of 300 cfs measured at the S-79 structure would produce a salinity of 10 at the Ft. Myers monitoring station only with additional inflow from the downstream Tidal Caloosahatchee Basin sub- watershed. However, that additional inflow estimate was highly uncertain. The conclusion was that actual flow measurements over a period of time were needed in order to perform more robust calibrations for the new models that were being developed. The Re-evaluation The District's re-evaluation effort began in 2010 after the Conservancy of Southwest Florida filed a petition requesting review of the Caloosahatchee MFL. At the time, the governing board denied the petition but directed staff to undertake additional research and monitoring to ensure a future revision would be supported by the best information available. The first step was to review the September 2000 Final Peer Review Report (PRR) for the initial adoption. The 2000 PRR identified several items the District should consider, including a hydrodynamic salinity model, a numerical population model for Vallisneria, quantification of habitat value for Vallisneria, and documentation of the effects of minimum flows on downstream estuarine biota. The 2000 PRR documented concerns that the current MFL was based solely on the salinity tolerance of Vallisneria and recommended using multiple indicator species. To address those recommendations, the District conducted studies to evaluate multiple ecological indicators, such as zooplankton, aquatic vegetation, oysters, benthic communities, and blue crabs, in the Caloosahatchee from the S-79 structure to beyond Shell Point. In addition, the District collected flow data from the Tidal Caloosahatchee Basin sub-watershed for at least five years to develop watershed, flow, and hydrodynamic models that could properly simulate inflows and salinity responses. When the initial research was complete in 2016, the District published the Draft Science Document containing 11 component studies. In September 2016, the District held a two- day Science Symposium to present the 11 component studies and gather public comment. In response to public comment, the District performed additional evaluations, modeling, and updated the component studies to produce a Draft Technical Document. A Peer Review Panel reviewed the Draft Technical Document, which included the Draft Science Document. The Peer Review Panel has over 150 years of combined relevant scientific experience. The Peer Review Panel toured the CRE by air and water. The District also held a Peer Review Session to engage the public and obtain feedback. The Peer Review Panel's 2017 report (PRP report) stated that the District had "crafted a well-executed and well- documented set of field and laboratory studies and modeling effort" to re-evaluate the CRE MFL. The PRP report supported the 11 component studies, the modeling, the evaluations, and the initial proposed rule language. The Final Technical Document published in January 2018 incorporated five different models and additional science, examining the entire watershed and the criteria itself. The Final Science Document was Appendix A to the Final Technical Document and contained the scientific research and analysis that was done for the 11 component studies, the modeling, and the additional scientific analyses performed in response to public and stakeholder input. The District initiated rule development in December 2017. Rule development workshops were held in February and June 2018 and a stakeholder technical meeting was held in May 2018. The District validated the comments after each workshop and meeting, and revised the proposed rule language. The District published its Notice of Proposed Rule on July 23, 2018.2/ At its September 13, 2018, meeting, the District's governing board held a public hearing on the Proposed Rule. The mayors of Sanibel, Cape Coral, and the Town publicly commented at the hearing. After considering public comments, the governing board adopted the Proposed Rule. The District documented and responded to each public comment, memorializing the information in the Final Technical Document. Later, after the rule workshops and May 2018 technical meeting, the District prepared and presented all of the updated information, including public comment, at the September 2018 adoption hearing. Thus, the District's re-evaluation process was open and transparent. The Re-evaluated Caloosahatchee MFL The science supporting the re-evaluation involved a comprehensive assessment of the effects of diminished dry season fresh water inflows on the CRE. The dry season was chosen for two reasons. First, because it is well-established that the upstream migration of salt combined with reduced fresh water inflow alters the health and productivity of estuarine habitats. Second, because the dry seasons are the times when the current MFL criteria are likely to be exceeded or violated. The 11 component studies targeted specific concerns regarding physical and ecological characteristics. Together they offered a holistic understanding of the negative effects of diminished fresh water inflow on estuarine ecology. The re-evaluated MFL criteria were developed using a resource-based approach. The approach combined the VEC approach and the habitat overlap concept. The habitat overlap approach is based on the idea that estuaries serve a nursery function and salinity determines the distribution of species within an estuary, including distribution during different life stages. The combined approach studied the minimum flow requirements of the various indicator species in terms of magnitude, duration, and return frequency, resulting in the following three aspects of the flow: (1) for magnitude, a 30-day moving average flow of 400 cfs measured at the S-79 structure; for duration, an MFL exceedance occurs during a 365-day period when the 30-day moving average flow at S-79 is below 400 cfs and the 30-day moving average salinity exceeds 10 at the Ft. Myers salinity monitoring station; and (3) for return frequency, an MFL violation occurs when an exceedance occurs more than once in a five-year period. The magnitude component is based on the salinity requirements of Vallisneria, along with results from the 11 studies modeling salinity and considering the salinity requirements of the other VECs. The duration component is based mainly on the estimates of rate of loss of Vallisneria shoots when salinity rises above 10 and the recovery rate of the shoots when salinities fall back below 10. Return frequency was determined based on long-term rainfall records rather than flow measurements from the S-79 structure, which the PRP report felt was well justified. In addition to the component studies, the re-evaluated MFL criteria and existing recovery strategy were evaluated using a suite of hydrologic and ecological models simulating long-term fresh water inflow to the CRE associated with varying management options, the resulting salinity in the CRE, and the ecological response of indicator species that are sensitive to low fresh water inflows. Five models were utilized. Three models simulated fresh water inflows to the CRE: two for S-79 flows; and one for Tidal Caloosahatchee Basin sub-watershed flows. The other two models were a three-dimensional hydrodynamic salinity model and a Vallisneria model. Tidal Caloosahatchee Basin sub-watershed has a number of tributaries that drain fresh water into the CRE. The flow at several of the tributaries was monitored for a five-year period. The measured flow was used to calibrate a watershed model and conduct a long-term simulation. The results showed an average fresh water inflow for all seasons of approximately 430 cfs. The average fresh water inflow during the dry season was 245 cfs while the wet season average fresh water inflow was 613 cfs. Fresh water inflow from the Tidal Caloosahatchee Basin sub- watershed was approximately 20 percent of total fresh water inflow to the CRE while 80 percent was released through the S-79 structure. Petitioners' and Intervenors' Objections 400 cfs Is Too Low Sanibel relied on a memorandum prepared by Dr. David Tomasko (Tomasko report) concerning his company's review of the January 2018 Final Technical Document supporting the Proposed Rule. The Tomasko report, dated October 23, 2018, was in the form of a "technical memorandum" outlining "preliminary findings." The Tomasko report was admitted as a joint exhibit; however, Dr. Tomasko did not testify at the final hearing. The Tomasko report is hearsay that was not used to supplement or explain competent direct evidence. Although hearsay is admissible in this proceeding, it cannot be the sole basis for a finding of fact.3/ See § 120.57(1)(c), Fla. Stat. The District's expert witnesses, who testified at the final hearing, explained that ten of the 11 component studies identified average indicator flows at S-79 ranging from 237 to 545 cfs with standard deviations ranging from plus or minus 57 to plus or minus 774 cfs.4/ The District's experts performed three different evaluations of those flow results. They identified the mean of all the means, calculated the median of the means, and performed a probability density function. The flow results for each of the three evaluations were 381 cfs, 400 cfs, and 365 cfs, with standard deviations that ranged from plus or minus 277 cfs to plus or minus 706 cfs. The District's experts testified that the three flow results are indistinguishable from a statistical point of view. The District chose 400 cfs because it was the highest flow result, and, therefore, the most protective of the three. The Petitioners and Intervenors failed to present evidence that showed any deficiencies in the District's component studies, hydrologic, hydrodynamic, or statistical modeling, or analysis of compliance data. The preponderance of the evidence established that the District used the best available science to calculate the MFL criteria. The District did not act arbitrarily or capriciously when it chose 400 cfs as the magnitude component of the MFL criteria. Inclusion of Salinity in the MFL Criteria The preponderance of the evidence also established that Vallisneria continues to be a particularly useful indicator of environmental conditions in the CRE. It supports essential ecological goods and services, is sensitive to salinity fluctuations at the ecosystem scale, and has value to a variety of stakeholders. The location of Vallisneria habitat in the upper CRE and its negative response to increased salinity made it an excellent candidate as an ecological indicator for fresh water inflow. A combination of field monitoring, mesocosm studies, and modeling results allowed the application of Vallisneria responses as a platform to quantify the effects of high salinity duration in the upper CRE. Component Study Eight reviewed the development and initial application of a simulation model for Vallisneria in the CRE. The Vallisneria model was used to evaluate the salinity conditions that led to net annual mortality, or, in other words, the duration of high salinity exposure that led to decreased Vallisneria shoots versus the duration of low salinity conditions required for recovery. Component Study Seven included an analysis of the relationship between the number of consecutive days where salinity at the Ft. Myers monitoring station was greater than 10 and the percentage of initial Vallisneria shoots remaining at the end of each high salinity period. To further evaluate the duration element associated with the MFL criteria, the field monitoring data contained in Component Study Seven was evaluated with the mesocosm and modeling results. All three sources were analyzed similarly to derive a combined curve showing high salinity exposure duration that is significantly harmful to Vallisneria. The model also provided information that was used to quantify the duration of low salinity conditions required for Vallisneria to recover a relative fraction of shoots after high salinity exposure. Merging the exposure and recovery evaluations facilitated a determination of the unfavorable salinity duration that could significantly harm Vallisneria habitat. With significant harm defined as the environmental harm from which two years are required to recover, the determination was that Vallisneria should experience no more than 55 consecutive days of salinity greater than 10. However, stakeholders expressed concerns regarding the percentage loss of Vallisneria habitat after 55 days of high salinity exposure. In response, the District conducted further analysis of modeling results and revised the duration component to accept the stakeholder recommendation, now expressed in the Proposed Rule, of a 30-day moving average salinity greater than 10. The Petitioners and Intervenors argued that by expressing the MFL as a "flow plus salinity component" the Proposed Rule enlarges, modifies, or contravenes the specific provisions of law implemented. However, the duration component is part of compliance and represents the duration of time that flows can be below the recommended level before causing significant harm to the indicator species Vallisneria. The MFL in the Proposed Rule is a 30-day moving average flow of 400 cfs measured at the S-79 structure. Flow is both measured and operationally controlled at the S-79 structure. However, as previously found, there are other sources of fresh water entering the CRE downstream of the S-79 structure. The District does not control and cannot control these downstream sources, which modeling reveals contribute approximately 20 percent of total fresh water inflow to the CRE. By including salinity, the District can account for fresh water inflows coming from the tidal basin when there are low or no flows at S-79 since the significant harm threshold in the CRE is directly related to salinity tolerance of the indicator species Vallisneria. The District's experts also testified that salinity can be used as a flow component because it is not affected by chemical or biological processes and is an indicator of how much fresh water is entering the system.5/ Salinity is included in the duration component of the MFL criteria and is an exceedance criterion because the science established that the salinity gradient is crucial to the overall health of the CRE. Including salinity in the duration component of the MFL criteria achieves the purpose of the statutory mandate to set MFLs that are designed to avoid significant harm to the water resources and ecology of the area. No Unit of Measurement for Salinity The Petitioners and Intervenors argued that the Proposed Rule is vague because the language does not contain any units for salinity. The UNESCO calculation is the standard equation used by the estuarine and marine science community to convert specific conductivity and temperature data to salinity. The District's experts testified that the UNESCO calculation reports salinity as a ratio, which is a dimensionless number and has no units. The District uses the UNESCO calculation and performs the conversion in a spreadsheet that it maintains. In some instances, certain brands of data sondes are programmed to perform the calculation and provide the salinity number. The preponderance of the evidence established that use of the practical salinity unit (PSU) is not technically correct. PSU is a misnomer, a pseudo-unit equivalent to a unitless salinity number. The Petitioners' and Intervenors' expert witness, Dr. Anthony Janicki, conceded there is no difference between reporting salinity as unitless or as PSU. And although technically incorrect, he suggested that placing the word "practical" or putting "PSU" in the Proposed Rule would reduce confusion and vagueness. However, since the preponderance of the evidence established that use of PSU is not technically correct, the use of a pseudo-unit would actually cause confusion instead of reduce confusion. The Petitioners and Intervenors also argued that the Proposed Rule is vague because the language does not state that the method of measuring salinity is specific conductivity, or that the equation used to convert specific conductivity and temperature data to salinity is the standard developed by UNESCO. The Petitioners and Intervenors essentially argued that members of the public and those who may be regulated by the Proposed Rule are left to guess about the method or methods used to measure salinity. Because the Proposed Rule identifies and locates by latitude and longitude coordinates the Ft. Myers salinity monitoring station as the location where salinity would be measured for compliance, the Proposed Rule language is not vague. The Proposed Rule is not vague because it does not describe the data sondes, what parameters are measured by the data sondes, and how those parameters are converted to a salinity number. Salinity Monitoring Location and Mean Low Water The Petitioners and Intervenors argued that the Proposed Rule is vague for failing to define the phrase "20% of the total river depth at mean low water," and is arbitrary or capricious for failing to include more than one salinity monitoring station. Total river depth or the water column depth is a standardized measurement that is made from the surface down to the bottom of the river bed. Mean low water is commonly understood in the oceanographic and coastal sciences community as the average of all low tides over the time period defined as the national tidal datum epic. The District's expert witness, Dr. Cassondra Armstrong, testified that mean low water can be determined by using two documents prepared by the National Oceanographic and Atmospheric Administration (NOAA), i.e., the NOAA tide charts and glossary. The District's expert witnesses testified that "20% of the total river depth at mean low water" is the location of the data sonde at the Ft. Myers monitoring station that measures surface salinity. This is also the depth at which Vallisneria is located in the CRE. Since, the Proposed Rule language simply identifies the location of the existing data sonde at the Ft. Myers salinity monitoring station, the language is not vague. The preponderance of the evidence established that the Ft. Myers salinity monitoring station has two salinity data sondes, the one at 20 percent of the total river depth and the other at 80 percent. The data sonde at 20 percent of the total river depth was identified in the Proposed Rule for the following reasons. First, this is the depth where Vallisneria grows and is representative of the salinity exposure for Vallisneria. Second, it guarantees the data sonde is always submerged and able to record data. Third, it has the most comprehensive period of record of monitoring data available. As previously found, Vallisneria continues to be a particularly useful indicator of environmental conditions in the CRE. The location of Vallisneria habitat in the upper CRE and its negative response to increased salinity made it an excellent candidate as an ecological indicator for fresh water inflow. Because the preponderance of the evidence established that Vallisneria continues to be a particularly useful indicator of environmental conditions in the CRE, the choice of the Ft. Myers monitoring station is not arbitrary or capricious. Water Resource Functions vs. Environmental Values The District's MFL rule specifies that a water body's specific water resource functions addressed by an MFL are defined in the MFL technical support document. See Fla. Admin. Code R. 40E-8.021(31). The Final Technical Document identified the relevant water resource functions of the CRE as fish and wildlife habitats, estuarine resources, water supply, recreation, navigation, and flood control. The Petitioners and Intervenors argued that the environmental values listed in Florida Administrative Code Chapter 62-40, also known as the Water Resource Implementation Rule, were not adequately addressed in the Final Technical Document. A proposed rule challenge is not the proper forum to determine whether a proposed rule is consistent with the Water Resource Implementation Rule. Such a determination is within the exclusive jurisdiction of the Department of Environmental Protection under section 373.114(2), Florida Statutes. Consistency of the District's Proposed Rule with the Water Resource Implementation Rule of the Department of Environmental Protection is not a basis in this proceeding for a finding that the Proposed Rule is an invalid exercise of delegated legislative authority. Other Issues The Petitioners and Intervenors raised other issues during the hearing, although not specifically argued in their proposed final order. Since those issues were identified as disputed issues in the Joint Pre-hearing Stipulation, they are addressed below. 1. Elimination of Single-day Exceedance Criterion During the rulemaking process, Sanibel and SCCF sent the District a letter requesting justification for eliminating the single-day exceedance salinity criterion in the current rule. The District staff evaluated the available Caloosahatchee River MFL compliance record, dating back to when the MFL was adopted in September 2001. The District maintains a historical record of MFL monitoring data and reviewed it to determine if the single-day exceedance salinity criterion was exceeded before the 30-day moving average criterion. The compliance record showed five exceedance events of the single-day salinity criterion have occurred. However, the compliance record also showed that the 30- day moving average salinity criterion had already been exceeded before the five events occurred. In other words, the single-day criterion was never exceeded before the 30-day moving average criterion. Based on this evaluation, the District eliminated the single-day exceedance salinity criterion because it did not provide any additional resource protection. The District's decision was not arbitrary or capricious. 2. Not Using the Latest Model Evaluation of recommended MFL criteria and a recovery strategy for the CRE were greatly aided by integration of a suite of hydrologic and ecological models simulating (1) long-term fresh water inflow associated with varying management options, (2) the resulting salinity in the estuary, and (3) ecological response of indicator species that are sensitive to low fresh water inflows. Five models were specifically utilized, including three models for simulations of fresh water inflows to the CRE, a three-dimensional hydrodynamic salinity model, and a Vallisneria model. The three models simulating fresh water inflows included (1) the South Florida Water Management Model (SFWMM) to simulate fresh water discharges at S-79, which includes regional operations of Lake Okeechobee and incorporates Caloosahatchee River irrigation demands; (2) the C-43 Reservoir Model, which uses the SFWMM-simulated daily S-79 flow as input and simulates the management benefit of the C-43 Reservoir; and (3) the Watershed (WaSh) Model to simulate tidal tributary inflow from the Tidal Caloosahatchee Basin sub-watershed. The Caloosahatchee Hydrodynamic/Salinity Model was based on the Curvilinear Hydrodynamic Three-dimensional Model (CH3D) modeling framework with the functionality of simulating the spatial salinity structure across the entire estuary. The Vallisneria Model took the CH3D modeled salinity as input to simulate Vallisneria growth at critical locations in the estuary. The District did review the more recent Environmental Fluid Dynamic Code (EFDC) model developed for the Caloosahatchee Total Maximum Daily Load (TMDL) and being used by the Department of Environmental Protection. The District's expert witness, Dr. Detong Sun, testified that until 2014, the hydrodynamic part of the EFDC model was not working well. He testified that in 2016, the District still had concerns and suggested the use of the District's continuous monitoring data from seven locations across the CRE rather than grab samples for model calibration. Dr. Sun's opinion was that the EFDC model has improved in recent years, but was still behind the CH3D model in terms of performance. The District's expert witness, Dr. Amanda Kahn, testified that the water quality component of the EFDC model was not appropriate for this re-evaluation because the MFL is about water quantity, not water quality. The water quality component of the EFDC model addresses nutrient loadings, not minimum flows. Dr. Kahn also testified that in setting MFL criteria for the CRE, salinity was not a water quality component. Salinity was used as a water quantity component because it does not change with biological processes and can be a measure of how much fresh water is coming into the system. Based on a preponderance of the evidence, the District's decision not to use the EFDC model was not arbitrary or capricious. 3. Seasonality The Petitioners and Intervenors argued that the District is required to set an MFL that varies by season. For the CRE, the District set MFL criteria that protect the system from low flow that would occur in either the wet or dry season. As previously found, the re-evaluation studies focused on the dry season for two reasons: first, because it is well-established that the upstream migration of salt combined with reduced fresh water inflow alters the health and productivity of estuarine habitats; and second, because the dry seasons are the times when the current MFL criteria are likely to be exceeded or violated. The MFL statute states that "when appropriate, [MFLs] may be calculated to reflect seasonal variations." § 373.042(1)(b), Fla. Stat. The preponderance of the evidence showed that for the CRE, it was not necessary to set an MFL that varied by season. Improper Purpose The Petitioners, Sanibel, Cape Coral, and the Town, did not participate in this proceeding primarily to harass or to cause unnecessary delay or for frivolous purpose or to needlessly increase the cost of litigation. The Petitioners did not participate in this proceeding for an improper purpose. The Intervenors, Fort Myers, Estero, Bonita Springs, and CCP, did not participate in this proceeding primarily to harass or to cause unnecessary delay or for frivolous purpose or to needlessly increase the cost of litigation. The Intervenors did not participate in this proceeding for an improper purpose.
The Issue The issue is whether Respondent Department of Environmental Protection may issue to Respondent Tampa Bay Water a variance from the requirements, in Rules 62-555.520(4)(c) and (d), Florida Administrative Code, that an application for a permit to construct and operate a drinking water system contain drawings of the project with sufficient detail to describe clearly the work to be undertaken and complete specifications of the project to supplement the drawings.
Findings Of Fact Inception of Tampa Bay Water, Consolidated Permit, and Other Documentation for the Production of Drinking Water Respondent Tampa Bay Water (TBW) is a wholesale public water supply utility. TBW is governed by a nine-member board of directors with one member each from the municipalities of Tampa, St. Petersburg, and New Port Richey and two members each from the counties of Hillsborough, Pinellas, and Pasco. The purpose of TBW is to use group resources to find regional solutions to the problems of water supply in the region. Over two million persons in the three-county area rely on TBW for their drinking water. The predecessor of TBW was the West Coast Regional Water Supply Authority (WCRWSA), which was created in 1974. The West Coast Regional Water Supply Authority was also a wholesale public water supply authority. However, the authority operated as a cooperative entity, and TBW operates as a regulatory entity. In 1996, WCRWSA sought to renew its permit from Intervenor Southwest Florida Water Management District (SWFWMD) to allow continued withdrawals from four of its eleven major wellfields. Concerned with the environmental impacts, such as drawdowns of the water levels of wetlands, streams, and lakes, from the environmental, if not regulatory, overpumping of the wellfields, SWFWMD denied the application for the quantities requested. An Administrative Law Judge at the Division of Administrative Hearings conducted a hearing and issued a recommended order finding adverse environmental effects from overpumping, but recommending that SWFWMD issue the requested permits subject to certain conditions. Subsequent negotiations resulted in the parties' entering into a series of agreements covering withdrawals from the four wellfields that had been the subject of the administrative hearing and seven more wellfields that were approaching repermitting (11 Wellfields), as well as a series of other matters. On May 20, 1998, WCRWSA, the three member counties, the three member municipalities, and SWFWMD entered into the Northern Tampa Bay New Water Supply and Ground Water Withdrawal Reduction Agreement (Partnership Agreement). The Partnership Agreement requires WCRWSA to bring one or more projects online, by December 31, 2002, to produce at least 38 million gallons per day (MGD) and, by December 31, 2007, to produce at least 85 MGD of new water supply. The Partnership Agreement requires SWFWMD to provide WCRWSA with $183 million toward eligible water supply projects. The Partnership Agreement notes that the then-current Master Water Plan of WCRWSA recognizes that "an aggressive conservation and demand management program is an integral component of a sustainable water supply." (Joint Exhibit 3, p. 31.) The Partnership Agreement notes that the then-current Master Water Plan states that the conservation program was expected to reduce use by 10 MGD per day by 2000 and 17 MGD by 2005. From the effective date of the agreement through December 31, 2002, the Partnership Agreement requires a reduction in pumping of the 11 Wellfields to 158 MGD, based on a rolling 36-month average. For the next five years, the Partnership Agreement requires a reduction in pumping of the 11 Wellfields to 121 MGD, based on an annual average. After that, effective December 31, 2007, the Partnership Agreement requires a reduction in pumping of the 11 Wellfields to 90 MGD, also based on an annual average. Three weeks after the execution of the Partnership Agreement, WCRWSA was reorganized into TBW in June 1998 through the execution of two documents: an Amended and Restated Interlocal Agreement dated June 10, 1998 (Interlocal Agreement), and a Master Water Supply Contract dated June 10, 1998. TBW assumed WCRWSA's rights and responsibilities under the Partnership Agreement. The Interlocal Agreement empowers TBW to produce and supply drinking water "in such manner as will give priority to reducing adverse environmental effects of excessive or improper withdrawals of Water from concentrated areas." (Joint Exhibit 1, pp. 20-21.) The Interlocal Agreement incorporates the phased-in reductions in withdrawals from the 11 Wellfields that are set forth in the Partnership Agreement. The Interlocal Agreement notes that, if the Partnership Agreement provides for extensions of the deadlines, the deadlines contained in the Interlocal Agreement shall likewise be subject to extension. Applying to the 11 Wellfields, SWFWMD issued TBW a Consolidated Permit, which was issued on December 15, 1998, and became effective on January 1, 1999. Complementing the Partnership Agreement, which reflects SWFWMD's resource- development role, is the Consolidated Permit, which reflects SWFWMD's regulatory role. The Consolidated Permit incorporates the phased-in reductions of withdrawals, as set forth above, for the 11 Wellfields. Although the deadlines for phased-in reductions are conditioned on the funding to be provided by SWFWMD, pursuant to the Partnership Agreement, these deadlines are otherwise unconditional and firm. The Consolidated Permit expressly provides for extensions of deadlines, except the deadlines set for the phased-in reductions of withdrawals from the 11 Wellfields. The Consolidated Permit imposes upon TBW extensive responsibilities regarding environmental monitoring, reporting, and mitigation. These responsibilities extend to groundwater, wetlands, and surface waters, as TBW must, among other things, monitor and report levels in the surficial and Floridan aquifers and potentiometric surfaces in the Floridan aquifer in the vicinity of the 11 Wellfields, as well as in the vicinity of selected wetlands and surface waters. The Consolidated Permit sets specific "regulatory levels" for these resources. Present and Future Tampa Bay Water Facilities, Including the Surface Water Treatment Plant A majority of TBW's production facilities consists of the 11 Wellfields. In an effort to supplement these production sources so as to comply with the phased-in reduction deadlines set forth in the Consolidated Permit and other documents, TBW annually adopts a New Water Plan, which describes capital planning for drinking water production facilities. The June 2000 New Water Plan summarizes the requirements of the Partnership Agreement. The June 2000 New Water Plan notes that TBW reaffirmed its Master Water Plan and New Water Plan projects in April 2000. These projects include the Enhanced Surface Water System, which includes the Tampa Bay Regional Surface Water Treatment Plant (SWTP), Tampa Bay Reservoir Project (Reservoir), and projects obtaining water from the Alafia River, Hillsborough River, and Tampa Bypass Canal. Other projects, besides the Enhanced Surface Water System, include Seawater Desalination (Desal Plant). The June 2000 New Water Plan states that the Enhanced Surface Water System is eligible for a maximum of $120 million from SWFWMD, pursuant to its funding obligation under the Partnership Agreement. This case involves the means by which the SWTP will be permitted, and, in consideration of the manner of permitting, this case involves the means by which the SWTP will be designed and constructed. The June 2000 New Water Plan notes that TBW and USFilter Operating Services, Inc. (USFilter) have entered into a contract for the latter to design, build, and operate (DBO) the SWTP (DBO Contract). The June 2000 New Water Plan reports that USFilter is currently constructing an access road to the site. Among current issues, the June 2000 New Water Plan describes this case, noting that TBW obtained a variance from Respondent Department of Environmental Protection (DEP) allowing a design, build (DB) approach to permitting the SWTP. The June 2000 Water Plan states that the present challenge "has the potential to delay the completion of the [SWTP] by an estimated 8 months, subsequently delaying delivery of the initial 22 mgd (dry weather conditions) of new surface water to the regional system until May 2003 and more likely final acceptance of the [SWTP] to September 2003." (Joint Exhibit 5, p. 4.) (The accuracy of this statement is open to debate because SWFWMD granted an environmental resource permit for the SWTP project only on June 27, 2000--before which no significant alteration of the land could have taken place.) In the meantime, the June 2000 New Water Plan predicts a water supply shortfall of 100,000 to 2 million gallons per day in the South-Central service area of Hillsborough County. Addressing the SWTP, the June 2000 New Water Plan states that TBW purchased the site in October 1999 and released a Request for Proposals on July 19, 1999. Four pre-qualified DBO teams responded on October 18, 1999. The June 2000 New Water Plan erroneously states that TBW applied for a public drinking water facility construction permit (Water Treatment Permit) in October 1999. Actually, in September or October, TBW prefiled with the Hillsborough County Health Department (Health Department) its application for a Water Treatment Permit and paid the $7500 filing fee. The purpose of this courtesy filing or prefiling was to allow Health Department representatives to examine the application, including drawings and specifications for the SWTP, and perhaps expedite the approval process, once TBW filed a formal application. The June 2000 New Water Plan reports that the SWTP will have a peak day, surface water treatment capacity of 60 MGD and will be located on a 433-acre site near U.S. Route 301 and Broadway Avenue in central Hillsborough County. The June 2000 New Water Plan states that the SWTP project schedule calls for completion of construction by March 2003 with plant startup and testing in May 2003 and final acceptance testing in September 2003. The June 2000 New Water Plan estimates that detailed design, site permitting, and construction of the SWTP will cost $84.3 million, and the annual operation and maintenance expenses will be $7.9 million. As for the Desal Plant, the June 2000 New Water Plan reports that TBW will pursue a design, build, own, operate, and transfer (DBOOT) approach to acquire a plant to produce, initially, 25 MGD and capable of expansion by an additional 10 MGD. The June 2000 New Water Plan states that this plant will cost a total of about $96 million in capital expenses and about $19 million annually to operate. Procurement of the Surface Water Treatment Plant Design, Build, Operate Contract and Basis of Design TBW issued a Request for Proposals (RFP) that invited base and alternative proposals for the SWTP. TBW hired Parsons Engineering Sciences to prepare a preliminary design of the SWTP, so as to assist in the preparation of the proposals; although offerors could use alternative designs to the Parsons base design, all proposals had to meet the performance standards specified in the RFP. After publishing the RFP in papers and technical journals and on the Internet, TBW was able to prequalify five teams of offerors. Four of the five prequalified offerors submitted proposals. TBW received a total of nine proposals because each offeror submitted a base proposal and one alternative proposal, and one offeror submitted a second alternative proposal. At its January board meeting, TBW selected the USFilter proposal. No party filed a bid protest to the specifications of the RFP or the selection of USFilter and its team. After the selection of USFilter, TBW entered into negotiations with USFilter. During this process, USFilter agreed, at its expense, to add sand to the granulated activated carbon filters to remove fine particles more efficiently, even though it cannot recover the resulting cost of $1.5 million before or after the commencement of operations. TBW and USFilter entered into the DBO Contract on April 10, 2000 (DBO Contract). The DBO Contract identifies "Design Requirements" that "are intended to include the basic design principles, concepts and requirements for the [c]onstruction . . but do not include the detailed design or indicate or describe each and every item required for full performance of the physical [c]onstruction . . .." (Joint Exhibit 23, Section 1.2.6.) The "Design Requirements" are Schedule 6 to the DBO Contract. Schedule 6 contains all of the individual, technical specifications for the SWTP. Schedule 6 occupies two of the four volumes of large, three-ringed binders forming the DBO Contract. The DBO Contract identifies USFilter, Clark, and Camp Dresser & McKee, Inc. (Camp Dresser) as the DBO team for the SWTP project. Camp Dresser is providing design services, Clark is performing the construction, and USFilter is providing the operation and maintenance services for at least 15 years, as well as the financial guarantee, through its corporate parent. The DBO Contract provides TBW with a fixed construction cost, fixed operating costs, and guaranteed finished water quality. Schedule 8 assures that finished water quality will meet all applicable state and federal drinking water quality standards. Two witnesses at the hearing testified that TBW exacted from USFilter assurances of water quality that, as to certain parameters, will exceed applicable state and federal drinking water quality standards. The DBO Contract provides TBW with a firm completion date, subject to design modifications requested by TBW and uncontrollable circumstances, such as acts of God, raw water whose quality exceeds the maximum limits, or the delay caused by this case. A key document in this case is the Basis of Design Report (Basis of Design), which was prepared by the DBO team in April 2000. Acknowledging the phased-in withdrawal limitations and potential for fines for not meeting the deadlines set forth in the Consolidated Permit, the Basis of Design describes the purpose of the DBO process as follows: By utilizing the [DBO] approach for the [SWTP], [TBW] expects to secure substantial benefits . . .[,] includ[ing] costs savings, innovative design, reduced risk of schedule and cost excesses, long-term contracted facility operations, and maintenance efficiencies and guaranties. (Joint Exhibit 8, pp. 1-2.) The Basis of Design reports that the SWTP will be located on a 100-acre parcel within a 435-acre tract that will also accommodate facilities for groundwater treatment and storage of the treated groundwater, treated surface water from the SWTP, and treated saline water from the Desal Plant. The Basis of Design identifies the sources of raw water for the SWTF as the Tampa Bypass Canal, Hillsborough River, and Alafia River. Once online, the reservoir will help normalize quantities of available raw water throughout the dry season. The Basis of Design describes the main treatment process as pretreatment, including pH adjustment with sulfuric acid or caustic soda, powdered activated car feed, and ferric sulfate coagulant addition; coagulation, flocculation, and sedimentation using a high-rate ballasted sedimentation process known by its tradename as ACTIFLO; ozonoation for primary disinfection, taste and odor control, and partial conversion of dissolved organic carbon to an assimilable or biodegradable form; biologically active filtration for turbidity reduction, taste and odor control; reduction of biodegradable organic carbon; and post-treatment, including secondary disinfection using chloramines. The finished water will then be pumped into tanks for storage and blending before release into the distribution facilities. Distinguishing the DB process from the typical design, bid, build (DBB) process, the Basis of Design states: a very significant amount of process studies and pre-engineering was performed by the Project Team in support of its [DBO p]roposal. This work included a set of drawings covering all disciplines and developed to the 25 to 30 percent completion stage at a minimum with some drawings developed to a greater degree. This stage of drawing development is significantly beyond the sketches and diagrams usually provided in Basis of Design or Preliminary Design Reports. For this [Basis of Design,] the referenced drawings are attached and should be examined when reviewing this [Basis of Design]. As such, a relatively small number of figures are contained within this [Basis of Design]. (Joint Exhibit 8, pp. 1-4.) The Basis of Design notes that the Project Team conducted "pilot-scale" studies of the chosen treatment processes using Lake Manatee raw water. The purpose of these studies was to validate the selected treatment processes, provide water quality data, and establish appropriate operating criteria, such as coagulant dosages. The Basis of Design addresses raw water quality issues. One table sets out values for 30 different water quality parameters for each of the three raw water sources. The Basis of Design discloses expected water quality data for 11 water quality parameters. Of particular interest are total nitrogen and total phosphorus because, as noted in the Basis of Design, the algal life-cycle increases dissolved organic carbon and nutrient concentrations in reservoir water, and the "severity of this problem is impossible to predict." (Joint Exhibit 8, pp. 2-4.) The expected water quality values for total nitrogen and total phosphorus, respectively, are, on average, 0.8 and 0.55 mg/L and, at maximum, 1.6 and 2.1 mg/L. Each of the three surface waters approaches the average values, but none approaches the maximum values, for total nitrogen. The same is true for total phosphorus for the Tampa Bypass Canal and Hillsborough River. However, for the Alafia River, total phosphorus is 2.09 mg/L, so the raw water from the Alafia River may present a substantial treatment challenge, as it exceeds even the maximum expected value for total phosphorus. An error in Table 2-4 in reporting the maximum and average values of manganese (either the maximum value should be 0.02 mg/L or the average value should be 0.001 mg/L) and the omission of a turbidity parameter expressed in NTUs precludes analysis of these water quality parameters. However, the other expected parameters appear to reflect the actual water quality of these three surface waters. Section 4 of the Basis of Design describes the facilities and design criteria for the SWTP. This section begins with site grading, roadways, yardpiping, and stormwater management and extends to detailed discussions of the pretreatment and treatment processes, including the ACTIFLO, ozone contactor, and biologically active filtration. Urgency of New Means of Producing Drinking Water The SWTP is the hub of a network of production, storage, transmission, and distribution facilities that TBW plans to bring online in order to meet the requirements and deadlines set forth in the Consolidated Permit and other documents. The urgency for bringing this component of these new facilities online as soon as possible is due to environmental reasons, as well as the financial and legal reasons set forth above. Overpumping of existing wellfields has drawn down water levels in surface waters and wetlands, to the detriment of the overall level of biodiversity supported by these natural resources. Some lakes have been down 10 years, and a few have been down 40 or 50 years. During the recent drought, the City of Tampa, which obtains water from the Hillsborough River, lacked adequate volumes of surface water from which to produce sufficient finished water to meet the demand of its customers. Not surprisingly, these supply problems are accompanied by record withdrawals from the 11 Wellfields. Withdrawals in May and June of this year were the highest monthly withdrawals on record--208 MGD and 175 MGD, respectively. If the drought continues and TBW continues to meet the demands of its customers, TBW's withdrawals from the 11 Wellfields will exceed the permitted 158 MGD, on a rolling 36-month average, by April 2001. Wellfield overpumping has stressed the groundwaters. Although surface waters respond to substantial rains in as little as a day or two, groundwater takes significantly longer to respond. The surficial water table is as much as 20 feet below ground level, and the Floridan Aquifer is even deeper. The surficial aquifer does not begin to respond to substantial rains for one week, and the Floridan Aquifer begins to respond in two to four weeks. The condition of the surficial and Floridan aquifers affects the Hillsborough River and Tampa Bypass Canal, which are significantly recharged by the surficial and, sometimes, the Floridan Aquifer. The Floridan Aquifer is especially important to the Tampa Bypass Canal, whose rock bed has been breached. During dry periods, the two aquifers are the primary sources of recharge for these two surface waters. The Alafia River is more confined, but gets water from the Floridan Aquifer through two springs at the head of the river. TBW has already made substantial gains through conservation and has met the goal of nearly 10 MGD for 2000. Over the next 20 years, maximum potential gains are expected to be no more than 74-94 MGD. Conservation will continue to play an important role in securing adequate drinking water supplies in the Tampa Bay area, but conservation, even in conjunction with reclaimed water, will not suffice, especially when future population growth in the area is considered. TBW also manages wellfield production efficiently. Under its Optimized Regulatory Operations Plan, TBW collects and analyzes wellfield data to determine which wellfield to tap, notwithstanding specific limits set by wellfield, in order to minimize environmental damage. The consumptive use permits issued to TBW for the surface waters that will provide raw water to the SWTP restrict the amounts and timing of the removals. Additionally, a hydrobiological monitoring program requires the collection and analysis of data to safeguard against adverse effects in the rivers and, downstream, in the estuary. The contractual deadline for delivery of the SWTP is September 30, 2002. The timeframe for bringing online the SWTP necessarily relies on acceptance testing in the wet season, during which 60-65 percent of the annual rain occurs. The wet season extends from mid June to the end of September. Acceptance testing of the SWTP is imperative toward the end of this period because this is when the water quality of the surface waters bears the highest levels of the contaminants. Thus, if delays postpone beyond the wet season the point at which acceptance testing can take place, the postponement will effectively be until the next wet season and, possibly, the end of the next wet season. Permitting the Design, Build Process for the Surface Water Treatment Plant General The DB process envisioned by TBW would essentially break into phases the process by which TBW would obtain the necessary Public Drinking Water Treatment Construction Permit (Permit). The Permit initially would be based on "30 percent plans," which reflect about a 30 percent level of effort toward the overall design work or 30 percent completion of all of the design work (30 Percent Plans). Generally, 30 Percent Plans mark the end of the preliminary design phase. Plans reflecting 30, 60 and 90 percent levels of effort are customary in DBB processes, as these are the stages at which owners typically review design work. In 30 Percent Plans, some items are designed to 100 percent and other items are not designed at all. However, 30 Percent Plans provide reasonable assurance that the designed system is constructable. In essence, the Permit initially would be a conceptual permit for the entire SWTP coupled with a construction permit for those components for which the design is already complete on the 30 Percent Plans. Construction of each remaining component of the SWTP would await subsequent permit modifications authorizing construction of that component. As noted above, the May 18, 2000, cover letter anticipates another interim permit, or permit modification, covering specific components, and then the final permit, or permit modification, covering the entire SWTP. The DEP district office in Orlando has substantial experience with permitting DB water treatment projects. From 1996-98, the DEP Orlando office has permitted four such projects for the Orlando Utilities Commission and one such project for the City of Kissimmee. One of the Orlando Utilities Commission projects was to construct a completely new water treatment plant. Based on the experience of the DEP Orlando office, DB permitting, when based initially on 30 Percent Plans, shortens and simplifies the permitting process. DB permitting eliminates, or at least postpones, the presentation of elements, such as electrical and HVAC, that are irrelevant to the permitting process; the elimination of elements irrelevant to permitting from the initial designs helps the regulator find the elements that are relevant to the permitting process. Also, the experience of the DEP Orlando office is that the DB process results in no more permit modifications for change orders than are typical of a conventional DBB process. The DB-approval process used by the DEP Orlando office is modeled after the DEP-permitting process for wastewater treatment plants. DEP rules allow DB permitting of these plants, which are similar in construction to water treatment plants. In fact, DEP is preparing to adopt rules to allow DB permitting of water treatment plants. Because the DEP Orlando office did not issue variances from the rules that arguably preclude DB construction of water treatment plants, there is no precedent for the issuance of the variance sought in this case. However, the experience of the DEP Orlando office is that applicants do not present basic design changes after the initial submission, and DB permitting does not mean that regulatory objectives are sacrificed to the expediency sought by the applicant. The Present Case On April 11, 2000, Camp Dresser, on behalf of TBW, filed with the Health Department an Application for a Public Drinking Water Facility Construction Permit. The April 2000 drawings that accompanied the April 11, 2000, application are described above. The cover letter to the Health Department notes that, "upon conceptual approval of the project, individual components will be permitted through permit modifications based on submittals of complete drawings and specifications for each component." In this case, the availability of the Basis of Design meant that the 30 Percent Plans reflected more than a 30 percent level of effort or completion of the five-stage process of pretreatment, pH adjustment, ozone contactors, filtration, and storage in tanks. The engineer had already sized the facilities and defined all of the processes and elements of the SWTP. The April 2000 drawings, as supplemented by the Basis of Design, therefore presented a relatively detailed description of the scope, elements, and processes of the project. On May 18, 2000, Camp Dresser submitted to the Health Department more advanced drawings, which are dated May 18, 2000. The cover letter explains that the drawings are a complete set of Phase I drawings and specifications. The letter states that Camp Dresser intends to file complete drawings and specifications in three phases. Phase I, which is completed with the May 2000 drawings, consists of sitework, high rate flocculation and sedimentation, and ozone contact tanks. Phase II consists of biologically active granulated active carbon filters, clearwell, and gravity thickeners. Phase III consists of the remainder of the project. As of July 3, 2000, prior to the final hearing, the design for the SWTP had reached the 60 percent level of effort or completion. Although the SWTP described in the DBO Contract, Basis of Design, and May drawings is a relatively large, complex facility, it does not employ unproven technology. The standardization of design and regulatory review is facilitated by the use of the so-called Ten States' Standards, which are standards commonly used by the permitting authorities of numerous states, including Florida, to determine the capabilities of specified treatment processes in achieving specific water quality levels. Although the ACTIFLO technology is relatively new, it has been in use for at least five years. A pretreatment sedimentation barrier that reduces treatment time and thus tankage volume requirements, ACTIFLO is in use in a water treatment plant with a capacity of 60 MGD in Canada, which TBW's selection team members visited. ACTIFLO presently is being incorporated into a surface water treatment plant in Melbourne, Florida, where it must treat the nutrient-rich water of Lake Washington and the St. Johns River. The City of Tampa is adding ACTIFLO basins to its facilities. Also significant is the fact that ACTIFLO easily passed the pilot test on Lake Manatee. At present, 25 facilities using ACTIFLO are under design or construction in North America. As is consistent with the theory, the DBO process for designing, building, and operating the SWTP has demanded greater cooperation among the three entities that operate relatively independently in the DBB process. Pursuant to their obligations under the DBO Contract, Camp Dresser, Clark, and USFilter have coordinated, and likely will continue to coordinate, their efforts closely from design and construction, up to operation, to save time and money from the traditional DBB process, in which the design phase, construction phase, and operation phase are relatively independent of each other. The Variance In general, DEP has the authority to issue public drinking water treatment construction permits. The successful applicant obtains one permit--for construction and operation. There are no conceptual permits or separate operating permits. In Hillsborough County, as well as 10 other counties, DEP has delegated its responsibilities for issuing public drinking water treatment construction permits. In Hillsborough County, DEP has delegated this responsibility by an interagency agreement to the Health Department. Applying DEP rules to determine whether to issue a public drinking water construction permit, the Health Department defers to DEP for the issuance of variances from DEP rules. In typical permitting cases, the Health Department uses its own staff in processing the application and reaching a permitting decision. In a large case, such as this, the Health Department's lone professional engineer, who was hired in September 1999, can obtain considerable assistance from professional engineers within the Tampa Bay area and professional engineers employed by DEP. Perceiving a possible incompatibility between the DB process and the rules from which the variance is sought in this case, TBW initially filed a request for a variance with the Health Department. However, the Health Department declined to issue a variance to DEP rules and informed TBW that it had to file its request with DEP. Thus, on January 10, 2000, TBW filed a petition for a variance with DEP. On March 28, 2000, DEP issued a final order, pursuant to Section 120.542, Florida Statutes, granting the requested variance from Rule 62-555.520(4)(c) and (d), Florida Administrative Code (Variance). The Variance finds that the purpose of the underlying statutes would be met "because no component of the project would be permitted or constructed without review by the permitting authority of the complete plans and specifications for that portion of the project." The Variance finds that the DB approach will protect the public health, safety, and welfare in providing safe drinking water without exacerbating possible negative environmental impacts from the overuse of groundwater. The Variance relieves TBW of the necessity of complying with two subsections of the rule governing the contents of applications for a public drinking water construction permit. Rule 62-555.520(4)(c) and (d), Florida Administrative Code, provides: The permit application form sets forth the minimum information which is to be supplied to the Department or the Approved County Health Department. Additional information may be required by the Department to clarify information submitted in the permit application or to demonstrate that the proposed level of treatment will effectively treat the contaminants present in the raw water. The information required by the application is as follows: * * * Prints of drawings of the work project which contain sufficient detail to clearly apprise the Department of the work to be undertaken. All prints shall be minimum of 18 x 24 inches and a maximum size of 36 x 42 inches. The scale of details contained shall be satisfactory for microfilm reproduction. (Reduced size photographic reproduction of drawings for submission may be authorized.) Complete specifications of the project necessary to supplement the prints submitted. The issuance of the Variance by DEP has met with approval, albeit cautious approval, by the Health Department. One Health Department witness was an Engineer III, who is 19-year employee of the Health Department and supervisor of four Environmental Specialists charged with reviewing construction plans for drinking water plants. He testified that he agreed with DEP's final order granting the Variance. The Engineer III and the other Health Department witness, its professional engineer, testified that the issuance of the initial permit would not influence the Health Department in deciding whether to issue permit modifications, except to ensure compatibility. Allowing TBW not to comply with Rule 62-555.520(4)(c) and (d), Florida Administrative Code, the Variance provides that the initial permit shall not authorize the construction of any component of the SWTP; each component may be constructed only after the submission of complete plans and specifications for that component and the issuance of a permit modification based on those complete plans and specifications. The Variance also provides that the permitting authority shall publish a notice of intent to issue a permit modification "if the permitting authority believes that the modifications are of a controversial nature, or that there is heightened public awareness of the project." Save Our Bays and Canals, Inc. The Verified Amended Petition On May 1, 2000, Petitioner filed a petition challenging the Variance. On June 29, 2000, Petitioner filed an amended petition challenging the Variance, and the Administrative Law Judge granted Petitioner leave to file an amended petition on July 3, 2000. At the start of the hearing, on July 7, 2000, Petitioner filed a verified amended petition, which was identical to the amended petition, except that, on July 6, 2000, Petitioner's president had verified the pleading "to the best of [his] knowledge, information and belief." The verified amended petition states that Petitioner has over 400 members. The verified amended petition alleges that a substantial number of Petitioner's members will consume the finished water produced by the SWTP and will use the surface waters supplying the SWTP for recreation. The verified amended petition states that the purpose of Petitioner is to save the bays, canals, and waterways of the Tampa Bay area and to ensure safe drinking water for its members and residents of the Tampa Bay area. The verified amended petition states that the Variance affects Petitioner because it would allow the issuance of the Permit and construction of initial phases of the SWTP prior to submittal, review, and approval of complete plans for the next and subsequent phases. The verified amended petition alleges that Petitioner incorporated to pool its resources to review applications, so as to ensure safe drinking water. The verified amended petition states that submittal and review of a complete set of drawings and specifications is necessary prior to construction of the SWTP to ensure the ability of the facility to comply with state drinking water standards. The verified amended petition states that review of all individual components of the SWTP is necessary to assure the protection of the public health, safety, and welfare and the compliance with all applicable state and federal laws. Addressing specifically the 30 Percent Plans, the verified amended petition objects to the absence of a list of items to be included in the 30 Percent Plans. The verified amended petition alleges that this piecemeal approach to permitting will require Petitioner to request administrative hearings on each phase of permitting. The verified amended petition states that the Variance may have adverse environmental and safety impacts that cannot be evaluated fully without a submittal and review of the complete drawings and specifications. The verified amended petition states that the DBO approach is "self-created." The verified amended petition objects to the failure of TBW to obtain the Variance before issuing the RFP and instead using the DBO Contract as a basis for claiming hardship so as to qualify for the Variance. The verified amended petition states that the number of variances issued for similar 30 Percent Plans threatens to create a situation in which the variance subsumes the rule requiring complete drawings and specifications. The verified amended petition objects to this form of unwritten policy that has not been published as a rule. The verified amended petition states that the phased permitting of the SWTP may create permitting momentum that discourages a rigorous application of the rules at a later stage. The verified amended petition states that the request for a variance is improper because it is for a variance from statutes, not rules. The verified amended petition states that Section 403.861(10), Florida Statutes, requires DEP or Health Department approval of "complete plans and specifications prior to the installation, operation, alteration, or extension of any public water system." The verified amended petition states that "installation" means construction. The verified amended petition states that Section 403.861(5), Florida Statutes, prohibits the issuance of a public drinking water treatment construction permit "until the water system has been determined to have the required capabilities . . .." The verified amended petition states that the assurances of USFilter are insufficient to satisfy this requirement. The verified amended petition states that Section 120.542, Florida Statutes, which authorizes the variance procedure used in this case, does not authorize variances for compliance with federal law. The verified amended petition states that TBW must obtain a federal variance in order to obtain the Variance. The verified amended petition states that the 30 Percent Plans omit information required for permitting, such as the listing of a certified operator, monitoring and recordkeeping programs, and various financial elements, such as the posting of a bond and creation of reserves to demonstrate financial soundness. The verified amended petition states that TBW's substantial hardship is based on contract deadlines that are entirely self-created and, thus, insufficient to warrant a variance. The verified amended petition notes that the environmental damage cited as a basis for granting the Variance "was caused by years of overpumping by . . . TBW . . .." Also, the verified amended petition states that member governments of TBW continue to approve new development, which increases the demand for drinking water, because TBW and its member governments have failed to exploit fully the potential for conservation and reclaimed water. Similarly, the verified amended petition states that SWFWMD helped create the hardship by renewing the permits for additional withdrawals from the 11 Wellfields. The verified amended petition states that the DBO process will not necessarily save time and money and is not a recognized exception to the general requirement that an applicant must submit complete drawings and specifications prior to permitting. The verified amended petition states that 30 Percent Plans do not provide sufficient detail to know what the contractor is promising to build, and it would be faster to correct any mistakes prior to the start of construction, rather than after the start of construction. Standing Petitioner was an unincorporated association from its formation in early October 1999 through February 3, 2000, when it was incorporated as a Florida not-for-profit corporation. Originally named Save Our Bays and Canals Association, the unincorporated association was formed by members of the Apollo Beach Civic Association who were concerned about the environmental impact upon their bays and canals of intensive utility and industrial land uses in close proximity to their homes. Apollo Beach is an unincorporated area along the southeast shore of Tampa Bay, just south of the mouth of the Alafia River. The land uses with which the unincorporated association has been concerned in its brief existence include a sulfur plant, the TECO Big Bend plant, a proposed National Gypsum plant, a proposed concrete plant, the proposed Desal Plant, and, now the proposed SWTP. The Apollo Beach area is very close to the proposed site of the Desal Plant, but is about 17 miles south southeast from the proposed site of the SWTP. Petitioner and its members are primarily concerned with the Desal Plant, not the SWTP. However, Petitioner and its members express concern with the SWTP. The concerns are that DB permitting of the SWTP will jeopardize the production of safe drinking water and will result in greater costs to TBW customers, who will eventually bear the financial burden of costly reworking of a hastily designed and constructed project. Standing analysis is simplified by the elimination of the issue of whether the verification of the amended petition confers standing. The claims of Petitioner in this case do not rise to the level of an attempt to prevent an activity, conduct, or product to be permitted from impairing, polluting, or otherwise injuring the air, water, or other natural resources of the State. First, finished drinking water is not a natural resource of the State. Although a resource, finished drinking water is not natural. Although of lower water quality, raw water is a natural resource. The potable water leaving the SWTP is a manufactured resource. Second, even if finished drinking water were a natural resource, the issuance of the Variance does not have the effect of impairing, polluting, or otherwise injuring a natural resource. The Variance excuses compliance with two rules requiring complete drawings and specifications. Even assuming that the SWTP would impair, pollute, or otherwise injure natural resources, the Variance would not have such an effect because the act of granting the Variance is distinct from the act of granting the Permit itself. Thus, facts regarding the circumstances under which Petitioner's president verified the amended petition are irrelevant for the purpose of determining standing. Petitioner's standing is a function of the characteristics of the corporation and its members. At the corporate level, the articles of incorporation state that the "specific and primary purposes for which this corporation is formed are to operate for the public education and advancement of the water quality of Tampa Bay, its tributaries, its estuaries and its canals and for other charitable purposes, by the distribution of its funds for such purposes." There is some indication in the record of an attempt, after filing the petition commencing this proceeding, to amend the articles of incorporation to state, among Petitioner's purposes, the protection of drinking water. The record does not contain the written articles of incorporation, as amended, or amended articles of incorporation after February 3, 2000. However, for the purpose of this recommended order, the Administrative Law Judge shall assume that such an amendment was made at some point after the filing of the petition and before the final hearing. At the membership level, the water to be produced by the SWTP will be distributed primarily to customers in Pasco and Pinellas counties, St. Petersburg, and the Northwest Service Area of Hillsborough County, not to Apollo Beach, which is in southern Hillsborough County. Nearly all of Petitioner's members reside in Apollo Beach or other nearby communities, which also will not be served by the SWTP. Although an insubstantial number of Petitioner's members will consume finished water from the SWTP in their homes, a substantial number will consume finished water from the SWTP at their places of work or schools and where they shop or dine out. Drinking water is ubiquitous, and the mixture of functional land uses in Apollo Beach is not, so it is highly probable that members of Petitioner will travel the three-county area in connection with their employment, education, and recreation. Close analysis of the characteristics of Petitioner and its members reveals no basis for finding standing to challenge the Variance. Nothing in the record suggests that Petitioner or any of its members have devoted themselves to the arcane task of resisting a perceived trend of state and local agencies to issue series of permits in response to DB proposals--or, more colorfully, to engage in "piecemeal permitting." About the only interest that Petitioner can legitimately claim in DB permitting is that multiple points of entry, at each permit and permit modification, will result in additional expense. If Petitioner has standing to contest even the permitting of the SWTP, Petitioner must petition each time for an administrative hearing, conduct discovery, and participate in the final hearing. However, this seems, at most, like a tenuous interest, which suffers also from the speculation that later stages of the DB permitting process will continue to present new issues not raised in the challenge of the Permit initially approved. Turning to the members themselves, their consumption of drinking water produced by the SWTP is no basis for standing either because the attenuated relationship between the Variance, which excuses compliance with two rules concerning the contents of applications, and the safety of drinking water or the additional costs that could arise from hasty designing, constructing, or permitting. Although it is conceivable that a record could have been made that the DB permitting proposed in this case would likely result in incomplete, incompetent permitting review, so as to jeopardize the public health if the permit were to issue, the record in this case does not support such a contention. To the contrary, the record establishes that the DB permitting is at least as likely as DBB permitting to provide the regulatory oversight necessary to assure the design and construction of a successful public drinking water treatment plant Lacking a substantial nexus in the record between the DB permitting authorized by the Variance and the quality of the drinking water that, if the Health Department issues the Permit, would likely be produced by the SWTP and likelihood of success of the overall construction project, the members of Petitioner likewise lack standing to challenge the Variance. Ultimate Findings of Fact Petitioner and its members lack standing to challenge the Variance. TBW faces a substantial hardship if not given the Variance. The legal and financial consequences of a failure to meet the phased-in withdrawal reductions are real and substantial. The environmental damage caused by overpumping the 11 Wellfields underscores the urgency of developing alternative sources of raw water for production into finished drinking water. The rule from which TBW seeks the Variance is derived from the statute discussed in the Conclusions of Law. The underlying purpose of this statute is the protection of the public health, safety, and welfare. The Variance serves the underlying purposes in two respects. First, the 30 Percent Plans contain sufficient detail to allow permitting to proceed without jeopardizing the objective of the rules to ensure that the USFilter team designs and constructs a water treatment plant that is in full compliance with all federal and state law. Second, the Variance provides that the USFilter team shall construct no component of the SWTP until it has been permitted, either initially or by a permit modification. Petitioner's Liability for Attorneys' Fees and Costs Petitioner has a Technical Committee on which Petitioner relies for examination of technical aspects of matters that are of general concern to Petitioner. This committee obtained a copy of the Variance and, after examination and discussion, developed a position in opposition to DEP's stated intent to grant the Variance. The Chair of Petitioner's Technical Committee, who has a bachelor of science degree in chemistry and is an industrial hygienist, drafted a letter reflecting the opinion of the committee in opposition to the Variance. Petitioner's attorney then converted this letter into the petition that commenced this proceeding. At all times, the Board of Directors of Petitioner approved the actions of the Technical Committee and Petitioner's attorney, including the filing of the petition. When Petitioner's president verified the amended petition, he reasonably relied on the advice of counsel concerning the substance of the assertions, and the advice of counsel was based on the work of the Technical Committee. Petitioner's president also reasonably relied on the work of the Technical Committee when he verified the amended petition. Although DB permitting has been available for the design and construction of wastewater treatment plants for an undetermined period of time, DB permitting for the design and construction of public drinking water plants is a new concept. The concept is so new that the DEP Orlando office mistakenly issued at least 2 DB permits for public drinking water plants without requiring the applicant to obtain a variance from the two rules that prevent DB permitting for such facilities. The concept is so new that the key Health Department employees have expressed concern over personnel demands from this new means of permitting, although they have also expressed at least lukewarm support for the Variance. The record portrays the employees of the Health Department as hard-working and competent, but over-burdened. The DB permitting obviously places significant responsibilities upon the Health Department, especially as it familiarizes itself with DP permitting. Although the availability of professional support from other sources, including DEP, ultimately resolves this issue, the situation of the Health Department also is relevant in assessing Petitioner's liability for attorneys' fees and costs. Two or three aspects of the drawings were deficient, according to Petitioner's professional engineer, whose testimony has been admitted despite the unreasonably restricted opportunity presented for cross-examination by his contractually driven refusal to identify past clients or jobs. Although none of these items seems likely to jeopardize a successful construction project, these were design points on which well-informed professionals could reasonably differ. Although the issue of "improper purpose" presents a closer question than the substantive issues discussed above, there is inadequate subjective or objective evidence in the record supporting TBW's claim for attorneys' fees and costs on this ground. Ultimately, the novelty of DB permitting of drinking water treatment plants precludes a finding of improper purpose. All available facts drive this determination, and, at this point in time, the relative uniqueness of DB permitting of drinking water treatment plants to DEP, the Health Department, and Petitioner and its members provides the necessary margin to preclude a finding of improper purpose.
Recommendation It is RECOMMENDED that the Department of Environmental Protection enter a final order granting the Variance and denying the request of Tampa Bay Water for attorneys' fees and costs. DONE AND ENTERED this 24th day of July, 2000, in Tallahassee, Leon County, Florida. ROBERT E. MEALE Administrative Law Judge Division of Administrative Hearings The DeSoto Building 1230 Apalachee Parkway Tallahassee, Florida 32399-3060 (850) 488-9675 SUNCOM 278-9675 Fax Filing (850) 921-6847 www.doah.state.fl.us Filed with the Clerk of the Division of Administrative Hearings this 24th day of July, 2000. COPIES FURNISHED: Kathy C. Carter, Agency Clerk Office of General Counsel Department of Environmental Protection 3900 Commonwealth Boulevard Mail Station 35 Tallahassee, Florida 32399-3000 Teri L. Donaldson, General Counsel Department of Environmental Protection 3900 Commonwealth Boulevard Mail Station 35 Tallahassee, Florida 32399-3000 Ralf G. Brookes, Attorney 1217 East Cape Coral Parkway Suite 107 Cape Coral, Florida 33904 Donald D. Conn, General Counsel Tampa Bay Water 2535 Landmark Drive, Suite 211 Clearwater, Florida 33761 J. Frazier Carraway Thomas A. Lash Salem, Saxon & Nielson, P.A. 101 East Kennedy Boulevard Suite 3200 Tampa, Florida 33601 Cynthia K. Christen Senior Assistant General Counsel Department of Environmental Protection 3900 Commonwealth Boulevard Mail Station 35 Tallahassee, Florida 32399-3000 William S. Bilenky General Counsel Jack R. Pepper, Jr. Associate General Counsel Southwest Florida Water Management District 2379 Broad Street Brooksville, Florida 34609-6899
The Issue Schofield Corporation of Orlando has applied to the Department of Environmental Regulation for a permit to construct and operate a Class III trash/yard trash landfill in Orange County, Florida. The issues are whether the applicant is entitled to the permit and, if so, what conditions should attach. Also at issue is Schofield Corporation's motion for attorney's fees and costs, pursuant to Section 403.412(2)(f), F.S.
Findings Of Fact The applicant, Schofield Corporation of Orlando (Schofield), owns the proposed landfill site and existing permits for the site. The proposed site is located in West Orange County, southwest of the intersection of State Road 545 and Schofield Road on the west half of the northwest quarter of section 32, township 23 south, range 27 east, comprising approximately sixty acres within a larger eighty-acre parcel. In some undetermined distant past the site was cultivated in citrus. It is currently being excavated as a borrow pit. The materials proposed to be placed in the landfill include trash, yard trash, construction and demolition debris and clean debris, as defined in DER Rule 17-701.020, F.A.C. The northern half of the site is flat and will be used first for the composting operation. The southern excavated portion of the site will receive the permitted fill material until it is flattened. Then, the two functions will alternate; the composting will occur on the south, and the north end will be excavated to receive fill. The proposed facility will be operated by Chambers Corporation, a nationally recognized waste management company with approximately 20 years of experience in solid waste management. The landfill site will be completely fenced, with a gate entrance mid-site between the landfill and compost area. The gate will be locked when the facility is not in operation, and will be patrolled by security personnel 24 hours a day. "Spotters", or inspectors will be employed to examine incoming waste loads at the gate, from a high gantry, and at the place where the waste is deposited. The loads will be monitored by a television camera, and all haulers will be under contract. The landfill will not accept loads from trucks coming off the road looking for a place to dump. Receptacles will be maintained on site to receive errant non-permitted waste that is found in a load, and that waste will be properly disposed of elsewhere. Schofield has several permits related to its proposed operation. These include a type III landfill permit from Orange County, a compost facility permit from DER, a general construction and demolition debris landfill permit from DER, a surface water management permit from the South Florida Water Management District, and a permit to excavate or mine from the Florida Department of Natural Resources. Schofield also has a contract to receive yard waste from Orange County. The initial term of contract requires at least ten percent of the yard waste to be composted or recycled, with the percentage amount to be renegotiated in subsequent contract renewals. In the hierarchy of landfills, DER considers Class III the least environmentally sensitive. Problems with unauthorized waste and with water quality occur more frequently with Class I landfills, defined as accommodating more than twenty tons a day of residential garbage. In this case DER has proposed to grant Schofield its Class III permit without the requirement of a bottom liner or a leachate or gas control system because of the nature of the waste that will be accepted and because of the rigorous controls, described above, to avoid receiving unauthorized or hazardous waste. The Petitioners are an individual and a homeowners' association representing a residential area approximately a half mile south of the proposed site. Petitioners contend that the applicant's data is insufficient to provide reasonable assurances that water quality standards will not be violated. Petitioners contend that the landfill, if approved, should be required to have a liner to prevent leachate from polluting the groundwater. They further contend that the groundwater monitoring plan submitted by the applicant is inadequate to detect vertical movement of contaminated leachate into the Floridan aquifer, a major source of water supply in Orange County. Hydrogeology The site of the proposed landfill is within a high recharge area. Water percolates rapidly though the soil, moving downward into the aquifer, and laterally off site. The site is considered Karst terrain, underlined with limerock. There is evidence of relic sinkholes, thousands of years old, but there is a low probability of future open sinkhole development. The geology in the area of the site provides adequate structural support for the proposed facility. An aquifer is generally defined as a unit of material which contains water and can give up a sufficient amount of yield to provide some productive flow for pumpage. Below the site there are two aquifers: the shallow water table, or surficial aquifer, containing clean well-drained fine sands, about 70 feet down; and the Floridan, primarily limestone, encountered at a depth of approximately 115 feet. The two are separated by a confining layer of less permeable sands and clay. Flow in the Floridan at the site is primarily from the west to east. Flow in the surficial is also generally from west to east, but the Petitioners theorize, and have presented competent supporting evidence, that there are fissures in the confining layer, allowing some internal drainage within the site, causing surficial water to flow vertically into the Floridan, rather than laterally off-site in an eastward direction. Based on recent data taken from two piezometers installed near the middle of the site, the applicant's hydrogeologist, James Golden, concedes that "mounding" exists along the eastern boundary of the site, reflecting some flow westerly back into the interior of the site. Petitioners' theory regarding internal draining of the site is based in part on data as to groundwater elevation. Groundwater elevation or high groundwater table is the elevation at which water stands on a continuous surface under the site. Jammal and Associates is a consultant firm which has done field studies of this and neighboring sites in the past, for various purposes. Some open bore readings taken by Jammal and Associates in a 1983 study for the Orange County Rapid Infiltration Basin project indicate groundwater table levels on site up to 126 feet, National Geodetic Vertical Data (NGVD). Open bore readings are less reliable than cased hole readings; due to collapses within the hole, artificially high readings are sometimes obtained. Data from the applicant's consultants reveals groundwater tables at 96-98 NGVD. This data was most recently obtained in December 1991 from sealed and surveyed piezometer casings, but not from the area of the site where Jammal's higher readings were obtained. Although it may be conjectured that Jammal's high readings are anomalous, additional sealed borings need to be obtained before the anomaly is confirmed. Groundwater elevations are significant also to determine the depth to which the landfill may be excavated. Based on its December 1991 readings, obtained after the application for permit was filed, the applicant agreed to raise the proposed bottom of the landfill to approximately five feet above the level of the estimated high (wet weather) groundwater table in the area. Water Quality and Monitoring Specific conditions of the proposed permit include DER's requirements that Class GII water quality standards be met at the boundary of the zone of discharge, in accordance with Rule 17-3, F.A.C. The zone of discharge for this facility is a three-dimensional volume defined in the vertical plane as the top of the ground to the base of the most surficial aquifer, and horizontally 100 feet from the edge of the waste-filled area, or the property boundary, whichever is less. The groundwater monitoring plan proposed by the applicant includes one upstream monitoring well on the west side of the site and five wells along the east side of the site, with an additional well at the south, between the project and the Petitioners' residential area. The wells extend down into the upper zone of the surficial aquifer, but not into the deeper limestone Floridan. The downstream wells should detect any contamination in the surficial aquifer flowing from west to east at the zone of discharge. However, they will not pick up contamination draining internally within the site and into the Floridan. Such contamination is possible, even though leachate from Class III- type wastes is expected to be relatively benign. Volatile organic carbons (VOCs) have not typically been a problem in Class III landfills, unless those landfills were previously operated as Class I sites. Secondary drinking water standards for certain metals have been violated at some Class III sites, but such violations are often related to the problem of sampling newly-installed wells. From DER records, Petitioners presented evidence of consistent drinking water quality standard violations in Class III landfills. That such violations can occur in Class III landfills is clearly established. It is not so clear that such violations will occur in this facility, given the proposed controls on load content. However, even acceptable materials will not avoid the production of leachate or gas. Within demolition waste there are chemically bound components which are inseparable, for example, creosote and other preservatives, glues, paints, resins, varnishes and stains. The lignin, tannins and volatile organic acids which are produced when wood decomposes alter the pH of the groundwater. As the water becomes more acidic, heavy metals that were typically bound up in the waste or in the soil, are released in soluble form and travel with the water. The decomposition process occurring in the construction and demolition waste is enhanced by the addition of yard trash which becomes the food source for the biodegradation. Summary of Findings and Proposed Permit Conditions If, as applicant suggests, all groundwater moves primarily from west to east within the site, given the proposed operational controls and the proposed monitoring plan, reasonable assurances have been provided that water quality standards will not be violated beyond the zone of discharge. That is, any contamination likely to occur will be contained within the surficial aquifer and within the 100 feet or property line horizontal boundary. Transmissivity of the surficial aquifer is low enough to allow mixing of the leachate before it reaches the zone of discharge. The Petitioners, however, have presented credible evidence sufficient to question the groundwater flow premise and sufficient to require additional conditions on the permit. If leachate reaches the Floridan through fissures in the confining layer, it will move rapidly off site. In its proposed recommended order DER has suggested additional permit conditions and in its adoption of the proposed recommended order, the applicant has accepted those additional permit conditions. Those permit conditions recognize the fact that data presently provided by the applicant is insufficient to overcome the evidence by Petitioners as to the hydrogeological characteristics of the site with the possibility of internal drainage and vertical intrusion of contaminated water into the Floridan aquifer. The proposed recommended order provides this finding: ...that the ground water monitoring plan as proposed in this proceeding is adequate, provided that there be added to the permit conditions that the permittee conduct appropriate water table testing with cased piezometers during the next wet season to determine whether ground water flow is internal within the site and therefore not intercepted by the present ground water monitoring wells. The permittee shall consult with DER and get approval for the location and construction of these wells prior to their installation. The results shall be immediately submitted to the DER. The ground water monitoring requirements should be modified if necessary at that time pursuant to Rule 17-28.700(5) to assure proper monitoring at this site. (DER proposed Recommended Order, p. 17) The ground water monitoring plan modification suggested by DER is that deeper monitoring wells, into the Floridan aquifer, be required if the additional testing reveals the likelihood of internal on-site ground water drainage. These conditions are still inadequate since they lack specificity with regard to the extent of testing, the location and construction of the wells, and the amendments to the monitoring program to be required if internal drainage is confirmed. Moreover, the proposed conditions fail to address the possibility that the permit should require a liner for the landfill if the data to be obtained reveals the likelihood that contaminates will penetrate into the groundwater of the Floridan. Monitoring programs, however effective, only predict or detect problems; they do not remediate them. Groundwater contamination by landfills is not quickly and easily reversed. Unlike discharges from other facilities such as spray application or deep well injection, the leachate from a landfill is not "turned off". Without the additional data which all parties agree is needed, it is impossible to determine what additional conditions, if any, should be required or what amendments, if any, need to be made to the applicant's proposed monitoring plan.
Recommendation Based on the foregoing, it is hereby, RECOMMENDED: That the Department of Environmental Regulation issue its Final Order denying the application for Class III land fill permit. DONE AND RECOMMENDED this 17th day of June, 1992, in Tallahassee, Leon County, Florida. MARY CLARK Hearing Officer Division of Administrative Hearings The DeSoto Building 1230 Apalachee Parkway Tallahassee, Florida 32399-1550 (904)488-9675 Filed with the Clerk of the Division of Administrative Hearings this 17th day of June, 1992. APPENDIX TO RECOMMENDED ORDER The following constitute specific rulings on the findings of fact proposed by the parties: Petitioner's Proposed Findings of Fact Adopted in paragraph 1. Adopted in substance in paragraph 10. 3.-11. Rejected as unnecessary. 12.-23. Rejected as argument or summary of testimony, rather than findings of fact. 24. Rejected as unnecessary. 25.-30. Rejected as argument or summary of testimony, rather than findings of fact. 31. Rejected as unnecessary. 32.-41. Rejected as argument or summary of testimony, rather than findings of fact. Rejected as unnecessary. Adopted in substance throughout the recommended findings. 44.-50. Adopted in Preliminary Statement and paragraph 4. 51. Rejected as unnecessary. 52.-53. Adopted in paragraph 2. 54.-55. Rejected as statement of testimony rather than finding of fact. Adopted in paragraph 3. Rejected as unnecessary. 58.-97. Rejected as argument or statement of testimony, rather than findings of fact. Subparts a), b), c) and e) are rejected as unsupported by competent evidence. The evidence suggests that violations might occur and that insufficient data has been produced. Subpart d) is adopted, by implication in paragraph 18. 99.-101. Adopted in summary in paragraph 20. Respondent's Proposed Findings of Fact Addressed in Preliminary Statement. Adopted in paragraphs 1, 2 and 5. 3.-4. Adopted in paragraph 4. Adopted in summary in paragraph 11. Adopted in paragraph 13. Rejected as unnecessary or irrelevant, given the stipulation related to Section 403.412, F.S. standing. Rejected as cumulative. Adopted in paragraph 10. Adopted in paragraph 9. Adopted in substance in paragraph 9. 12.-13. Adopted in paragraph 13. Adopted in substance in paragraph 16. Rejected as unsupported by the evidence. If internal drainage is shown to exist, conditions other than additional monitoring wells may be required. Adopted in paragraph 17. 17.-18. Adopted in paragraph 3. 19.-21. Rejected as unnecessary. Adopted in paragraph 4. Adopted in paragraph 12. 24.-26. Adopted in general in paragraph 14. 27. The unlikelihood that unauthorized waste will be dumped is adopted in paragraph 3. Whether there will be a violation of ground water quality standards at the zone of discharge was not established, given the need for additional data on internal draining. COPIES FURNISHED: Thomas B. Drage, Jr., Esquire P.O. Box 87 Orlando, FL 32802 Irby G. Pugh, Esquire 218 Annie Street Orlando, FL 32806 Douglas H. MacLaughlin Asst. General Counsel DER-Twin Towers Office Building 2600 Blair Stone Road Tallahassee, FL 32399-2400 Carol Browner, Secretary DER-Twin Towers Office Building 2600 Blair Stone Road Tallahassee, FL 32399-2400 Daniel H. Thompson General Counsel DER-Twin Towers Office Building 2600 Blair Stone Road Tallahassee, FL 32399-2400
The Issue As reflected in the parties' prehearing stipulation filed on August 28, 1991, the issue in this case is whether the St. Johns River Water Management District (SJRWMD) should approve South Brevard Water Authority's (SBWA) consumptive use permit (CUP) application. The SBWA is seeking permission to withdraw an annual average daily rate of 18.8 million gallons (mgd) and a maximum daily rate of 21.4 mgd. The District proposes to grant the permit with specified conditions. Petitioners challenge the issuance of the permit, alleging that applicable requirements of Chapter 373, F.S. and Chapter 40C-2, F.A.C. and other applicable law are not met. The standing of Petitioners, other than Osceola County, is at issue. Also at issue is whether the relevant criteria include consideration of the adequacy of existing sources of water, and the consideration of costs of utilizing existing sources versus the cost of the proposed new source of water.
Findings Of Fact The Parties The applicant, South Brevard Water Authority (SBWA) was created by special act of the legislature, Chapter 83-375, Laws of Florida. Its principal office is located in Melbourne, Brevard County, Florida. Its general mission is described in Section 1, of Chapter 83-375, Laws of Florida, as amended by Chapter 87-481, Laws of Florida: Section 1. It is hereby declared and determined by the Legislature that a regional water authority is the most responsive, efficient, and effective local government entity to secure, operate, and maintain an adequate, dependable, and safe water supply for the district and customers of the district. It is the intent of the Legislature that such regional water authority possess the full power and authority to implement, finance, and operate a single coordinated program of water supply transmission and distribution to meet the future quantity and quality needs of the district and for customers of the district. There is a paramount public need to develop a safe, reliable, and energy-efficient source of public water for the district residents and to contruct the wellfields, transmission lines, and other facilities necessary to supply such water. The St. Johns River Water Management District (SJRWMD or District) is an agency created pursuant to Chapter 373, F.S. in charge of regulating consumptive uses of water in a 19-county area of the State of Florida, including all of Brevard and part of Osceola County. The geographical boundaries of the District are described in Section 373.069(2)(c), F.S. Osceola County is a political subdivision of the state, west of, and contiguous to, south Brevard County. The Corporation of the President of the Church of Jesus Christ of Latter Day Saints (Deseret) is a Utah corporation authorized to conduct business in the State of Florida. Deseret owns real property in Osceola County to the north and east of the proposed wellfield. Deseret possesses a valid consumptive use permit authorizing the withdrawal of water for this property. East Central Florida Services (ECFS) does not own land or possess a consumptive use permit (CUP). Its purpose is to take over the water management program for the Deseret property. It has applied to the Public Service Commission for certification. Notwithstanding the parties' stipulation that "Triple E Corporation" and "Triple N Corporation" own real property in Osceola County near the proposed wellfield (prehearing stipulation, filed 8/28/91, p. 5), no such corporations are registered in the State of Florida. The lands identified as Triple E and Triple N are owned by multiple parties through trusts, primarily managed by Maury L. Carter, one of the owners. Neither Triple E nor Triple N properties have CUP's. The properties are used for agricultural purposes and the Triple N property has a well and recreational camp. The Site of the Proposed Use The proposed wellfield is located on property owned by the SJRWMD, the Bull Creek Wildlife Management Area (BCWMA), located entirely in eastern Osceola County. The BCWMA is comprised of 22,206 acres within the drainage area of the St. Johns River. The northern third of the management area is drained by Crabgrass Creek, and the southern two-thirds is drained by Bull Creek. The easternmost boundary is located approximately one mile from the Brevard County boundary. Currently all 22,206 acres of the BCWMA are under lease to the Florida Game and Fresh Water Fish Commission, which agency manages the area as a public recreation facility for hunting, fishing, hiking, horseback riding, camping and archeological studies. The sparsely populated area has historically been used for logging and cattle grazing. It was acquired for a detention area and it currently provides nonstructural flood protection. Its surface topography is relatively flat, with uplands and wetlands separated by only inches in vertical elevation. Upland communities include pine flatwoods, saw palmetto prairies, pine savannahs and sand oaks. Wetland communities include cypress domes, mixed shallow marshes, sawgrass marsh, wet prairies and transitional prairies. The BCWMA is classified as a "conservation area" in the District's current adopted Five Year Land Plan which summarizes the agency's land acquisition and management policies. A "conservation area" is defined as "...an area acquired for water resource conservation and protection in an environmentally-acceptable manner". The term includes water supply areas, including areas for public wellfield location. (Osceola Co. exhibit #33, p. 15) Facilities Associated with the Proposed Consumptive Use Although the precise siting of the wells has not been established, the wellfield will be located at the northern end of the BCWMA, east-west into a "panhandle" area, and extending south, for an inverted "L" shape. The wellfield will consist of 12 production wells in 2000 ft. intervals. Wells 1-9 will lie along an east-west axis adjacent to Crabgrass Creek, while wells 10-12 will lie along a north-south axis below well 9, the eastern-most well. The capacity of each well is designed at 3,000 gallons per minute or approximately 4.30 million gallons a day (mgd). Each well consists of 20" diameter casing pipe extending 700' below the ground surface. From there, an open hole for production will extend another 250 feet in depth. A small, 20 ft. by 30 ft., concrete building will enclose the motor and other equipment associated with each well, in order to eliminate vandalism and to baffle the noise. The wells will be sited to avoid jurisdictional wetlands. In addition to the production wells, monitoring wells will be constructed to comply with permit conditions. Because the water drawn from the proposed wellfield will exceed potable standards, reverse osmosis (RO) desalinization treatment is required. A below ground header pipeline will carry raw water from the wellfield to an RO treatment facility in Brevard County. The RO treatment facility will process 75 percent of water coming from the wellfield, 85 percent of which is recovered as finished water, and 15 percent of which is disposed of as brine by deep well injection. The 25 percent of raw water which bypasses the treatment process will be blended with the finished water to yield water which meets drinking water standards for chloride levels. The yield is anticipated to be 16.67 mgd on an average day and 18.9 mgd on a maximum day. However, the finished water yield could be higher if raw water quality permits greater blending and less reject water. On the finished water side, the water will need to be treated again to assure that it will be compatible with water from the City of Melbourne plant. Failure to balance the blended waters chemically could result in corrosion of pipes, leaching of pipes, discoloration, rusty water, and odorous water. A proper process, therefore, is essential and is highly sophisticated. From the treatment facility the water will travel in underground pipes, beneath the St. Johns River, beneath I-95 and east to the Melbourne distribution system. From there some water is anticipated to travel south to connect to the General Development Utilities (GDU) system. Hydrogeologic Characteristics of the Site For modelling purposes, the aquifer system in the region is represented by sequential layers of differing characteristics in the flow and movement of water. The SBWA model contains 6 layers; the Osceola model contains 7 layers. In both models, layer 1 corresponds to the surficial (water table) aquifer; layer 2 corresponds to the Hawthorn formation (the upper confirming layer); layer 3 is the Upper Floridan aquifer; layer 4 describes the 200 ft. thick portion of the Upper Floridan called the "production zone"; layer 5 in the SBWA model is approximately 450 ft. thick and is called a confining unit; Osceola's consultants consider this layer less permeable or semi-confirming; layer 6 is the lower Floridan; and layer 7 in the Osceola model is the bottom reaches of the lower Floridan. The surficial aquifer consists of sand and shell deposits and extends to a depth of approximately 100 feet below land surface. The surficial aquifer is capable of producing small to moderate amounts of water for domestic uses. The Hawthorn is an interbedded formation consisting of clay, limestone and phosphate. Due to its extremely low permeability, this layer restricts both the vertical and horizontal movement of water. The Hawthorn is thicker in Central Florida than in other portions of the state. At the BCWMA the thickness of the Hawthorn ranges from 240 feet in the area northwest of the management area to 80 feet in the southeastern portion of the management area. The upper Floridan Aquifer at the BCWMA, as characterized by the SBWA's consultant and based on site specific data, extends from the base of the Hawthorn to a depth of approximately 900 feet below land surface. That portion of the upper Floridan Aquifer between the bottom of the Hawthorn and 700 feet below land surface consists of fine grained limestone with relatively low permeability. This zone corresponds with layer 3 in the groundwater modeling done by the SBWA. The portion of the upper Floridan between the bottom of the Hawthorn and 700 feet below land surface is less capable of producing water than the portions below this level. That portion of the upper Floridan Aquifer between 700 feet and 900 feet of depth consists of hard dolomites. Dolomitic zones are the most productive zones of water within the Floridan in this part of the state because these formations contain solution fractures and cavities. This zone corresponds with layer 4 in the groundwater modeling done by the SBWA. Several researchers and modelers have suggested the existence of a zone, variously referred to as a semi-confining unit, a zone of lower permeability or a middle semi-confining unit, located between the upper and lower Floridan Aquifer. This area between 900 feet and 1350 feet below land surface consists largely of hard dolomites similar in nature to those in the zone immediately above it. This zone corresponds to layer 5 in the groundwater modeling done by SBWA. Previous regional modeling efforts have utilized model derived values to describe the middle semi-confining unit rather than site specific information showing the location, thickness or hydrogeological characteristics of the zone. Site specific data tends to confirm the lower permeability of this zone relative to the layers above and below it. Site specific data consists of a core sample, mineral content observed during the drilling of the test monitor well, and a Neumann-Witherspoon ratio analysis conducted during the aquifer performance test. The area between 1350 feet and 1450 feet below land surface also consists of dolomites but with greater permeability and greater transmissivity (the measure of an aquifer's ability to transmit water in a horizontal direction). This area corresponds to layer 6 in the groundwater modeling done by the SBWA. No site specific data exists beneath 1483 feet, representing the total depth of test well TM. Regional data does exist which characterizes the areas from 1500 feet below land surface to the bottom of the lower Floridan Aquifer as consisting of zones of varying lithology, and varying permeabilities. This zone which corresponds to layer 7 in the groundwater modeling done by Osceola County is not homogeneous or uniform over its entire thickness according to available regional data, consisting of geologic reports of deep wells in the east-central Florida area. All parties agree that in the area of the proposed wellfield, horizontal movement of water in the Floridan aquifer is from west, where the greatest recharge occurs along the Lake Wales Ridge, to east, where there is little or no recharge. Water quality in the upper Floridan as measured by chloride concentrations deteriorates as one moves from west to east. The Floridan aquifer beneath the BCWMA represents a transition zone between the recharge area to the west and high saline formation waters in the east. The dominant geochemical components in water beneath the BCWMA are biocarbonates. Water quality, as measured by chloride concentrations, also deteriorates with depth. Chloride concentrations, based on data derived from the drilling of well TM at the BCWMA, increase gradually from 306 milligrams per liter (mgl) at 410 feet, to 658 mgl at 1473 feet below land surface. Chloride concentrations increase abruptly to 1980 mgl in well TM at 1483 feet of depth. Evidence is inconclusive as to whether all of the proposed production wells will draw water exceeding 250 mgl in chloride concentrations. It is undisputed that most will, but chloride contours initially provided by SBWA's consultant indicate that the southernmost wells may produce water between 150 and 250 mgl. A comprehensive aquifer performance test (APT) was conducted at the BCWMA by the SBWA's consultant, Post, Buckley Schuh, and Jernigan, Inc. (PBSJ). The test was designed by the staff of the SJRWMD in consultation with the U.S. Geological Survey (USGS). This test yielded data which enabled PBSJ to calculate several aquifer characteristics for use in the groundwater modeling which was later done by SBWA's modeling consultant, Environmental Science and Engineering, Inc. (ESE). Eight wells were utilized in connection with the APT conducted at the BCWMA in January and February 1990. Three of the wells were dual zone monitoring wells capable of monitoring events in two different geologic units simultaneously. Three wells, including the test production well (TP) were open to the interval between 700 and 900 feet below land surface which was identified by the SBWA as the production zone. Typically APT's are run for 12 to 72 hours in Florida. Well TP was pumped for approximately 10 days at a rate equivalent to that expected during actual production while observations were made of water levels in all wells, including three off-site wells (the Holopaw test well, the Kempfer well and the Bruner well). All of the information the SBWA needed from the APT was obtained in the first hours of the test. Water levels in the area monitored during the APT ceased dropping due to pumpage within 1 hour after the pumping started. Three different analytical models were used to calculate a transmissivity value for the production zone, utilizing data derived during the APT. The result showed transmissivity in this zone to be approximately 2 million gallons per foot per day. This is a very high transmissivity value indicating a comparatively prolific aquifer, capable of producing the volumes of water requested in the application. As transmissivity increases, the cone of depression associated with pumpage tends to flatten out and be less steep. The cone of depression extends further out, creating a wider area of drawdown. Hydraulic conductivity is the measure of an aquifer's resistance to flow either in a vertical (KV) or horizontal (KH) direction. Two methods were used to calculate the hydraulic conductivity of the Hawthon Formation by PBSJ: laboratory analysis of a core sample taken from this unit, and a bail test (measuring an increase in water level over time) conducted on a well on site by the SJRWMD. Two different methods were used by PBSJ to calculate the hydraulic conductivity of layer 5: laboratory analysis of a core sample taken from that zone, and the Neuman-Witherspoon ratio analysis method. Porosity is the void space in porous media through which transport of particles, such as chlorides, can occur. Effective porosity has an impact on the ability of saline or dense water to move upward from depth toward a pumping well. The lower the effective porosity within an aquifer, the greater the potential for upconing of saline water within that aquifer. Effective porosity for layers 4 and 5 was calculated using two different methods, those being laboratory analysis of core samples taken from these zones, and analysis of acoustic logs generated during the APT. Each of these methods is accepted in the field of hydrogeology. Anticipated Impacts to Groundwater Levels and Flows as a Result of the Proposed Consumptive Use A numeric groundwater flow model is a computer code representing the groundwater flow process. Both SBWA and Osceola used numeric groundwater flow models developed by their consultants to predict and simulate the impacts associated with withdrawals proposed in the application. The SBWA used a finite difference model called INTERSAT for its simulations. INTERSAT is a widely used and accepted groundwater flow model. The model was run by ESE for the SBWA in the impact or drawdown mode. Drawdown or impact models simulate changes in water levels in response to a stress such as a pumping well. Drawdown models are an accepted and frequently used method to evaluate wellfield stress, particularly in association with a CUP application. ESE and PBSJ utilized several analytical models to first determine and later to verify the area to which the boundaries of their model would extend. The radius of influence of a well or wellfield is the distance from the center of pumpage extending out to where drawdowns caused by that pumpage reach zero. The boundary for a numeric groundwater model should be set at, or beyond, the radius of influence of the pumpage being simulated by the model. Based on the analytical models run by ESE and PBSJ the radius of influence of the wellfield proposed in the application is 43,000 to 45,000 feet. The approximate distances of the boundaries set in INTERSAT model from well TP were 50,000 feet to the east, 40,000 feet to the west, 40,000 feet to the north and 50,000 feet to the south. The INTERSAT model covers a total area of 320 square miles. This size falls somewhere between a regional model and a local model, and is adequate in size to address the impacts associated with the proposed withdrawals. The vertical boundary of SBWA's model extends to 1450 feet below land surface and, as stated above, is divided into 6 layers. The 1450 feet depth generally coincides with the limits of site specific data generated during the APT. The six layers in the SBWA flow model coincide with the six distinct geologic units identified by PBSJ in their APT report. The site specific data generated by the APT was utilized, along with other regional modeling studies, to arrive at a set of "conservative" aquifer parameters to be utilized in the INTERSAT model. "Conservative" parameters for purposes of this application are those which would tend to overpredict drawdown in the surficial aquifer and the production zone, while allowing for more upconing of dense water from the bottom of the model. The selection of "conservative" aquifer parameters by SBWA involved taking site specific values, comparing them with the ranges of values reported in the other available regional models and selecting values which, while still within the range of reported values used in other studies, would tend to show greater impacts for the areas of primary concern than the site specific values. Every aquifer parameter utilized in SBWA's groundwater flow model falls within the range of values reported in at least one of the groundwater modeling studies previously done in this region. The size of the grids utilized in the SBWA model were 500 feet by 500 feet within the vicinity of the wellfield. Grid sizes expand as one moves toward the outer boundaries of the model. The fineness of the grids used by ESE, particularly in the wellfield area, allows for accurate representation and resolution of surface water features, impacts in the production zone and for evaluating the effects of saltwater upcoming in the transport model also done by ESE. Within the radius of influence of the proposed wellfield, there are no existing wells in layers 5 or 6. The ESE model simulations for 18.8 mgd pumpage predict a maximum drawdown in the surficial aquifer (layer 1) of 0.14 feet centered primarily within the BCWMA. At a distance of 1 mile from the wellfield the impact drops to 0.12 feet. None of the existing legal users of water in layer 1 within the radius of influence of the proposed wellfield will suffer a ten percent or greater reduction in withdrawal capacity from their wells solely as a result of the proposed withdrawals, since 10 percent reduction would require at least 3 feet of drawdown. The ESE model simulations predict a maximum drawdown caused by the proposed pumpage of 4.5 feet in layer 3 centered along the alignment of wells and primarily within the BCWMA. At a distance of 2 miles, the drawdown drops to 2 feet. At the Brevard-Osceola County line the drawdown in layer 3 is approximately .5 feet. Petitioner Deseret's flowing wells are drilled in layer 3 and are located within the area where a drawdown of 1 foot is predicted in layer 3 by the ESE model. Deseret uses its property for a cow/calf ranching operation and has approximately 32,000 head of cows. Deseret uses 39 flowing wells east of state road 192 to irrigate pasture, water cattle and supply drinking water. Deseret possesses a valid CUP for a portion of the total flow capacity from those wells. Seasonally, the wells flow at different rates, but they are most relied upon in dry conditions when the natural flow would be decreased. It is unlikely that the proposed SBWA withdrawals will stop the flow of any of Deseret's wells; and it is unlikely that the flow will be reduced by more than 10 percent. Deseret and Osceola's consultants do predict a greater drawdown and opine that approximately 12 of Deseret's wells will cease flowing as a result of the SBWA withdraw As addressed below, the modelling by Petitioner's consultants, upon which those predictions are based, is less reliable than that of SBWA's consultants. If the effects are greater than predicted, mitigation in the form of installation of pumps is possible, albeit inconvenient and expensive. Mitigation would have to be provided by the applicant, SBWA. The drawdowns predicted by the ESE model for layer 4 are not significantly different from those for layer 3. It is anticipated that no legal user of water within the radius of influence of the proposed wellfield will suffer a 10 percent or greater reduction in withdrawal capacity for its wells, as a result of SBWA's proposed withdrawals. Petitioners' consultants, Hartman and Associates, (Hartman) modeled a significantly larger (4900 square miles) and deeper (3000 feet) area than did SBWA. The model makes its predictions based on one data point for every 49 square miles within the modeled area. Petitioners utilized much larger model grids in the wellfield area (2000 feet by 2000 feet) than did the SBWA. Grid of this size lacks the resolution necessary to evaluate wellfield impacts. Petitioners selected their aquifer parameters from another regional modeling study done in 1985 rather than using site specific data. Those parameters were then adjusted or calibrated until a match was obtained to a computer created potentiometric surface which was supposed to reflect the potentiometric surface for May 1990, an uncharacteristically dry period. The created potentiometric surface to which Hartman calibrated its model varies greatly from the potentiometric surface as reflected in the actual data points from which USGS derives its potentiometric surface maps. While no model is perfect, and actual data is preferable, in the absence of all the actual data that is needed, the ESE model is a more credible predictor of drawdowns. Anticipated Impacts to Groundwater Quality as a Result of the Proposed Consumptive Use Solute transport models are computer models designed to simulate the movement of mass, in this case -- chlorides -- through a groundwater flow system. These models are linked to, and are dependent on flow fields generated by groundwater flow models. In order to predict changes in water quality anticipated to occur as a result of its proposed withdrawals, SBWA's consultants used a solute transport model called HST3D. Developed by the USGS, this model is widely used and accepted. For simulations using the HST3D model, SBWA used the flow field and a portion of the grid generated by its INTERSAT groundwater flow model. The HST3D simulations run by ESE utilized a cross section of the INTERSAT model grid extending through row 26 of that grid, which is the row containing the line of 9 proposed wells running on an east-west axis. Use of a cross sectional grid is an appropriate method by which to examine salt water intrusion. Upconing, to the extent that it will occur as a result of the proposed pumpage, would be greatest within the cross section containing the 9 wells. The cross section extends two miles through the wellfield to the west. As chloride concentrations in water increase, the density of the water increases. Density can retard the degree of upconing when chloride concentrations are as low as 1000-2000 parts per million and becomes significant at 3000-5000 parts per million. Failure of a model to consider density effects, when appropriate, would tend to overstate upconing. HST3D does consider density effects. SBWA's consultant ran several simulations with the HST3D model to predict changes that would occur as a result of the proposed pumpage in chloride concentrations over 7, 14 and 30 year time periods. These simulations utilized the same aquifer parameters as the INTERSAT model together with the effective porosity values derived from site specific data. Assuming a starting chloride concentration of 1000 mgl at the bottom of layer 5, the measured concentration at that level in well TM on the BCWMA site, after 30 years of pumpage at 18.8 mgd, the chloride concentrations in layer 4 would increase by only 100 mgl. The simulations for 7 years of pumpage which is the duration of the proposed permit, show that the predicted increase in chloride levels would be substantially less than 100 mgl. Other HST3D simulations were run by SBWA for a pumpage rate of 35 mgd utilizing beginning chloride concentrations of 5,000 mgl and 10,000 mgl, respectively at the bottom of layers. The results did not show any significant changes in chloride concentrations in layer 4 over and above those shown when a lower starting chloride concentration was assumed. In a circumstance where, as here, the chloride concentrations in the zone from which water is proposed to be withdrawn exceeds secondary drinking water standards (250 mgl), the SJRWMD evaluates the existing legal water uses within the area that would be impacted by the proposed use. If it is determined that the increase in chloride concentrations caused by a proposed use would detrimentally affect other existing legal users or the applicant, only then is the increase deemed to be "significant". Within the layers of the aquifer which would experience increases in chloride concentrations as a result of the proposed withdrawal, layers 4, 5 and 6, no existing users of water would be detrimentally affected. Petitioner Deseret's closest wells to the proposed wellfield are in layer 3 where chloride levels will not be affected by the proposed wellfield within the 7 year duration of the proposed permit or even beyond that period. Further, the use Deseret makes of the water from the wells in closest proximity to the proposed wellfield, pasture irrigation, can tolerate significantly higher chloride concentrations than will exist even directly beneath the wellfield in level 4 after 30 years of pumping. Use of water for public supply purposes is considered by SJRWMD to be in the public interest. Utilization of the water beneath BCWMA for public supply purposes, even with some increase in chloride concentrations in the source of the water over the life of the permit, does not on balance detrimentally affect the public interest. Two different solute transport models were done by Petitioners' consultants, one a numeric model and the other an analytical model. The numeric model done by Hartman, RANDOMWALK, does not predict changes in chloride concentrations within an aquifer, but rather tracks movement of particles. RANDOMWALK does not account for density effects. The analytical model done by Prickett for the Petitioners relies on assumptions, many of which are not met in the aquifer system at BCWMA. Those assumptions relate to uniformity of the system, for example: porosity and permeabilities, and lack of regional gradients. The solute transport models utilized by the Petitioners are less reliable for predicting water quality changes resulting from the proposed pumpage than the model utilized by the SBWA. Salt water intrusion is a dramatic increase of chloride levels in an aquifer layer. The saline water encroachment which occurs from the wellfield stress will be in the lower confining unit. There will be limited degradation in the lower part of the production zone. The wellfield will not induce significant lateral intrusion from the east. There will not be any dramatic changes in chlorides. The movement of the chlorides is confined to the locality of the wellfield. Most of the movement is vertical and is of limited increase. The proposed Bull Creek withdrawals will not aggravate any currently existing salt water intrusion problems. The reject brine water from the RO treatment plant will be disposed of in deep injection wells in Brevard County. These injection wells would deposit the brine into a receiving body of water in the Oldsmar geologic formation. The brine reject will have a total dissolved solids (TDS) concentration of approximately 7,000 mgl. The receiving water into which the brine will be injected approximates sea water, with TDS concentrations in the range of 36,000 mgl. The receiving body will obviously not be further degraded. Environmental Impacts of the Proposed Consumptive Use District staff, SBWA consultants and Osceola's consultants independently conducted onsite field investigations of the BCWMA to evaluate the vegetative communities and land uses which exist on site. Each consultant prepared a habitat map identifying the various vegetative communities found at the site. While relatively pristine, the BCWMA has been logged and grazed by cattle in the past. The impacts of man's activities have been remediated by ceasing the activity. There are few permanent incursions, such as roads, canals and buildings. The area is a very diverse landscape, with a mosaic of different types of plant communities. There are various upland and wetland habitats. The variety of wetlands are forested and non-forested, deep and shallow, open and closed. These wetlands perform important functions, including water storage and purification, aquifer recharge, flood control, and provision of food sources and habitat for wildlife, and they are "factories" for producing the materials needed by many higher organisms. The wetlands on site are structurally complex and are good habitat for macro- invertebrates and the fish and higher organisms that feed on them. A number of these wetlands are shallow, isolated wetlands. During periods of inundation, when the wetlands fill up with water and interconnect with the Bull Creek drainage system, the system exports various organisms to the wetlands. Fish that are live bearers move into isolated wetlands during periods of inundation, and they and their offspring become a source of food for birds. Fish species that lay eggs can withstand desiccation (total drying out) can survive the temporary drying of wetlands, but live bearers must repopulate during periods of inundation. The mixed wetland hardwoods on site contain a diversity of bugs, crawfish, mayflies, damsel flies, midges, and snails. Some of these are important food sources for higher organisms. The apple snail, for example, is an important food source for such birds as the limpkin and the endangered snail kite, and its eggs are food for crawfish and other organisms. The biological communities that exist in the wetlands and uplands at the site are determined by a number of factors, including the depth and duration of the hydroperiod, soils, climate, temperature, and availability of sunlight. These communities and their habitats will react to changes in light, water, temperature, and many other subtle effects, causing changes in plant diversity and structure, the areal extent of certain types of habitats and wetlands, and utilization by wildlife. Natural fluctuations in the hydroperiod also cause these changes, generally from the exterior edges of a wetland to the interior. The wetlands in the BCWMA have been able to withstand the natural drought and flood periods, or they wouldn't be there today. Periodic burning is essential to the health of ecosystems such as in the Bull Creek area. Fires reduce the prevalence of species less tolerant to fire, allow other species to strengthen their presence, return organic material to the soil, and reduce the fuel available for wild fires. Originally occurring naturally as a result of lightening strikes, prescribed burns are now undertaken by agencies such as the Division of Forestry and the Game and Fresh Water Fish Commission to replicate the beneficial functions of natural periodic burning. Fire management is used as a land management technique at BCWMA and continued fire management at the BCWMA will maintain a natural ecological setting typical of Florida. Slight variations in elevation which mark the difference between wetlands and uplands can result in utilization of the areas by different animal communities. Where different types of plant communities meet, an "ecotone" is created. Where an ecotone exists, the "edge effect" of the competition between the two communities occurs. The result of the edge effect is higher plant and animal species diversity, which is extremely important to the natural community. Some animals make specific use of the ecotone for habitat and food resources. Many amphibians, frogs in particular, live in the ecotone. Some birds will not roost in the upland forests but will roost in the edge of the forest adjacent to wetlands. Wetlands in the BCWMA are connected to the remainder of the Bull Creek system through groundwater resources. Their biological and ecological communities are also connected as the same organisms move throughout the system. Isolated wetlands also exhibit a "moving edge" effect, where changes in the surface water and water table levels cause different plants, or plants at different levels of maturity, to exist in the wetland and its perimeter. This increases the productivity of the wetland by making it attractive to a wider variety of plant and animal species. If the expansion and contraction of isolated wetlands is reduced by lowered water levels, the smaller wetlands would exhibit a reduced edge effect, and the cumulative effect of this reduction over time would disrupt the functioning of the wetland-upland system. Isolated wetland systems are more sensitive to drawdowns in the surficial aquifer than connected wetland systems because the drainage area contributing water to the wetland system is smaller. Isolated herbaceous wetland communities are the most sensitive of the vegetative communities on BCWMA to drawdowns in the surficial aquifer. The surficial aquifer fluctuates naturally as much as five feet annually. Rainfall is the primary source of water for the surficial aquifer. Water levels in the surficial aquifer respond very quickly to rainfall events. Hydroperiods of the wetland systems in the BCWMA respond to rainfall and surficial aquifer levels. The wetland hydroperiods vary from year to year, and wetland ecosystems have adopted to those annual changes. But a groundwater withdrawal from the surficial aquifer in the Bull Creek area would cause a corresponding lowering of the surface water level, since the wetlands are not "perched", or separated from the aquifer by a confining layer. A drawdown would lower water levels throughout the hydroperiod, under both high water and low water conditions, with a more pronounced effect during the dry season and drought periods. Some of the over twenty threatened and endangered plant species present at Bull Creek grow in shallow, marginally wet areas. Changes in even a few inches of groundwater would cause these plant species to be retarded in growth, and their abundance would decrease or they would die out at the site. Many of the wetlands are shallow, broad, sloping areas, and groundwater elevation changes of just a few inches will cause changes in the areal extent of these wetlands. Even the .14 foot drawdown predicted by SBWA's modeling would affect shallow inundated or saturated systems by changing the moisture level at the surface, particularly by affecting the lowest water levels. Changes in the vegetative composition of wetlands will affect the macro-invertebrate characteristics of a site. For example, as water levels change, the density of the vegetation (in terms of number of plant stems per acre) can decrease, leaving fewer places for the macro-invertebrates to hide, and the populations of macro-invertebrates will decrease through predation. As food sources, habitat and breeding grounds decrease, those animal species that can relocate will attempt to do so. Relocation can adversely affect the survival of the species; for example, a wood stork unable to find a particular food upon which it is dependent at a particular interval in its life cycle may abandon its nest and its young. Animals that attempt to relocate may find that there is not a suitable similar habitat available, making their attempt to adjust to the change in their environment unsuccessful. The proposed use will not significantly affect the stages or vegetation of the upland communities at the BCWMA because they are not as dependent on saturation or inundation as a wetland community. Forested wetland systems, be they isolated or connected, will not be influenced by a drawdown of the magnitude predicted by SBWA for the surficial aquifer. Forested systems have deep root zones and the canopy provides shading to the strata below. Forested systems are able to tolerate natural changes in hydrology. The SBWA assessment does not offer any detailed cataloguing of the plant and animal communities on site, or a description of how the systems operate or interface with each other. It does not provide sufficient information to be able to assess the impacts of the proposed wellfield on these systems. There was insufficient information presented by the applicant to conclude that the environmental harm to be caused by operation of a wellfield at the BCWMA has been reduced to an acceptable level. The applicant relied on the fact that drawdowns in the surficial aquifer will be minimal, without fully considering the impact of those minimal drawdowns on a fragile wetland ecosystem during a dry period. Water Demand The SBWA was created by special act in 1983 as a dependent special district for the purpose of developing regional water supplies and transmission of water to water distribution systems. In its existence so far, its labors have been in the former, and none in the latter category. Efforts to develop a regional water supply have been frustrated by litigation, by reluctance of local public systems to give up their authority and by delays in pursuing and processing CUP applications, two of which are still pending, in addition to the instant application. The City of Melbourne's public water system provides water to Melbourne, Palm Bay and West Melbourne, and to some unincorporated areas surrounding Melbourne. It also supplies water to the area called south beaches, comprised of the Brevard County area south of Patrick Air Force Base, including Satellite Beach, Melbourne Beach, Indiatlantic and Indian Harbor Beach. The current water supply is Lake Washington, which is part of the chain of lakes on the St. Johns River. The city of Melbourne was granted a CUP on January 15, 1991, for withdrawals from Lake Washington, ranging from 27.15 million gallons maximum daily withdrawals in 1991 to 21.7 million gallons maximum daily withdrawals in 1998. In addition, Melbourne has planned a new facility and has the CUP to withdraw 8.13 million gallons a day from the Floridan Aquifer commencing in 1993. After reverse osmosis treatment, the groundwater withdrawal will yield 6.5 million gallons a day finished water, making up the difference from reduced withdrawals from Lake Washington. Approximately 56 potable water systems have been identified by SBWA in South Brevard, south of the Pineda Causeway. Almost all are small private systems. Besides Melbourne, the other major water supplier in the area is General Development Utilities (GDU), serving the City of Palm Bay. GDU's CUP expires in 1993 with an average daily withdrawal of 6.5 mgd and maximum daily withdrawal of 8.5 mgd. It has ample capacity until 1996, and beyond to the year 2000, if an additional Department of Environmental Regulation capacity rating is obtained. The total capacity of the two major existing facilities is approximately 30 mgd and total existing consumptive use quantities (including existing CUPs with expiration dates varying from 1993 to 1998) approach 40 mgd. The current SBWA water master plan assumes that existing sources need replacing. More specifically, SBWA, if this CUP is granted, seeks to replace Lake Washington as the primary source of water in the area with the groundwater obtained from the BCWMA wellfield. An agreement between the City of Melbourne and SBWA provides that the City will initially purchase 8 mgd, plus all future needs of water from the SBWA. This 8 mgd would be used by Melbourne prior to using its 6.5 mgd finished water from the RO facility, and the RO water would be used prior to withdrawals from Lake Washington. The agreement, dated January 9, 1991, acknowledges the need for, and specifically authorizes improvements to Melbourne's Lake Washington Water Treatment Plant, including the conversion of the existing high service pumping station to a low service pumping station with average daily capacity of 20 mgd and maximum capacity of 25 mgd. (SBWA Ex. 49) GDU is a private utility and currently is outside the jurisdiction of the SBWA. General Development Corporation is in receivership and the City of Palm Bay is negotiating for purchase of the utility. If the purchase is successful, the supply will become publicly owned and subject to the jurisdiction of the SBWA. The City of Palm Bay is not bound to purchase GDU at any price, and the requirement that it would shut down its newly purchased facility to receive water from SBWA is a disincentive to the acquisition. In the meantime, GDU has no incentive to reduce CUP capacity and devalue its facility. GDU's service has been uninterrupted and reliable. Contamination to the surface aquifer utilized by GDU has been successfully treated. Although septic tanks proliferate in Palm Bay, their location, as well as the presence of confining layers in the surficial aquifer, reduce the susceptibility of GDU wells to contamination from septic tanks. The applicant's concerns about unreliability and safety of Lake Washington as a continued water source are unsubstantiated by the weight of evidence in this proceeding. Surface water facilities have been used in Florida since before the turn of the century and no major facility has ever been off-line one day due to raw water contamination. Nor has any major Florida surface water plant ever been sabotaged. There is a greater chance in Florida of problems with pipeline failures, and the miles of pipes planned to transmit ground water from Bull Creek east to SBWA consumers increase the chances of those problems. Recently, the SJRWMD Upper Basin Project has significantly improved the water quality and quantity in Lake Washington through restoration of marshlands in the upper basin and capping flowing wells. Restored marsh areas will allow for additional removal of nutrients and provide an additional storage to the Lake Washington/Upper Basin system, significantly improving safe yield quantities. Comparisons of concentrations of raw water chlorides and total dissolved solids for the drought years of 1989 and 1990, show significant reductions for the latter time frame. Recent evaluations indicate that Lake Washington would be acceptable in terms of chlorides and TDS concentrations for a 35 mgd withdrawal, even during 50 and 100 year droughts. Water quality improvements to Lake Washington can be directly related to the Upper Basin project. Trihalomethanes are regulated by the Safe Drinking Water Act. They are produced by the disinfection process of treating raw water with chlorines, and they are carcinogenic. A previously experienced problem at the Melbourne plant has been corrected with operational changes. As recently as 1988, an internal staff report by SJRWMD staff provided: Lake Washington has been a reliable source of public water supply since 1960 and can remain so in the future with the continuation of sound basin planning and watershed management by the St. John's river Water Management District. The quality of the raw water from Lake Washington is subject to annual and seasonal variations that make the treatment process more difficult, and the quality of the delivered water less consistent, than would be the case with a groundwater supply. A supplemental water source near Lake Washington would improve the quality of the water delivered to the users, would increase the total volume that could be taken from the lake in times of stress, and would provide a reliable alternative in case of emergency. The upper zone of the Floridan Aquifer within south Brevard County has the potential to supply a significant portion of the area's future water needs with existing low-pressure, reverse osmosis technology at a cost that is comparable to current supplies.
Recommendation Based on the foregoing, it is hereby, recommended that the SBWA application for CUP be denied. RECOMMENDED this 12th day of March, 1992, in Tallahassee, Leon County, Florida. MARY CLARK Hearing Officer Division of Administrative Hearings The DeSoto Building 1230 Apalachee Parkway Tallahassee, Florida 32399-1550 (904)488-9675 Filed with the Clerk of the Division of Administrative Hearings this 12th day of March, 1992. APPENDIX TO RECOMMENDED ORDER, CASE NOS. 91-1779, 91-1780, & 91-1781 The following constitute disposition of the findings of fact proposed by each party. Petitioner, Osceola County These findings have been adopted in full or in substantial part in the recommended order submitted herewith: 1-5, 7-8, 14, 21-22, 24-25, 27-28, 30, 32, 35, 62-65, 73, 104, 113, 116-125, 127, 129-130, 132-138, 140, 154, 157-158, 164, 167-168, 183, 186, 189, 191-195, 197-200, 202-204, 209, 212. These findings are rejected as contrary to or unsupported by the weight of evidence: 37-38, 48, 51, 53, 56, 66, 79-81, 84-90, 92-94, 102-103, 105-107, 110-112, 115, 128, 171-172, 212(d), (f) and (g), 213-214. These findings are rejected as cumulative, unnecessary or irrelevant: 6, 9- 13, 15-20, 23, 26, 29, 31, 33-34, 36, 39-47, 49-50, 52, 54-55, 57-61, 67-72, 74- 78, 82-83, 91, 95-101, 108-109, 114, 126, 131, 139, 141-153, 155-156, 159-163, 165-166, 169-170, 173-182, 184-185, 190, 196, 201, 205-208, 210-211, 212(e), 215. Petitioners, Triple E, Triple N, East Central Florida Services, Inc., and Deseret These findings have been adopted in full or in substantial part in the recommended order submitted herewith: 1-6, 8-9, 16-20, 22-25, 27-28, 30-31, 50- 56, 59-60. These findings are rejected as contrary to or unsupported by the weight of evidence: 7, 12, 32, 34-37, 40, 42, 44, 48, 49, 58. These findings are rejected as cumulative, unnecessary or irrelevant: 10- 11, 13-15, 21, 26, 29, 33, 38-39, 41, 43, 45-47, 57, 61-63. Respondent, South Brevard Water Authority These findings have been adopted in full or in substantial part in the recommended order submitted herewith: 1-6, 9-11, 13, 16-24, 28, 30-34, 36, 38, 46-48, 61, 64, 70, 72-74, 90-91, 94-98, 105-108, 110-111, 113, 115-116, 121, 126-129, 133, 149, 152, 157, 169, 179, 181-190, 192-194. These findings are rejected as contrary to or unsupported by the weight of evidence: 41, 130-132, 156, 158, 167, 174, 177. These findings are rejected as cumulative, unnecessary or irrelevant: 7-8, 12, 14-15, 25-27, 29, 35, 37, 39-40, 42-45, 49-60, 62-63, 65-69, 71, 75-89, 92- 93, 100-104, 109, 112, 114, 117-120, 122-125, 134-148, 150-151, 153-155, 159- 166, 168, 170-173, 175-176, 178, 180, 191. Respondent, St. Johns River Water Management District These findings have been adopted in full or in substantial part in the recommended order submitted herewith: 1-8, 10-22, 24-36, 38-44, 47-62, 64-88, 90, 92-116, 118-122, 124-130, 132-142, 144-151, 159-160, 164, 166-167, 169, 171, 174-175, 177, 193-196, 198, 202, 206. These findings are rejected as contrary to or unsupported by the weight of evidence: 131 (the conclusion), 153-154, 156-157, 161-162, 197, 204, 207. These findings are rejected as cumulative, unnecessary or irrelevant: 9, 23, 37, 45-46, 63, 89, 91, 117, 123, 143, 150, 152, 155, 158, 163, 165, 168, 170, 172-173, 176, 178-192, 199-201, 203, 208-210. COPIES FURNISHED: Segundo J. Fernandez, Esquire Scott Shirley, Esquire OERTEL, HOFFMAN, FERNANDEZ & COLE, P.A. Post Office Box 6507 Tallahassee, FL 32314-6507 Douglas P. Manson, Esquire BLAIN & CONE, P.A. 202 Madison Street Tampa, FL 33602 Clifton A. McClelland, Esquire POTTER, McCLELLAND, MARKS & HEALY, P.A. Post Office Box 2523 Melbourne, FL 32902-2523 Wayne Flowers, Esquire Nancy B. Barnard, Esquire St. Johns River Water Management District Post Office Box 1429 Palatka, FL 32178-1429 Neal D. Bowen, County Attorney Osceola County Room 117 17 South Vernon Avenue Kissimmee, FL 32741 Carol Browner, Secretary Dept. of Environmental Regulation Twin Towers Office Building 2600 Blair Stone Road Tallahassee, FL 32399-2400 Daniel H. Thompson, General Counsel Dept. of Environmental Regulation Twin Towers Office Building 2600 Blair Stone Road Tallahassee, FL 32399-2400
The Issue Whether application 23181 for a consumptive use water permit should be granted, pursuant to Chapter 383, Florida Statutes. Prior to the hearing, 16 individuals in the Wabasso, Florida, community petitioned to intervene as parties in this proceeding. By Order, dated August 26, 1976, intervention was granted. Thereafter, counsel for the Wabasso Citizens Association, a private, unincorporated association that included the 16 prior intervenors, requested that intervention include all members of the association. There being no objection to the foregoing request, intervention was granted accordingly. The public hearing in this matter included 22 exhibits and the testimony of 21 witnesses, nine of whom were members of the public. Lists of the exhibits and public witnesses are attached hereto. On January 8, 1975, the Town of Indian River Shores, Florida (hereinafter "Town"), and Lost Tree Village Corporation, Indian Rivers Shores, Florida (hereinafter "Lost Tree"), filed application 23181 for a consumptive use water permit with the Central and Southern Florida Flood Control District (hereinafter "District"). The application requested a permit for the withdrawal of 393 acre feet per year of groundwater from two wells located on a parcel of land owned by Lost Tree at Wabasso, Florida. The requested use was for irrigation of two golf courses located on land owned by Lost Tree known as John's Island, a residential community located within the Town, and as an emergency public water supply for the Town. It was proposed that the water be transported by pipeline owned by Lost Tree from Wabasso to John's Island, a distance of several miles. Although the matter was set for public hearing to be held on February 4, 1975, an unfavorable staff report of the District, dated January 30, 1975, resulted in an indefinite postponement of the hearing. A hydrogeological report was prepared for Lost Tree by a consulting firm on February 12, 1976, and submitted by the applicant to the District. A subsequent staff report of the District was prepared on July 28, 1976. Thereafter, the matter was noticed for hearing to be held August 31, 1976. Pursuant to the request of intervenors, a continuance was granted until September 29, 1976. (Exhibits 5,6,7,8,19)
Findings Of Fact The Town is a municipality that was incorporated in 1953. It is located east of the Indian River on an island and extends from the north boundary of Vero Beach for over 4 miles along the Atlantic ocean. In 1969, Lost Tree commenced developing a 3,000-acre tract of land located within the Town as a residential community. Prior to the initiation of this project, there had been very little development in the Town. In order to attract residents to John's Island, two 36-hole golf courses were constructed on the property, known as the North and South Courses, covering approximately 180 acres. At the present time, John's Island comprises over 600 residences, consisting of single and multiple family units, ranging in price from $65,000 to $500,000. The Town has a population of about 1,200, with 65 percent residing at John's Island. The present assessed value of property located in the Town is about $160,000,000 of which almost $66,000,000 is attributable to property in John's Island. The private golf club at John's Island has approximately 500 members, including about 150 from Vero Beach. The golf courses are considered to be the "heart" and "life-blood" of the community (Testimony of Ecclestone, Miller; Exhibits 5,11,12). The water supply of the Town comes from the water system of the City of Vero Beach, pursuant to contract, via a 16" water main which crosses the Indian River and ends at the northern boundary of Vero Beach. There, it is tied into a 12" water main of the Town. The Town has a one million gallon capacity underground storage tank and a 100,000 gallon overhead tank. The 16" main is the only waterline that crosses the Indian River and, in the event of a rupture, the Town would be limited to its stored supplies (Testimony of Miller, Little, Exhibits 5,17). The John's Island golf courses require irrigation of approximately 70 acres. In the past, irrigation water has been obtained from a system of shallow wells on the property, treated sewage effluent from the surrounding community, and stormwater, all of which is discharged into two ponds located on the courses. Additionally, treated potable water is obtained from the City of Vero Beach through two two-inch water meters that were installed in 1975. Prior to that time, an undisclosed amount of city water was obtained for irrigation and other purposes through city meters installed on fire hydrants in the area. The use of city water was required in order to supplement the resources available on the John's Island property. During the period May, 1975, through August, 1976, the amount of water obtained from the City of Vero Beach that was used for golf course irrigation totaled 54,057,000 gallons, an average of some 110,000 gallons per day. At the present time there is no water problem, insofar as irrigation is concerned, on the South Course which obtains irrigation water from sewage effluent and a number of shallow wells. However, test samplings over the years have shown a gradual increase in the amount of chlorides in the water and it is questionable whether such water will continue to be suitable for irrigation in the foreseeable future. Recent tests show the chloride content of the water at 450 ppm. The type of Bermuda grass on the golf courses can grow satisfactorily with water containing not more than 1,000 ppm. City water is used only on the North Course. The water obtained from the shallow wells in that area is highly saline in content. A recent water test showed a chloride content of 3,800 ppm. Additionally, immediately before an eight inch rainfall which lowered the chloride content to the foregoing figure, the greens on the North Course tested at 6,300 ppm in chloride content (Testimony of Luke, Little, Exhibits 6,7). During periods of drought, the City of Vero Beach has requested John's Island and other water users to either curtail or stop the use of city water for non-domestic purposes. Such requests have been received approximately six times during the past year. In April, 1976, the city water used for golf course irrigation at John's Island was shut off for a period of eight days as a result of a request from officials of Vero Beach. If insufficient irrigation water is not received for a period of 10 days to two weeks, it is extremely probable that a golf course would have to be replanted at an approximate cost of $60,000.00 to $80,000.00 and would require a period of six months for suitable growth. Both the Town and John's Island always cooperated fully with the requests of Vero Beach to curtail water use (Testimony of Luke, Miller, Little, Exhibit 17). At the time irrigation water sources were being explored at John's Island, a test well was drilled to a depth of 2020 feet into the Floridan aquifer underlying the property, but an inadequate quantity of water was developed. Lost Tree owns some 25 acres of land at Winter Beach, Florida, which is located west of John's Island across the Indian River. Although test wells there produced satisfactory water, it was not feasible to use this source due to prohibitions against excavation for such purposes in the Indian River. Due primarily to economic considerations of the high cost of using treated city water for golf course irrigation, and the inconvenience and possible hazards of water interruptions from that source, Lost Tree decided to supplement its resources from water withdrawn from wells to be located on a 4.869 acre tract of land it purchased in Wabasso. Although a deep well was considered at that site, state agencies advised that the Floridan aquifer was overloaded in that area to a degree of 200 percent. Accordingly, in 1973, two ninety-foot deep wells were constructed on the site approximately 500 feet apart into the underlying shallow aquifer. Pump tests showed that the chloride content was within satisfactory limits. Thereafter, Lost Tree in its own name and that of The Town, obtained necessary rights-of-way and permits for the placement of a system of pipes for transportation of water from the Wabasso wells to John's Island. These consisted of a 16" water line from the Wabasso site east over a newly constructed bridge and several existing bridges to Highway A1A where the size of the line south to John's Island was decreased to twelve inches. An agreement was entered into between Lost Tree and the Town on December 19, 1974 whereby the former agreed to supply emergency needs of the Town from water obtained from the Wabasso wells. About that same time, the pipe system was completed and the present application filed with the District (Testimony of Lloyd, Ecclestone, Exhibits 2,6,9). The area immediately surrounding Lost Tree's land in Wabasso consists primarily of residences, groves, and trailer parks. The residents of the unincorporated Wabasso area depend solely upon the shallow aquifer for their domestic water needs since there are no utility services in the area. Grove irrigation normally is accomplished by deep wells to the Floridan aquifer. After the application herein was filed in January, 1975, numerous letters of objection to the proposed withdrawal were filed with the District by residents of the Wabasso community and from local organizations. These objections, for the most part, expressed apprehension that the applicants would be withdrawing far more water from the well field than their fair share based on the size of Lost Tree's land in Wabasso. The objectors also claimed that the requested withdrawal would have a serious detrimental effect on existing users. They further protested the concept of extracting potable water from one area and transporting it to another area for irrigation use on recreational facilities. The initial Staff Report of the District on January 30, 1975, took such objections into consideration and recommended denial of the application based on the unsuitability of the well field site. It found that withdrawal of the requested water for golf course irrigation was not a reasonable and beneficial use because it greatly exceeded the water budget for the site, harmed existing legitimate users in the area by creating drawdowns of several feet which would increase the possibility of potable water supply wells running dry, harming potential future legitimate users by lowering the water table and exporting the water that they might have utilized, and because it threatened to harm such users and the resource itself by "upconing" saline water from the bottom of the aquifer into the fresh water producing zone of the aquifer. Although the report stated that there would be no objection to permitting an allocation on the order of 7.5 acre feet per year, which was the equivalent to the water crop, it was not recommended because such an allocation would do little to meet the applicant's needs for irrigation water (Exhibit 6, Composite Exhibit 20). Recognizing the need for further studies to support its application, Lost Tree hired a firm of consulting groundwater geologists and hydrologists to conduct an investigation of potential sources of irrigation water for both the John's Island and the Wabasso sites. The study confirmed prior conclusions that it was not practicable or feasible to develop the necessary irrigation water from sources available at John's Island. As to the Wabasso area, the report found that the shallow aquifer was not being fully utilized and that extraction of the proposed quantity of water would not exceed the capacity of the aquifer to provide it. It also determined that the presence of a continuous layer of impermeable clay within the Hawthorn formation effectively separates the Floridan from the shallow aquifer. No interference in the water levels of the Floridan aquifer should occur nor is it likely there would be salt water intrusion into the shallow aquifer. However, based on the formulation of a "mathematical model," it was predicted that the proposed withdrawal could adversely affect existing shallow wells within a few hundred feet of the applicant's well field by "drawdown" which could lessen the pumping ability of centrifugal pumps. Nearby existing wells, such as those located in a trailer park immediately west of Lost Tree's well field, could lose suction in pumping and thereby owners might experience delay in extracting water from the wells (Testimony of Amy, Exhibits 4, 8). Although one Wabasso resident who owns property near Lost Tree's wells has experienced a decrease in pressure in her well and poor quality water, and another nearby resident's well went dry, there is no clear evidence that Lost Tree's drilling of its two wells and consequent testing thereof caused these problems. Testimony of other Wabasso residents expressed their apprehension as to possible salt water intrusion and unavailability of water in the shallow aquifer if the requested withdrawal is approved. Other residents and public witnesses challenged the fairness of permitting one land owner to deplete local water supplies by withdrawals for transport to another area for recreational purposes (Testimony of Chesser, McPherson R., Pangburn R., Jackson, Mrs. S.B., Kale, Stout, Wintermute, Pangburn, K., Bidlingmayer, Willey, Gertzen). The District Staff Report, dated July 28, 1976, as supplemented by an addendum, dated August 30, 1976, reviewed the hydrogeological study submitted by the applicants and concluded that withdrawal of a specified amount of water from Lost Tree's Wabasso wells would represent a reasonable and beneficial use of the resource that did not appear to harm either the resource or existing users. It calculated the "crop requirement" for the golf courses on the basis of 135 acres. Testimony at the hearing established that the area required to be irrigated was only 70 acres. Consequently, the report's recommendation as to the annual water allocation for golf course irrigation was scaled down accordingly. Recommendations as to daily withdrawals were based upon the maximum billing by the City of Vero Beach for a 22-day period in January and February, 1975, plus a 20 percent allowance to provide a reasonable degree of operational flexibility. The conclusion of the staff that the withdrawal would not harm existing users is questionable in the light of the applicant's own hydrogeological study and testimony of its experts (Testimony of Winter, Exhibits 6,7,22). The Staff Report recommended that certain conditions be imposed upon any issuance of the requested permit. The following findings are made as to the reasonableness of such proposed conditions: Annual allocation of no more than 51.044 million gallons. FINDING: Reasonable. This permit shall expire 5 years after permit issuance. FINDING: Reasonable. The use may require reevaluation based upon developing needs of the area of withdrawal for higher priority uses of the resource. The total maximum monthly withdrawal from the two wells in Wabasso shall not exceed 6.931 million gallons. FINDING: Reasonable. The total daily withdrawal from the two wells in Wabasso shall not exceed 378,000 gallons. FINDING: Reasonable. Daily pumpage on a monthly basis shall be reported to the District during the following month. This data must be obtained through the use of an in line totalizing meter or meters at the well field. FINDING: Reasonable. Prior to the initiation of any pumping from the wells in Wabasso the permittee must survey all existing wells (with the owners' permission) located within 800 feet of each of these wells. Should it be determined that the permittee's pumping as recommended may adversely affect an existing well the permittee is to be held responsible for making timely corrective measures as deemed necessary at no expense to the owner, in order to preserve the water supply capability of that facility. A complete and detailed report of the survey and corrective measures taken by the permittee shall be submitted to the District. The District will then issue a notice authorizing the permittee to begin pumping as required. FINDING: Unreasonable. Although it is conceded by the applicants that adverse effects upon nearby wells may well occur, attempts to make determinations as to actual effects prior to full operation of Lost Tree's wells would only be speculative in nature. It is noteworthy in this regard that upon issuance of a temporary authorization to Lost Tree to withdraw water commencing in August, 1976, a similar precondition was imposed with a report of a survey and corrective measures taken to be submitted to the District prior to authorization to begin pumping. A cursory survey was performed by a representative of Lost Tree that consisted merely of attempting to locate surrounding wells by off-premises observation. No attempt was made to contact well owners or to obtain information as to the types of pumps on the wells. Such a survey is patently inadequate for the purposes desired by the District and it is considered impracticable and onerous to saddle the applicant with the burden of such a condition. Although withdrawals of water under the temporary permit commenced on September 18, 1976, and continued thereafter, there is no evidence that any complaints were registered by adjacent well owners as a result of the withdrawals (Testimony of Pearson, Exhibits 13, 14). For a period of 18 months after the first full week of operation in which no substantive complaints of adverse impact are received by the District, the permittee must assume full responsibility for taking the appropriate corrective to rectify any adverse impact their withdrawals create on any existing users within the area influenced by their withdrawal. Upon receiving a substantive complaint of adverse impact upon an existing user, the Executive Director of the District will issue a notice prohibiting any further withdrawals from the wells in Wabasso until corrective measures are taken by the permittee at no expense to the existing user, or until the permittee proves that their withdrawal is not the cause of the problem. The Executive Director of the District will issue a notice to resume withdrawals when the District has been satisfied that the situation is remedied. FINDING: Reasonable in part. The condition should be modified to extend the period of the permittee's responsibility for corrective action as to adverse impact on existing users to the entire life of the permit rather than for a period of only 18 months. Further, the District's prohibition of withdrawals after the receipt of a complaint is arbitrary and inconsistent with the method of administrative enforcement procedures as specified in Section 373.119(1), Florida Statutes. To help define the actual impact of the permittee's withdrawal a total of at least seven observation wells shall be installed. The observation wells shall be located between the permittee's wells and Indian River, two shall be located to the west and the remaining two shall be located either to the north or south of the permittee's wells. The locations and depths of these wells shall halve District concurrence. A continuous water level recording device shall be installed on one off these wells. FINDING: Reasonable. Although the installation and monitoring of a number of observation wells imposes a financial burden on the applicants, it is considered a proper requirement to assist in determining the impact of any withdrawal. The time for installation and specifications thereof should be set forth in any permit issued. Hydrographs from the recording device on one of the observation wells and from weekly hand measured water levels on the remaining observation wells shall be submitted to the District on a monthly basis. This data shall be submitted in the month following the period of record. All water level data shall be measured and recorded to the nearest hundredth of a foot and referenced to mean sea level. FINDING: Reasonable. By acceptance of this permit the permittee acknowledges that this permit confers no prior right to the permittee for the use of water in the amount allocated and for the purpose stated. FINDING: Unreasonable. The condition is ambiguous and involves legal aspects that are not proper for determination at this time. Any future application involving the use of the withdrawal facilities permitted herein, shall be considered as an application for a new use and it shall be reviewed accordingly. FINDING: Unreasonable. See comment in I above. All existing Floridan wells located on the applicant's properties must be abandoned in accordance with the current applicable standards of the Department of Environmental Regulation. Abandonment procedures must be carried out within 6 months of the date of issuance of this permit. FINDING: Unreasonable. The abandonment of existing Floridan wells involves subject matter not embraced within the application. An officer of the Lost Tree Village Corporation shall submit with each report required by the District a sworn and acknowledged affidavit that the report reflects the actual measurements or readings taken. FINDING: Reasonable. The Permittee shall obtain a water sample from a pumping well at the Wabasso well field site once a month, within five days of the end of the month. This sample shall be analyzed for chloride content, and the results reported to the District within 14 calendar days after collection. Should the District determine that a significant change has occurred in the chloride content of the water being withdrawn from the Wabasso well field, the District shall initiate a new review of the application. FINDING: Reasonable. Upon installation of the observation wells, a water sample shall be obtained from these wells and analyzed for the following parameters: Chloride Total Dissolved Solids Conductivity Sulfate Calcium Magnesium Sodium Bicarbonate This analysis shall be submitted to the District within 14 days after collection. During the last five days of the months of May and November of each year, during the duration of this permit, the permittee shall obtain one water sample from each of the installed observation wells. These samples shall be analyzed for Chloride content, and the results reported to the District within 14 days after collection. FINDING: Reasonable. If the permittee can demonstrate to the satisfaction of the District that the groundwater withdrawn by the south golf course well point system is no longer suitable for the irrigation of the golf course, the annual allocation shall be increased to 82.942 million gallons. FINDING: Unreasonable. Future needs should be the subject of modification of permit terms at an appropriate time, pursuant to section 373.239, F.S. An emergency authorization was issued to the applicants by the governing board of the District on August 30, 1976. This authorization contains certain special conditions including a requirement to conduct and submit a preauthorization survey and report concerning existing wells located within 800 feet of the applicant's wells. In addition, a condition of the authorization was that no withdrawals shall be made unless the City of Vero Beach had ordered the applicant to stop the use of water from its system for golf course irrigation. The evidence shows that neither of these conditions was met by the applicant, but yet withdrawals were made during the month of September, 1976 without District authorization (Testimony of Winter, Rearson, Exhibit 13). The applicant's disregard of these requirements indicates the need for a further special condition if a permit is granted, to ensure that adjacent land owners are protected in the event of adverse effects upon their water supply. To accomplish that, it is found that the following additional condition is reasonable and necessary: P. The Board shall require the applicant to furnish a bond in an appropriate amount, as authorized by Rule 16K-1.061, F.A.C. It is found that insufficient evidence has been presented to determine the merits of the request of the Town of Indian River Shores for an emergency water supply from the Wabasso wells.
Recommendation That a consumptive water use permit, with conditions as specified herein, be issued to applicant Lost Tree Village Corporation for the irrigation of its two golf courses at John's Island. DONE and ENTERED this 9th day of November, 1976, in Tallahassee, Florida. THOMAS C. OLDHAM Hearing Officer Division of Administrative Hearings Room 530, Carlton Building Tallahassee, Florida 32304 (904) 488-9675 Filed with the Clerk of the Division of Administrative Hearings this 9th day of November, 1976. COPIES FURNISHED: John H. Wheeler, Esquire Post Office Box V West Palm Beach, Florida Sherman N. Smith, Jr., Esquire Post Office Box 1030 Vero Beach, Florida 32960 William T. McCluan, Esquire 65 East Nasa Boulevard Post Office Box 459 Melbourne, Florida 32901 =================================================================
The Issue The ultimate issue is whether Celebrity Resorts, Inc., (Celebrity) is entitled to a permit to construct a wastewater treatment and reuse/disposal facility in Marion County, Florida.
Findings Of Fact Proposed Project Celebrity is seeking a DER permit to construct a 0.065 million gallon per day wastewater treatment and reuse/disposal facility to serve a proposed recreation vehicle (RV) park. The facility is to be located in northern Marion County on the southern border of Orange Lake, an Outstanding Florida Water. The RV park is to be located on 75 acres of land, and is to contain 372 RV and "park model" sites, four bath houses, a clubhouse, and an expanded boathouse. The sewage treatment plant (STP) and effluent disposal system, consisting of a spray irrigation system, are to be located on the southern end of the site, away from Orange Lake. There is a "break" in the watersheds of the Celebrity property caused by a ridge across the approximate center of the project site. The effect of this "break" is that approximately one-half of the property drains toward the lake while the approximate southerly half of the property drains into an independent depression creating a watershed separate from the lake. Some underground pipes for a sewage collection system were installed at the site without an appropriate DER permit. Celebrity stopped the installation upon notice from DER that a permit was required for such installation. The permit needed for the installation of the collection system pipes was not the permit for the sewage treatment project which is being considered in this proceeding. Celebrity was penalized for its collection system violation, which was resolved with a consent order. Sewage Treatment Plant (STP) The STP is an extended aeration plant. It is designed to meet secondary treatment standards (90% removal of BOD and suspended solids from raw sewage) and basic disinfection. This type of treatment plant is very reliable. All mechanical components have a 100% backup so if a pump or blower fails, another is available to operate. The STP is designed to be capable of treating the flow from this RV park. Additionally, the facility has a holding pond for treated sewage effluent that can store five days of flow. Furthermore, because the RV park is a transient facility, it is possible in an emergency to shut down the entire plant and have people leave. By its nature, this is much more convenient in an RV park that in a residential or commercial neighborhood. The holding pond is to be lined with a 60 millimeter high density polyethylene liner, so there should be no leakage to the ground or groundwater even if there is an accident in the STP causing release of untreated sewage into the holding pond. The STP is to be maintained five days a week and must be attended for three nonconsecutive visits a week by a Class D certified plant operator. The amount of dissolved/undissolved heavy metals in the effluent is typically not a problem in domestic sewage effluent such as from the proposed RV park. To the extent that trace amounts of metals will exist, the STP will remove some heavy metals from the effluent during the treatment process and entrain them in the sludge (which will be taken to appropriately licensed landfill). There is no possibility of effluent leaking or discharging from the plant to directly discharge to Orange Lake, even if the STP completely malfunctions. Although the proposed STP is not a highly sophisticated plant, reasonable assurances have been provided that the STP will comply with DER's requirements for secondary treatment and basic disinfection and proper operation. Effluent Disposal System (Spray Irrigation System) Phase I of the effluent disposal system (spray irrigation system) is 3.66 acres in size, with an additional 1.7 acres designated if Phase II is implemented. Approval under this permit authorizes only the 3.66 acres on Phase I. Numerous separate sprinkler heads will spray the treated effluent on the field. The heads can be separately controlled and shut down. The sprayfield is sited on the southwestern corner of the 75-acre site and is separated hydrologically from the Orange Lake drainage basin by the "break" referred to in Paragraph 4 above. Therefore, surface water drainage in the area of the sprayfield drains away from the lake and does not connect back to the lake. The permitted loading rate is 1.7 inches per week, or approximately 24,000 gallons per day at full capacity. This amount corresponds to only approximately 170% of natural rainfall, but is more evenly distributed and controlled. After uptake of nutrients by green plants and evaporation (evapo- transpiration), the average amount of treated effluent that will percolate below the "uptake zone" to the surficial aquifer (to the extent that such exists on the site) is 0.3 to 0.4 inches per week. The surficial water table in the area of the sprayfield generally flows to the north toward the lake, although the flow is not immediately direct toward the lake. The Floridan Aquifer (which is beneath the intermittent surficial water table) in the area of the sprayfield generally flows away from the lake to the south and southeast. There are four sinkholes on the 75-acre site, although none of these four sinkholes have been identified on the 3.66-acre sprayfield. The four sinkholes on the 75-acre site and the majority of sinkholes in the area are "subsidence sinkholes." These sinkholes do not result in an open void down to the limerock after the collapse forming the sinkhole, but instead continue to have unconsolidated material above the limerock, even though a depression forms on the surface. One of the sinkholes has standing water within it and could possibly represent a connection with the lake water table or the Floridan Aquifer, but that sinkhole is separated hydrologically from the sprayfield site by the "break" across the property. There will generally be a slight increase in hydrologic conductivity through a subsidence sinkhole, since the unconsolidated material on the surface remains and is loosened. In some cases there may be even less hydrologic transmissivity due to a "jamming up" of the unconsolidated material, and in some cases there may be an increase in transmissivity when the unconsolidated material falls into an even less consolidated state. A "lineament" may exist on the 75-acre site. A lineament is a fracture zone, which indicates an increase in ground water transmissivity, resulting in an increase in solution of limestone and therefore indicating a more likely location for sinkhole formation. If a sinkhole develops within the sprayfield and if the sinkhole results in an increased area of ground water transmissivity, it could be a conduit for treated effluent to reach the surficial aquifer or Floridan Aquifer. Sinkholes which may form on the site are subject to being repaired with impervious material which prevents their becoming routes of contamination to the aquifer. In addition, the loading rate of any single sinkhole that forms within the spray irrigation field is so light and so easily shut down that there is a high confidence rate that no new sinkhole will act as a conduit for even the small immediate discharge over the area of the new sink to reach the Floridan Aquifer. A spray irrigation effluent disposal system is appropriate for this area which is subject to sinkhole formation. Spray irrigation allows dispersal of the effluent over a large area as opposed to a percolation pond which concentrates in the percolation area and therefore increases the chance of sinkhole formation and the chance of larger amounts of effluent reaching the Floridan Aquifer if all the intervening safeguards should fail simultaneously. In addition, the repair of any sinkhole forming within the sprayfield is simplified by the ability to simply shut off the sprinkler head or heads affecting that sinkhole while repair is being effected. Permit conditions further limit excessive effluent application rates by limiting the amount of flow, prohibiting application during storm events, and requiring monitoring of the flow. Spray irrigation is a common method of effluent disposal which generally has fewer problems than use of percolation ponds. No evidence has been presented that discharge from the sprayfield will cause violations of groundwater quality standards or violations of surface water quality standards, including the Outstanding Florida Water requirements in Orange Lake. Reasonable assurance has been provided that the proposed effluent disposal system will not violate DER water quality standards or other applicable DER rules. Standing Petitioner Suto could be substantially affected by this proposed facility if it causes pollution to Orange Lake since she uses the lake for nature photography. Additionally, she resides to the southeast of the proposed sprayfield and has concerns over contaminated ground water reaching her property and affecting her drinking water. Petitioner Riley could be substantially affected by this proposed facility if there is pollution to the Floridan Aquifer since she lives southeast of the proposed facility and has two drinking water wells on this property. Additionally, Petitioner Riley is a user of Orange Lake and therefore could be substantially affected by the proposed facility if it impacts the lake. Petitioner Solomon could be substantially affected by the proposed project if the project impacts Orange Lake since Mr. Solomon earns his living on the lake as a commercial fisherman and bass fishing guide.
Recommendation Based upon the foregoing Findings of Fact and Conclusions of Law, it is recommended that the Department of Environmental Regulation enter a Final Order granting to Celebrity Resorts, Inc., a permit to construct a wastewater treatment facility and spray irrigation disposal system subject to the conditions set forth in the Intent to Issue. RECOMMENDED this 15th day of July, 1991, in Tallahassee, Florida. DIANE K. KIESLING, Hearing Officer Division of Administrative Hearings The DeSoto Building 1230 Apalachee Parkway Tallahassee, FL 32399-1550 (904) 488-9675 Filed with the Clerk of the Division of Administrative Hearings this 15th day of July, 1991. APPENDIX TO RECOMMENDED ORDER, CASE NO. 91-2722 The following constitutes my specific rulings pursuant to Section 120.59(2), Florida Statutes, on the proposed findings of fact submitted by the parties in this case. Specific Rulings on Proposed Findings of Fact Submitted by Respondent, Celebrity Resorts, Inc. Each of the following proposed findings of fact is adopted in substance as modified in the Recommended Order. The number in parentheses is the Finding of Fact which so adopts the proposed finding of fact: 4(1); 5(2); 6(4); 7(5&6); 8- 12(7-11); 13(12); 14(13); 15(14); 16(15&16); 17(17); 18(18); 19-21(20-22); and 22-27(26-31). Proposed findings of fact 1-3 are unnecessary. Proposed finding of fact 28 is subordinate to the facts actually found in this Recommended Order. Specific Rulings on Proposed Findings of Fact Submitted by Respondent, Department of Environmental Regulation Each of the following proposed findings of fact is adopted in substance as modified in the Recommended Order. The number in parentheses is the Finding of Fact which so adopts the proposed finding of fact: 4-6(1-3); 7-13(5-11); 14(12); 15-17(13-15); 18(17); 19(18); 20-26(19-25); 27-32(26-31); and 33-35(32- 34). Proposed findings of fact 1-3 are unnecessary. COPIES FURNISHED: Delcie J. Suto, Pro Se 2400 N.W. 165th Street Citra, FL 32113 Carol B. Riley, Pro Se 2250 N.W. 165th Street Citra, FL 32113 Crawford Solomon, Pro Se 1303 N.W. 186th Place Citra, FL 32113 Karen English 3680 West Highway 318 Citra, FL 32113 Marilyn Nehring P. O. Box 481 Orange Lake, FL 32112 John Monsees 2400 NW 165 Street Citra, FL 32113 William L. Townsend, Jr. Attorney at Law Post Office Box 250 Palatka, FL 32178-0250 Douglas H. MacLaughlin Assistant General Counsel Department of Environmental Regulation Twin Towers Office Building 2600 Blair Stone Road Tallahassee, FL 32399-2400 Carol Browner, Secretary Department of Environmental Regulation Twin Towers Office Building 2600 Blair Stone Road Tallahassee, FL 32399-2400 Daniel H. Thompson General Counsel Department of Environmental Regulation Twin Towers Office Building 2600 Blair Stone Road Tallahassee, FL 32399-2400
The Issue The issue in this case was whether the Respondent, City of Cape Coral (City), was entitled to an Individual Environmental Resource Permit (Permit) that would allow removal of the Chiquita Boat Lock (Lock) and associated uplands, and installation of a 165-foot linear seawall in the South Spreader Waterway in Cape Coral, Florida.
Findings Of Fact Based on the parties' stipulations and the evidence adduced at the final hearing, the following findings of fact are made: The Parties The Department is the administrative agency of the State of Florida statutorily charged with, among other things, protecting Florida's water resources. As part of the Department's performance of these duties, it administers and enforces the provisions of chapter 373, part IV, Florida Statutes, and the rules promulgated thereunder in the Florida Administrative Code. Pursuant to that authority, the Department determines whether to issue or deny applications for environmental resource permits. The City is a Florida municipality in Lee County. The City is the applicant for the Permit allowing the removal of the Lock and installation of a seawall (Project). The Project is located within the geographic boundary of the City. The South Spreader Waterway is a perimeter canal separating the City's canal system from shoreline wetlands to the west and south, which run the length of Matlacha Pass to the mouth of the Caloosahatchee River at San Carlos Bay.1/ The Association is a Florida non-profit corporation that was created in 1981. The Association was created to safeguard the interests of its members. The Association has approximately 150 members who reside in Matlacha and Matlacha Isles, Florida. A substantial number of its members have substantial interests in the use and enjoyment of waters adjacent to and surrounding Matlacha. The Association's members were particularly interested in protecting the water quality of the surface waters in the area. Matlacha is an island community located to the northwest of Cape Coral, the South Spreader Waterway, and the Lock. Matlacha is located within Matlacha Pass Aquatic Preserve. Matlacha Pass is classified as a Class II waterbody designated for shellfish propagation or harvesting, and is an Outstanding Florida Water (OFW). See Fla. Admin. Code R. 62-02.400(17)(b)36; 62-302.700(9)(h). Petitioner, Karl Deigert, is a resident and property owner in Matlacha. Mr. Deigert is the president of the Association. Mr. Deigert’s house in Matlacha is waterfront. He holds a captain’s license and has a business in which he gives sightseeing and ecological tours by boat of the waters around Matlacha. He fishes in the waters around his property and enjoys the current water quality in the area. He is concerned that removal of the Lock would have negative effects on water quality and would negatively impact the viability of his business and his enjoyment of the waters surrounding Matlacha. Petitioner, Melanie Hoff, is a resident and property owner in St. James City. St. James City is located to the southwest of Cape Coral. Ms. Hoff’s property is located within five nautical miles of the Lock. Ms. Hoff engages in various water sports and fishes in the waters around her property. She moved to the area, in part, for the favorable water quality. She is concerned that removal of the Lock would negatively impact water quality and her ability to use and enjoy waters in the area. Petitioner, Robert S. Zarranz, is a resident and property owner in Cape Coral. Mr. Zarranz’s house in Cape Coral is waterfront. He is an avid fisherman and boater. He is concerned that removal of the Lock would negatively impact water quality, and that the quality of fishing in the area would decline as a result. Petitioner, Yolanda Olsen, is a resident and property owner in Cape Coral. Ms. Olsen’s house in Cape Coral is waterfront. She enjoys watersports and birdwatching in the areas around her property. She is concerned that removal of the Lock would negatively impact water quality, and that her ability to enjoy her property and the surrounding waters would suffer as a result. Petitioner, Jessica Blanks, is a resident and property owner in Cape Coral. Ms. Blanks’ house in Cape Coral is waterfront. She is concerned that removal of the Lock would negatively impact water quality, and that her ability to enjoy her property and the surrounding waters would suffer as a result. Petitioner, Joseph Michael Hannon, is a resident and property owner in Matlacha. Mr. Hannon is a member of the Association. He enjoys boating, fishing, and kayaking in the waters surrounding Matlacha. He is concerned that removal of the Lock would negatively impact water quality, and that his ability to enjoy his property and the surrounding waters would suffer as a result. Petitioner, Debra Hall, did not appear at the final hearing and no testimony was offered regarding her standing. The Project and Vicinity The Project site is 0.47 acres. At the Lock location, the South Spreader Waterway is 200 feet wide, and includes a 125-foot wide upland area secured by two seawalls, the 20-foot wide Lock, a 32-foot wide upland area secured by one seawall, and 23 feet of mangrove wetlands. The Lock is bordered to the north by property owned by Cape Harbour Marina, LLC, and bordered to the south by mangrove wetlands owned by the state of Florida. The 125-foot wide upland area and the 20-foot wide Lock form a barrier separating the South Spreader Waterway from the Caloosahatchee River. The preponderance of the competent substantial evidence established that the South Spreader Waterway behind the Lock is not tidally influenced, but would become tidally influenced upon removal of the Lock. Joint Exhibit 1 at p. 46. The City proposes to remove the Lock and one of the seawalls, reducing the 125-foot upland area to 20 feet. The proposed future condition of the area would include 125 feet of open canal directly connecting the South Spreader Waterway with the Caloosahatchee River. Joint Exhibit 1 at p. 47. The primary purpose of the Lock's removal is to alleviate safety concerns related to boater navigation. The Project's in-water construction includes demolition and removal of the existing Lock, removal of existing fill in the 125-foot upland area, removal of existing seawalls, and construction of replacement seawalls. The City would employ Best Management Practices (BMPs) throughout the course of the Project, including sediment and erosion controls such as turbidity barriers. The turbidity barriers would be made of a material in which manatees could not become entangled. All personnel involved with the Project would be instructed about the presence of manatees. Also, temporary signs concerning manatees would be posted prior to and during all in-water project activities. History of the South Spreader Waterway In the mid-1970's, the co-trustees of Gulf American Corporation, GAC Properties Credit, Inc., and GAC Properties, Inc., (collectively GAC) filed for after-the-fact permits from the Department's predecessor agency (DER), for the large dredge and fill work project that created the canal system in Cape Coral. In 1977, DER entered into CO 15 with GAC to create the North and South Spreader Waterways and retention control systems, including barriers. The Lock was one of the barriers created in response to CO 15. The Spreader Waterways were created to restore the natural hydrology of the area affected by GAC's unauthorized dredging and filling activity. The Spreader Waterways collected and retained surface runoff waters originating from the interior of Cape Coral's canal system. The South Spreader Waterway was not designed to meet water quality standards, but instead to collect surface runoff, then allow discharge of the excess waters collected over and through the mangrove wetlands located on the western and southern borders of the South Spreader Waterway. This fresh water flow was designed to mimic the historic sheet flow through the coastal fringe of mangroves and salt marshes of the Caloosahatchee River and Matlacha Pass estuaries. The fresh water slowly discharged over the coastal fringe until it finally mixed with the more saline waters of the estuaries. The estuarine environments located west and south of the Lock require certain levels of salinity to remain healthy ecosystems. Restoring and achieving certain salinity ranges was important to restoring and preserving the coastal fringe. In 1977 GAC finalized bankruptcy proceedings and executed CO 15. CO 15 required GAC to relinquish to the state of Florida the mangrove wetlands it owned on the western and southern borders of the South Spreader Waterway. This land grant was dedicated by a warranty deed executed in 1977 between GAC and the state of Florida. The Petitioners' expert, Kevin Erwin, worked as an environmental specialist for DER prior to and during the construction of the Spreader Waterways. Mr. Erwin was DER's main representative who worked with the GAC co-trustees to resolve the massive dredge and fill violation and design a system to restore the natural hydrology of the area. Mr. Erwin testified that the Lock was designed to assist in retention of fresh water in the South Spreader Waterway. The fresh water would be retained, slowed down, and allowed to slowly sheet flow over and through the coastal fringe. Mr. Erwin also testified that the South Spreader Waterway was not designed to allow direct tidal exchange with the Caloosahatchee River. In Mr. Erwin's opinion, the South Spreader Waterway appeared to be functioning today in the same manner as originally intended. Breaches and Exchange of Waters The Department's second amended notice of intent for the Project, stated that the Project was not expected to contribute to current water quality violations, because water in the South Spreader Waterway was already being exchanged with Matlacha Pass and the Caloosahatchee River through breaches and direct tidal flow. This second amended notice of intent removed all references to mitigation projects that would provide a net improvement in water quality as part of the regulatory basis for issuance of the permit. See Joint Exhibit 1 at pp. 326-333. The Department's witnesses testified that waters within the South Spreader Waterway currently mix with waters of the Caloosahatchee River when the Lock remains open during incoming and slack tides. A Department permit allowed the Lock to remain open during incoming and slack tides. Department witness, Megan Mills, the permitting program administrator, testified that she could not remember the exact date that permit was issued, but that it had been "a couple years." The location of breaches in the western and southern banks of the South Spreader Waterway was documented on another permit's drawings and pictures for a project titled "Cape Coral Spreader Waterway Restoration." See Cape Coral Ex. 9. Those documents located three breaches for repair and restoration identified as Breach 16A, Breach 16B, and Breach 20. The modeling reports and discussion that support the City's application showed these three breaches connect to Matlacha Pass Aquatic Preserve. Breach 20 was described as a connected tidal creek. Breach 16A and 16B were described as allowing water movement between Matlacha Pass and the South Spreader Waterway only when relatively high water elevations occurred in Matlacha Pass or in the South Spreader Waterway. The Department's water quality explanation of "mixing," was rather simplistic, and did not consider that the waterbody in which the Project would occur has three direct connections with an OFW that is a Class II waters designated for shellfish propagation or harvesting. Such a consideration would require the Department to determine whether to apply the OFW permitting standards, and the Class II waters permitting criteria in section 10.2.5 of the Environmental Resource Permit Applicant's Handbook, Volume I. See Fla. Admin Code R. 62-330.302(1)(a); 62-4.242(2); and 62-302.400(17)(b)36. The Caloosahatchee River, at its entrance to the South Spreader Waterway, is a Class III waters restricted for shellfish harvesting. The mouth of the Caloosahatchee River is San Carlos Bay, which is a Class II waters restricted for shellfish harvesting. There was no evidence that the Department's regulatory analysis considered that the waterbody in which the Project would occur directly connects to Class III waters that are restricted for shellfish harvesting, and is in close proximity to Class II waters that are restricted for shellfish harvesting. See Fla. Admin. Code R. 62-302.400(17)(b)36. and 62-330.302(1)(c).2/ Total Nitrogen The City's expert, Anthony Janicki, Ph.D., testified that nitrogen concentrations in the Caloosahatchee River were higher than in the South Spreader Waterway in the years 2017 and 2018. Thus, he opined that if the Lock is removed, water from the South Spreader Waterway would not negatively impact the Caloosahatchee River. However, the City's application was supported by an analysis, with more than a decade of monitoring data, which showed nitrogen concentration values were comparable inside the South Spreader Waterway and in the Caloosahatchee River. Dr. Janicki also used the Department's Hydrologic Simulation Program – FORTRAN (HSPF) watershed model to estimate the Total Nitrogen (TN) loading that would enter the Caloosahatchee River through the Chiquita Lock. Dr. Janicki estimated that TN loading to the Caloosahatchee River, after removal of the Chiquita Lock, would amount to 30,746 pounds per year. The Caloosahatchee River is listed as impaired for nutrients and has a TN Total Maximum Daily Load (TMDL) that was set by the Department in 2009. Dr. Janicki opined that removing the Lock would not result in adverse impacts to the surrounding environment. But the Petitioners obtained his concession that his opinion was dependent on the City's completion of additional water quality enhancement projects in the future as part of its obligations under the Caloosahatchee Estuary Basin Management Action Plan (BMAP) for achieving the TN TMDL. Dr. Janicki additionally testified that the potential TN loading to the Caloosahatchee River did not anticipate an actual impact to the River's water quality because the TN loads from the South Spreader Waterway were already factored into the 2009 TMDL. He essentially testified that the Lock's removal was anticipated and was factored into the model when the TMDL was established in 2009. Thus, the Petitioners proved by a preponderance of the competent and substantial evidence that the Department and the City were not aligned regarding how the City's application would provide reasonable assurances of meeting applicable water quality standards. The Petitioners proved by a preponderance of the competent and substantial evidence that the City relied on future projects to provide reasonable assurance that the removal of the Lock would not cause or contribute to violations of water quality standards in the Caloosahatchee River and the Matlacha Pass Aquatic Preserve. The Petitioners proved by a preponderance of the competent and substantial evidence that the Department relied on a simplistic exchange of waters to determine that removal of the Lock would not cause or contribute to violations of water quality standards in the Caloosahatchee River and the Matlacha Pass Aquatic Preserve. Water Quantity and Salinity The engineering report that supports the City's application stated that when the Lock is removed, the South Spreader Waterway behind the Lock will become tidally influenced. With the Lock removed, the volume of daily water fluxes for the South Spreader Waterway would increase from zero cubic meters per day to 63,645 cubic meters per day. At the location of Breach 20, with the Lock removed, the volume of daily water fluxes would drastically decrease from 49,644 cubic meters per day to eight cubic meters per day. Dr. Janicki testified that Breach 20 was connected to a remnant tidal creek that meanders and eventually empties into an embayment. The evidence demonstrated that the embayment is Punta Blanca Bay, which is part of the Matlacha Pass Aquatic Preserve. Dr. Janicki opined that Breach 20 was an area of erosion risk and sediment transport into downstream mangroves that would be significantly reduced by removing the Lock. He explained that the reductions in flow would result in reductions in velocities through Breach 20 and in the South Spreader Waterway itself. Mr. Erwin testified that Breach 20 was not a "breach."3/ He described it as the location of a perpendicular intersection of the South Spreader Waterway with a small tidal creek, which connected to a tidal pond further back in the mangroves. Mr. Erwin testified that an "engineered sandbag concrete structure" was built at the shallow opening to limit the amount of flow into and out of this tidal creek system. But it was also designed to make sure that the tidal creek system "continued to get some amount of water." As found above, Lock removal would drastically reduce the volume of daily water fluxes into and out of Breach 20's tidal creek system. Mr. Erwin also testified that any issues with velocities or erosion would be exemplified by bed lowering, siltation, and stressed mangroves. He persuasively testified, however, that there was no such evidence of erosion and there were "a lot of real healthy mangroves." Mr. Erwin opined that removal of the Lock would cause the South Spreader Waterway to go from a closed, mostly fresh water system, to a tidal saline system. He described the current salinity level in the South Spreader Waterway to be low enough to support low salinity vegetation and not high enough to support marine organisms like barnacles and oysters. The City's application actually supports this opinion. Using the Environmental Fluid Dynamics Code (EFDC) model developed by Dr. Janicki for this Lock removal project, comparisons were made describing the salinity distribution within the South Spreader Waterway. The model was run with and without the Lock, for both a wet and dry year. Dr. Janicki testified, and the model showed, that removal of the Lock would result in increased salinity above the Lock and decreased salinity downstream of the Lock. However, he generally opined that the distribution of salinities was well within the normal ranges seen in this area. The City's application also concluded that the resultant salinities did not fall outside the preferred salinity ranges for seagrasses, oysters, and a wide variety of fish taxa. However, Dr. Janicki did not address specific changes in vegetation and encroachment of marine organisms that would occur with the increase in salinity within the South Spreader Waterway. Secondary Impacts to the Mangrove Wetlands Mr. Erwin testified that the mangroves located on the western and southern borders of the South Spreader Waterway are currently in very good health. He additionally testified that loss of the current fresh water hydraulic head and an increase in salinity within the South Spreader Waterway would negatively impact the health of the mangrove wetlands. In addition, the City's application stated that removing the Lock would result in a drop in the water level of one to one and a half feet within the South Spreader Waterway. Mr. Erwin credibly and persuasively testified that a drop in water level of only a few inches would have negative effects on the health of mangroves, and that a drop of a foot could result in substantial mangrove die-off. Mr. Erwin testified that the mangrove wetlands adjacent to the South Spreader Waterway consist of a variety of plants and algae in addition to mangroves. He described the wetlands as a mangrove community made up of different types of mangroves, and epiphytic vegetation such as marine algae. This mangrove community provides habitat for a "wide range of invertebrates." He further testified that these plants and algae uptake and transform the nutrients that flow over and through the mangrove wetlands before they reach the receiving waters. Thus, the mangrove wetlands on the western and southern borders of the South Spreader Waterway serve to filter nutrients out of the water discharged from the Waterway before it reaches Matlacha Pass and the Caloosahatchee River. Mr. Erwin's credible and persuasive testimony was contrary to the City's contention that Lock removal would not result in adverse impacts to the mangrove wetlands adjacent to the South Spreader Waterway. The City and the Department failed to provide reasonable assurances that removing the Lock would not have adverse secondary impacts to the health of the mangrove wetlands community adjacent to the South Spreader Waterway. Impacts to Fish and Wildlife, Including Endangered and Threatened Species The Florida Fish and Wildlife Conservation Commission (FWC) reviewed the City's application and determined that if BMPs for in-water work were employed during construction, no significant adverse impacts on fish and wildlife were expected. For example, temporary signs concerning manatees would be posted prior to and during all in-water project activities, and all personnel would be instructed about the presence of manatees. The FWC determination only addressed direct impacts during in-water construction work. The City's application contained supporting material that identified the major change resulting from removal of the Lock that may influence fish and wildlife in the vicinity of the Project, was the opportunity for movement to or from the South Spreader Waterway canal system. Threatened and endangered species of concern in the area included the Florida manatee and the smalltooth sawfish. The City's application stated that literature review showed the smalltooth sawfish and the Florida manatee utilized non-main-stem habitats, such as sea-wall lined canals, off the Caloosahatchee River. The City cited studies from 2011 and 2013, which showed that non-main-stem habitats were important thermal refuges during the winter, and part of the overall nursery area for smalltooth sawfish. The City concluded that removal of the Lock "would not be adverse, and would instead result in increased areas of useable habitat by the species." However, the Petitioner's expert witness, John Cassani, who is the Calusa Waterkeeper, testified that there is a smalltooth sawfish exclusion zone downstream of the Lock. He testified that the exclusion zone is a pupping area for smalltooth sawfish, and that rapid salinity fluctuations could negatively impact their habitat. The City also concluded that any impacts to the Florida manatee would not be adverse, "and would instead result in increased areas of useable habitat by the species, as well as a reduction in risk of entrapment or crushing in a canal lock system." At the same time, the City acknowledged that "watercraft collision is a primary anthropogenic threat to manatees." The City's literature review included a regional assessment by FWC's Fish and Wildlife Research Institute (FWRI) from 2006. Overall, the FWRI report concluded that the mouth of the Caloosahatchee River, at San Carlos Bay, was a "hot spot" for boat traffic coinciding with the shift and dispersal of manatees from winter refugia. The result was a "high risk of manatee- motorboat collisions." In addition, testimony adduced at the hearing from an 18-year employee of Cape Harbour Marina, Mr. Frank Muto, was that Lock removal would result in novice boaters increasing their speed, ignoring the no-wake and slow-speed zones, and presenting "a bigger hazard than the [L]ock ever has." Boater Navigation Concerns Oliver Clarke was the City’s principal engineer during the application process, and signed the application as the City's authorized agent. Mr. Clarke testified that he has witnessed boater congestion at the Lock. He also testified that lack of boating experience and weather concerns can exacerbate the boater congestion issues at the Lock. Petitioners presented the testimony of Mr. Frank Muto, the general manager of Cape Harbour Marina. Mr. Muto has been at the Cape Harbour Marina for 18 years. The marina has 78 docks on three finger piers along with transient spots. The marina is not currently subject to tidal flows and its water depth is between six and a half and seven and a half feet. He testified that they currently have at least 28 boats that maintain a draft of between four and a half and six feet of water. If the water depth got below four feet, those customers would not want to remain at the marina. Mr. Muto further testified that the Lock was in place when the marina was built, and the marina and docks were designed for an area with no tidal flow. Mr. Muto also testified that he has witnessed several boating safety incidents in and around the Lock. He testified that he would attribute almost all of those incidents to novice boaters who lack knowledge of proper boating operations and locking procedures. Mr. Muto additionally testified that there is law enforcement presence at the Lock twenty-four hours a day, including FWC marine patrol and the City's marine patrol.
Conclusions For Petitioners: J. Michael Hannon, Qualified Representative 2721 Clyde Street Matlacha, Florida 33993 John S. Turner, Esquire Peterson Law Group Post Office Box 670 Fort Myers, Florida 33902 For Respondent City of Cape Coral: Craig D. Varn, Esquire Amy Wells Brennan, Esquire Manson Bolves Donaldson Varn, P.A. 106 East College Avenue, Suite 820 Tallahassee, Florida 32301 Steven D. Griffin City of Cape Coral Assistant City Attorney Post Office Box 150027 Cape Coral, Florida 33915-0027 For Respondent Department of Environmental Protection: Kirk Sanders White, Esquire Department of Environmental Protection Mail Station 35 3900 Commonwealth Boulevard, Tallahassee, Florida 32399-3000
Recommendation Based on the foregoing Findings of Fact and Conclusions of Law, it is, RECOMMENDED that: The Department of Environmental Protection enter a final order denying Individual Environmental Resource Permit Number 244816-005 to the City of Cape Coral for removal of the Chiquita Boat Lock. The final order deny Petitioners' request for an award of attorney's fees and costs. DONE AND ENTERED this 12th day of December, 2019, in Tallahassee, Leon County, Florida. S FRANCINE M. FFOLKES Administrative Law Judge Division of Administrative Hearings The DeSoto Building 1230 Apalachee Parkway Tallahassee, Florida 32399-3060 (850) 488-9675 Fax Filing (850) 921-6847 www.doah.state.fl.us Filed with the Clerk of the Division of Administrative Hearings this 12th day of December, 2019.
Findings Of Fact The parties stipulated, and it is so found, that Petitioner, DER, has jurisdiction over both the issues and the Respondents Dey and KWC. KWC owns and operates a water system which supplies water to both residential and commercial customers in the City of Keystone Heights, Florida. Virginia Key is the President of KWC, a member of the Board of Directors of the corporation, and one of the five stockholders. The other stockholders are her sisters. The five sisters are the daughters of the late G. E Wiggins, and inherited the company from him at his death in 1969. Mr. Wiggins developed the water company in the 1920's and operated it until his death. KWC came under the jurisdiction of the Florida Public Service Commission (PSC) just prior to Mr. Wiggins' death. At that time, pursuant to a PSC requirement, it was assessed and valued at a sum in excess of $250,000.00 by a consultant firm hired for the purpose. As of late November, 1984, KWC served approximately 752 residential customers which, when multiplied by an average 2.5 persons per family factor, results in a total of approximately 1,880 residential inhabitants served by the water system. In addition, the system serves 105 commercial customers. It is impossible to estimate with any reasonable degree of accuracy the number of individuals involved in the commercial service. The system consists of three wells drilled in 1940, 1946, and 1960 to a depth of 350, 450, and 492 feet respectively. Total yield from the three wells is normally 1,350 gallons per minute. The wells are generally well protected against surface water infusion, are normally not subject to inundation, and have had no salt water infiltration problems in the past. At the present time, well number 2, drilled in 1946, with a 350 gpm yield is out of service. The water, when pumped from the ground, is stored in two tanks-one with a 60,000 gallon capacity and the other with a capacity of 800 gallons. Both tanks are steel. Chlorine is added to the water in each storage situation by a hyper-chlori- nation system before the water is sent to the storage tank. The distribution system is made up of 6" and 2" diameter pipe. In March, 1984, two different inspections of the water system, done by, in one case, an environmental specialist and in the other, an Engineer I with DER, revealed several deficiencies in the maintenance and operation of the system all of which constitute violations of DER rules. Specifically, these include (1) failure to provide an auxiliary power source in the event the main pumping capability of the system is lost, (Rule 17-22.106 (3)(a); (2) failure to utilize for the system an operator certi- fied by the state with a Class C license, (Rule 17-22.107(3)(b); (3) failure to maintain a free chlorine residual in the water of at least 0.2 ppm in the system, (Rule 17-22.106(3)(c); (4) failure to maintain a minimum pressure of 20 ppi in the distribution system, (Rule 17-22.106(3)(f); (5) failure to have a gas chlorination facility, (Rule 17-22.106(3)(d); and (6) failure to obtain proper permits to expand the distribution system, (Rule 17-22.108 (1)(b) Rule 17-22, F.A.C., sets up requirements for safe drinking water and was designed to establish guidelines and standards for facilities and water and to bring water into compliance with the Federal Act. Twenty ppi of pressure in the system was adopted as a standard minimum for residual pressure to protect against outside contaminants getting into the water system. Such contaminants could come from ground water, leaks, and water in storage tanks attached to the system such as toilet tanks, being aspirated into the system. Also a certain amount of pressure is required to operate appliances. Normally minimum pressure is found in areas at the edge of the system and in those areas where inadequate chlorination is located. They interact and both pressure and chlorinization are required. Chlorine can be injected into the system generally in two ways: the first is through gas chlori- nation and the second, through hyper-chlorinization as is used in the instant system. The effectiveness of hyper-chlorinization is limited, however, by the size of the system. Basically, hyper- chlorinization is effective when the demand in the system for pressure is no more than 10 ppi. Above this, gas chlorinization is necessary. As late as January 4, 1985, Mr. Dykes went to Keystone Heights to test the system. His tests showed that 11.9 ppi is the average daily flow per 24 hours for the last 12 months. Since this figure is above 10 ppi, in his opinion, a gas chlorinization system would be needed. Chlorine is used to purify water because it has been shown, through long use, to prevent disease. The requirement for a residual chlorine level in water, therefore, is consistent with that concept to insure chlorine is always in the water in sufficient quantity to prevent disease. Respondent's plant has less than the 0.2 residual that is required under the rule. This insufficiency is caused by the inadequate chlorinization system which has insufficient capacity to provide the appropriate amount of chlorine. At the current level, it is providing only approximately 60 percent of the needed chlorine. To correct this deficiency Mr. Dykes recommends installation of a gas chlorinization system. In addition, the pneumatic tank storing the water from the number 3 well does not give sufficient detention time to allow for appropriate reaction of the chlorine contained in the water before the water is released into the distribution system. Another factor relating to the lack of adequate pressure in the system is the fact that, in Mr. Dykes' opinion, too much of the system is made up of 2" diameter water line. A line of this small diameter prevents the maintenance of adequate pressure especially in light of the fact that there are numerous old lines in the system some with corrosion and scale in them which tends to reduce pressure. This latter factor would be prevalent even in the 6" lines. The current plant manager, Mr. Cross, who has been with Respondent for approximately 4 years is, with the exception of one part time employee, the only operations individual associated with the plant. As such, he repairs the meters and the lines, checks the pumps, the chlorinator, and checks and refills the chlorine reservoir on a seven day a week basis. Be learned the operation of the plant from his precedessor, Mr. Johnson, an unlicensed operator who was with the company for 10 years. Mr. Cross has a "D" license which he secured last year after being notified by DER that a license was required. It was necessary for him to get the "D" license before getting the required "C" license. At the present time, he is enrolled to take courses leading toward the "C" license. At the present time, however, he is not, nor is anyone else associated with KWC, holding a license as required. The rule regarding auxiliary power provides that all community systems serving 350 or more persons shall have standby pumping capability or auxiliary power to allow operation of the water treatment unit and pumping capability of approximately one-half the maximum daily system demand. Respondent has admitted that the system is not equipped with an auxiliary power source and it has already been established that more than 350 persons are served by the system. Respondent also admits that subsequent to November 9, 1977, it constructed main water lines for the system which required the obtaining of a permit from either the Petitioner or the county health unit. Respondent admits that it did not obtain or possess a permit to do the additional construction referenced above from either DER or the Clay County Health Department prior to the construction of the water lines referenced. The inspections referenced above, which identified the problems discussed herein, were accomplished by employees of Petitioner, DER, at a stipulated cost of $898.10. Respondent contends, and there is no evidence to the contrary, that there have been no complaints of contaminated water and that the monthly water samples which Mr. Cross forwards to the Clay County Health Department have been satisfactory. Mr. Cross also indicates that a September, 1983 DER analysis of water samples taken from the system was satisfactory. However, bacteriological analysis reports on water collected from Respondent's system on July 11 and 27, 1983, reflect unsatisfactory levels of either coliform or non-coliform bacteria in the water requiring resubmission of test samples. Respondent also contends that no one has ever gotten sick or died from the water furnished by the system and there is, in fact, no evidence to show this is not true. Even though so far as is known, no one has ever been made sick from the water in the system, in Mr. Dykes' opinion, the risk is there. As a result of the defects identified in this system, insufficient chlorine is going into the system to meet reasonable health standards. Though this does not mean that the water is now bad, it does mean that at any time, given a leak or the infusion of some contaminant, the water could become bad quickly, and the standard established by rule is preventive, designed to insure that even in the case of contamination, the water will remain safe and potable. Respondent does not deny that it is and has been in violation of the rules as set out by the Petitioner. It claims, however, that it does not have sufficient funds available to comply with the rules as promulgated by DER. Respondent has recently filed a request for variance under Section 403.854, Florida Statutes, setting forth as the basis for its request that it does not have the present financial ability to comply with any of the suggested or recommended corrective actions to bring its operation into compliance with the rules. Mr. Protheroe, the consulting engineer who testified for Respondent has not evaluated the system personally. His familiarity with it is a result of his perusal of the records of the company and the Petitioner. Based on his limited familiarity with the system, he cannot say with any certainty if it can be brought into compliance with, for example, the 20 ppi requirement. There are too many unknowns. If, however, the central system was found to be in, reasonably good shape, in his opinion, it would take in excess of $100,000.00 to bring it within pressure standards. To do so would require replacement of the 2" lines, looping the lines, and cleaning and replacing some central system lines as well. In his opinion, it would take three months to do a complete and competent analysis of the system's repair needs. Once that was done, he feels it would take an additional three months to bring the plant into compliance with DER requirements. Other repairs, such as those to the lines outside the plant, would take longer because some are located in the downtown area and have interfaced with other utilities. This could take from three to four months if the money were available to start immediately. Here, however, it has been shown that it is not. Consequently, to do the study and then, if possible, procure the funds required, could take well in excess of six months or so. Mr. Protheroe contends, and there is little if any evidence to indicate to the contrary, that to replace the current system with a new one entirely as it is currently constituted would cost at least $250,000.00. However, in his opinion, no one would ever put in a new system similar to the one currently there. He cannot say how much it would cost to buy the system and make the necessary corrections to it to rectify the deficiencies. His familiarity with the system is not sufficiently complete to do this. He cannot say exactly how much the system is worth in its current state, but he is satisfied that it is worth more than $65,000.00. In that regard, Mrs. Dey indicated that in her opinion, the fair market value of the system is currently at $250,000.00. At the present time, there are current outstanding loans in excess of $9,000.00 at 16 percent interest. This current loan basis has been reduced from a higher figure. In 1977, the company borrowed $15,000.00 at 9 percent. In 1981, it borrowed $5,000.00 more at 18 percent. In 1982, the loans were consolidated at an increased rate of 16 percent and the officers have been advised by their current creditors that they cannot borrow any more money for the system in its current state. They would sell the system if a reasonable price could be realized. However, any inquiries on prospective purchases have been chilled by a low rate base assigned by the PSC. In that regard, the City of Keystone Heights offered to purchase the system for $59,000.00. This offer was declined as being unreasonable. Nonetheless, in light of the low rate base assigned by the PSC in its order issued on December 21, 1981 of slightly over $53,000.00 the offer by the city of $59,000.00 is not completely out of line. A certified public accountant, in KWC's December 31, 1983 financial report assigned a valuation of approximately $62,000.00, again a figure only slightly higher than that offered by the city, but substantially less than the $175,000.00 price asked of the city by Respondent Dey and her sisters. Mrs. Dey indicated that to the best of her knowledge the PSC denied rate increases for the purposes of improvements. In the presentation before the commission, respondents relied exclusively on the services of their attorney and accountant. Evidence from Mr. Lowe, of the PSC, however, indicates that KWC has never requested a rate increase to finance any of the improvements called for here. In the PSC order referred to above, Respondent was awarded a 12.25 percent rate of return on its rate base. This figure was an amalgam of a more than 13 percent rate on equity and a lesser figure for cost of doing business, including debt. At the time of that hearing, however, the debt cost was based on a 9 percent interest figure. The 16 percent interest figure came afterwards and no hearing has been requested based on the higher interest rate and it is so found.
Recommendation Based on the foregoing findings of fact and conclusion of law, it is, therefore: RECOMMENDED that Respondents Virginia W. Day and the Keystone Water Company be ordered to comply with the Orders for Corrective Action previously filed herein to bring the water system in question in compliance with the Florida Safe Water Drinking Act without delay or suffer the penalties for non- compliance called for by statute and, in addition, pay costs of investigation in the amount of $898.16. RECOMMENDED in Tallahassee, Florida this 19th day of February, 1985. ARNOLD H. POLLOCK Hearing Officer Division of Administrative Hearings The Oakland Building 2009 Apalachee Parkway Tallahassee, Florida 32399-1550 (904) 488-9675 Filed with the Clerk of the Division of Administrative Hearings this 19th day of February, 1987. COPIES FURNISHED: Debra A. Swim, Esquire Assistant General Counsel Twin Towers Office Building 2600 Blair Stone Road Tallahassee, Florida 32301 John E Norris, Esquire 10 North Columbia Street Lake City, Florida 32055 Victoria Tschinkel, Secretary Department of Environmental Regulation 2600 Blair Stone Road Tallahassee, Florida 32301
Recommendation Based on the foregoing findings of fact and conclusions of law, it is RECOMMENDED that application number 07256-F be APPROVED subject to the special conditions set forth above. DONE AND ORDERED this 15th day of July 1987, in Tallahassee, Leon County, Florida. DONALD R. ALEXANDER Hearing Officer Division of Administrative Hearings The Oakland Building 2009 Apalachee Parkway Tallahassee, Florida 32399-1550 904/488-9675 Filed with the Clerk of the Division of Administrative Hearings this 15th day of July 1987.
