Waste Management

CMap

CMap Description

Waste management can influence the discharge of waste products, including litter, sewage discharge, and stormwater runoff, which can increase levels of nutrients and toxics and freshwater into the physical & chemical environment, impacting the growth and survival of reef species. Waste management policies can reduce discharges through improved technology, installing new systems, upgrading systems, or imposing fines for improper disposal methods. Waste management may benefit from shoreline protection, as well as indirectly from other ecosystem services that improve the well-being of sectors, such as tourism & recreation, which drive coastal development.

Citations

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Citation	Year	Study Location	Study Type	Database Topics

Management Options

Management Option	Description	Sources	Database Topics
Agriculture & Aquaculture: Pond Sealing	Waste treatment ponds and pits are useful methods of treatment, but premature seepage from these storage impoundments would also have negative impacts. Bentonite Liner Treatment, Compacted Clay Treatment, Flexible membrane, and Soil Dispersant Treatment are all options for sealing treatment impoundments, depending on the specific soil suitability and other criteria.	Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture.	Agriculture; Discharges; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Environmental Monitoring, Mapping, & Scientific Research; Non-point Source Runoff; Nutrient & Contaminant Processing; Nutrients; Point & Mobile Source Controls; Point Source Discharges; Remediation; Sewage Treatment; Supporting Services; Waste Management; Waste Management Policies; Wastewater Discharge
Agriculture & Aquaculture: Composting	Composting involves the controlled aerobic decomposition of manure or other organic material by micro-organisms into a biologically stable organic material that is suitable for use as a soil supplement. Composting should be part of nutrient management plans because it reduces the pollution potential of organic wastes. Smaller scale household composting may reduce the amount of material that enters the waste stream, where again it may have greater pollution potential. Larger volumes of material may require construction of containment facilities to ensure pollutants aren't able to enter runoff water in high concentrations.	Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture.	Agriculture; Agriculture, Aquaculture, & Forestry Policies; Carbon Storage & Cycling; Discharge Limitations; Discharges; Landscaping & Household Services; Littering; Microorganisms; Non-point Source Runoff; Nutrient & Contaminant Processing; Nutrients; Solid Waste Disposal; Waste Management; Waste Management Policies; Waterborne Discharges
Data Management & Decision Tools: Research and Model Causal Linkage Between Pollutants and Ecological Impact	This involves conducting research to identify and document causal linkages between discharge water pollutants and specific, quantifiable ecological problems. The natural environment naturally assimilates some pollutants, but has thresholds for this type of contaminant processing. Different hydrology, biology and spatial/temporal factors are all going to play a roll in the linkage between pollutants and ecological problems, meaning modeling and risk assessment can be beneficial.	NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.	Applied Chemicals; Biological Monitoring & Restoration; Biological Monitoring, Mapping, & Scientific Research; Chemical Variables; Cleaner & Solvent Use; Decision Support; Discharge Limitations; Discharges; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Environmental Monitoring, Mapping, & Scientific Research; Fertilizer & Pesticide Use; Non-point Source Controls; Non-point Source Runoff; Nutrient & Contaminant Processing; Petroleum Spills; Physical & Chemical Water Quality Criteria; Point & Mobile Source Controls; Point Source Discharges; Reef Inhabitants; Regulating Services; Sewage Treatment; Stormwater Management; Sunscreen Use; Supporting Services; Toxics; Wastewater Discharge; Water; Waterborne Discharges; Wetlands
Discharge Controls: Carbon Sequestration	Carbon sequestration is the process through which practices remove carbon dioxide (CO2) from the atmosphere. The term "sink" is also used to describe agricultural and forestry lands that absorb CO2, the major global warming gas emitted by human activities. Agricultural and forestry practices can also release CO2 and other greenhouse gases to the atmosphere. In the ocean, phytoplankton are another major carbon sink.	Houghton, R.A. 2002. Magnitude, distribution and causes of terrestrial carbon sinks and some implications for policy. Climate Policy 2:71-88.	Agriculture; Agriculture, Aquaculture, & Forestry Policies; Algae; CO2; Deforestation & Devegetation; Forestry; Funding & Incentives; Greenhouse Gas Emissions; Infrastructure; Landuse Management; Plankton; Political Pressure; Solid Waste Disposal
Discharge Controls: Point Source Effluent Toxicity Standards	Effluent Toxicity is considered the aggregate toxic effect to aquatic organisms from all pollutants contained in a facility's wastewater (effluent). It is one part of the Water Quality Standards (#22) that prohibits the discharge of toxic pollutants in toxic amounts. Numerical criteria can be adopted from the Clean Water Act of based on scientifically-defensible methods. In addition to setting this numerical criteria, enforcement of the standards requires inspection programs and monitoring.	Center for Watershed Protection. 2008. Guanica Bay watershed management plan.	Chemical Variables; Decision Support; Discharge Limitations; Discharges; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Food, Beverage, & Tobacco Products; Improved Technology; Manufacturing & Trade; Metals, Electronics, & Machinery Products; Natural Gas & Electric Power; Nutrients; Physical & Chemical Water Quality Criteria; Point & Mobile Source Controls; Point Source Discharges; Sewage Treatment; Toxics; Utilities; Utility Policies; Waste Management; Waste Management Policies; Wastewater Discharge; Waterborne Discharges; Wood, Plastics, & Chemical Products
Discharge Controls: Air Filtration & Scrubbing	The management option reduces emissions of air contaminants from structures through interception and/or collection. These filters and scrubbers can be implemented on ventilation emitting particulate matter, volatile organic compounds, ammonia, odorous sulfur compounds, methane or other greenhouse gasses. There are many alternative filters and scrubbers depending on the ventilation system and the characteristics of the emissions.	Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture.	Agriculture; Agriculture, Aquaculture, & Forestry Policies; Atmospheric Emissions; Carbon Storage & Cycling; Chemical Variables; Climate Regulation; CO2; Construction Codes & Projects; Discharges; Ecosystem Monitoring & Restoration; Energy Policy & Development; Environmental Monitoring & Restoration; Food & Energy Policies; Food & Raw Materials; Greenhouse Gas Emissions; Improved Technology; Infrastructural Policies; Manufacturing & Trade; Natural Gas & Electric Power; Non-Greenhouse Gas Emissions; Nutrient & Contaminant Processing; Ocean Acidity; Regulating Services; Solid Waste Disposal; Supporting Services; Toxics; Utilities; Utility Policies
Energy Policy & Development: Oil and Gas Rig End of Life	As oil production at a given offshore site decreases it becomes necessary to decommission the rigs that were drilling them. It is very expensive to dismantle and transport the rigs back to shore. One such well know case was Shell's Brent Spar 1995. Regulations on the end of life for oil rigs differ by country and even state within the US. The Minerals Management Service has a Rigs-to-Reefs program which supports and encourages the reuse of oil and gas structures for offshore artificial reef developments. If these structures are to be sunk as artificial reefs the normal permit requirements for artificial reefs still apply to ensure the structure will not interfere with navigation channels or degrade the environment.	Dauterive, L. 1999. Rigs-to reefs policy, progress, and perspective. Pages 313-318 in SPE/EPA Exploration & Production Environmental Conference.	Anchoring & Vessel Grounding; Artificial Habitat; Biological Addition; Chemical Variables; Civil Engineering & Construction; Construction Codes & Projects; Cultural Services; Discharge Limitations; Discharges; Infrastructural Policies; Infrastructure; Littering; Manufacturing & Trade; Marine Debris; Natural Gas & Electric Power; Oil & Gas Industry; Permitting & Zoning; Petroleum Spills; Point & Mobile Source Controls; Point Source Discharges; Provisioning Services; Solid Waste Disposal; Toxics; Utilities; Utility Policies; Waste Management; Water Depth & Sea Level; Water Resources
Monitor & Research: Research Historical Hydrology	This activity involves a historical assessment of the hydrology of the surrounding water area around the sanctuary as it has affected water quality and biological communities within the sanctuary. It will clarify the role of freshwater inflows and water quality from local freshwater bodies. Also, this activity will examine the effects of structural modification and changes in quality, quantity, timing and distribution of freshwater releases from existing structures and will examine land-based practices affecting the water quality of runoff.	NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.	Applied Chemicals; Chemical Variables; Coastal Development; Coastal Engineering; Dam Construction & Maintenance; Deforestation & Devegetation; Discharge Limitations; Discharges; Ditching & Soil Disturbance; Dredging, Draining, & Filling; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Environmental Monitoring, Mapping, & Scientific Research; Hydrologic Management; Impervious Surfaces; Infrastructural Policies; Landscape Changes; Landuse Management; Physical Variables; Salinity; Seawater Flow; Shoreline Armoring; Stormwater Management; Surface & Groundwater Flow; Water; Water Depth & Sea Level; Water Transportation; Waterborne Discharges
Regulatory Review and Development: Evaluate Artificial Reef Regulations	Discharge/depositing of materials and constructions on the seabed are both prohibited without permits, regulating the construction of new artificial reefs. Likewise, existing artificial reefs are protected through permit requirements for any alternation of the seabed. There are still further considerations for protecting artificial reefs. Artificial reef materials and construction choices are very important and may change based on the specific location and desired impacts. An artificial reef to attract recreational fishing differs from one for recreational divers or shoreline storm protection. Many artificial reefs were formally large ships, oil rigs or other types of waste that have been decommissioned and would be too large and expensive to dismantle on land. In these cases it is important to put restrictions on the sinking process to ensure there won�t be any type of chemical leakage and that the structure is stable on the seabed. (#189) (#190)	National Oceanic and Atmospheric Administration. 2007. National Artificial Reef Plan: Guidelines for Siting, Construction, Development, and Assessment of Artificial Reefs. US Department of Commerce. NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.	Artificial Habitat; Coastal Defense; Contact Uses; Discharge Limitations; Discharges; Dive, Snorkeling, & Swimming Tourism; Dredging Regulations; Environmental Monitoring & Restoration; Large Ships; Oil & Gas Industry; Permitting & Zoning; Physical Damage; Recreational Fishing; Solid Waste Disposal; Special Use Permitting; Tourism & Recreation; Waste Management; Waterborne Discharges
Restoration: Environmental Remediation	Environmental Remediation is a type of restoration that's focus ranges from Brownfields to Oil Spills to Hazardous Waste Sites. These restoration activities aim to restore the site to a previous condition, or to a condition that is not a threat to human health or other forms of life. Several standards can be used to determine when remediation is necessary and to what extent the environment should be restores. Biocriteria can be used to determine the degree of degradation to biological components of the site. Often it is the presence of a particular pollutant in the soil, water or air, which is above acceptable limits and will not degrade fast enough over a short period of time and therefore must be removed. Physical and chemical water quality criteria can be used to set maximum acceptable limits of water quality parameters. Air quality criteria can be used to set acceptable maximum and minimum air standards for remediation.	Office of Solid Waste and Emergency Response. 2005. Contaminated Sediment Remediation Guidance for Hazardous Waste Sites. EPA-540-R-05-012, US Environmental Protection Agency. Environment Protection Authority. EPA Guidelines for Environmental management of on-site remediation. Environment Protection Authority, Adelaide, Australia.	Applied Chemicals; Biocriteria; City Planning; Decision Support; Discharge Limitations; Discharges; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Environmental Monitoring, Mapping, & Scientific Research; Food, Beverage, & Tobacco Products; Health; Health Policies; Landuse Management; Littering; Manufacturing & Trade; Metals, Electronics, & Machinery Products; Military; Mining; Mining Policies; Mitigation; Monetary Valuation; Nutrient & Contaminant Processing; Oil & Gas Industry; Oil & Gas Rigs; Oil & Gas Tankers; Petroleum Spills; Physical & Chemical Water Quality Criteria; Pipelines; Point Source Discharges; Public Administration; Remediation; Security; Solid Waste Disposal; Supporting Services; Toxics; Valuation; Waste Management; Waste Management Policies; Wastewater Discharge; Waterborne Discharges; Wood, Plastics, & Chemical Products
Stormwater BMPs: Biological Stormwater Filtration	This method attempts to reduce the negative impacts of stormwater runoff through implementing engineering techniques that allow natural processes and plants to act as filters. Such techniques would include using grass parking and turf covered swales. Many of these techniques, such as reversed elevations for planted areas in parking lots, can demonstrate benefits both as natural filters and for the vegetation that are used since it eliminates the need to water them with irrigation systems.	NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL. Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture. Natural Resources Conservation Service. Basic Biofiltration Swale. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Bioretention System. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Constructed Wetland. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Filter Strips. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Reversed Elevations System for Parking Lots and Planting Areas. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Riparian Forest Buffer. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Roadway Landscape Treatment System. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Wet Biofiltration Swale. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Wet Pond Design. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Wet Swale. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Water Environment Research Foundation, American Society of Civil Engineers, U.S. Environmental Protection Agency, Federal Highway Administration, American Public Works Association, editor. 2008. Overview of Performance by BMP Category and Common Pollutant Type. International Stormwater Best Management Practices (BMP) Database [1999-2008]. Leisenring, M., Clary, J., Stephenson, J., and Hobson, P. 2010. International Stormwater Best Management Practices (BMP) Database Pollutant Category Summary: Nutrients. Geosyntec Consultants, Inc.	Applied Chemicals; Building & Home Construction; Chemical Variables; City Planning; Civil Engineering & Construction; Climate; Construction Codes & Projects; Deforestation & Devegetation; Discharge Limitations; Discharges; Ditching & Soil Disturbance; Fertilizer & Pesticide Use; Golf Course Operations; Impervious Surfaces; Infrastructure; Irrigation; Land-Based Civil Engineering; Landscape Changes; Landscape Conservation & Restoration; Landscaping & Household Services; Landuse Management; Non-point Source Controls; Non-point Source Runoff; Nutrient & Contaminant Processing; Physical Variables; Point & Mobile Source Controls; Point Source Discharges; Primary Production; Road Construction & Maintenance; Sediment; Storms & Hurricanes; Stormwater Management; Substrate; Supporting Services; Surface & Groundwater Flow; Toxics; Utilities; Waste Management; Waste Management Policies; Wastewater Discharge; Water; Waterborne Discharges
Stormwater BMPs: Biological Stormwater Retention/Detention	This method attempts to reduce the negative impacts of stormwater runoff through implementation of natural structures that retain runoff water for further treatment or controlled release. These structures are typically characterized as retention ponds and incorporate natural vegetation such as grass. These ponds may be dry, or may drain into nearby wetlands.	Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture. Natural Resources Conservation Service. Dry Extended Detention Ponds. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Poresky, A., Clary, J., Strecker, E., and Earles, A. 2011. International Stormwater Best Management Practices (BMP) Database. Technical Summary: Volume Reduction. Geosyntec Consultants.	Applied Chemicals; Chemical Variables; City Planning; Civil Engineering & Construction; Discharge Limitations; Discharges; Hydrologic Management; Infrastructural Policies; Irrigation; Land-Based Civil Engineering; Landscape Changes; Landscape Conservation & Restoration; Landuse Management; Non-point Source Controls; Non-point Source Runoff; Nutrient & Contaminant Processing; Physical Variables; Point & Mobile Source Controls; Point Source Discharges; Primary Production; Sediment; Storms & Hurricanes; Stormwater Management; Substrate; Supporting Services; Surface & Groundwater Flow; Toxics; Utilities; Utility Policies; Waste Management; Waste Management Policies; Wastewater Discharge; Water; Waterborne Discharges
Stormwater BMPs: Rainwater Collection Systems	Creating a rainwater collection system (either through policy change or the initiative of homeowners) would help in many ways. These systems would utilize water in an efficient manner. It would reduce the pressure of water as a finite resource. Water would be collected and utilized before it reaches the ground. Once rain falls to the ground, it picks up nutrients, chemicals, and pathogens on the ground and transports them in the form of runoff. Eventually this contaminated stormwater runoff enters water resources through the drainage basin. Collecting a considerable amount of water would prevent contamination of that water, and allow for it to be usable. Also, it would reduce the amount of water that is lost when it is contaminated as runoff. An overall reduced amount of stormwater runoff would reduce the amount of contaminants that would harm corals.	Center for Watershed Protection. 2008. Guanica Bay watershed management plan. Natural Resources Conservation Service. Cisterns used for water harvesting. Urban BMP's - Water Runoff Management Accessed 3/18/2011. Leisenring, M., Clary, J., Stephenson, J., and Hobson, P. 2010. International Stormwater Best Management Practices (BMP) Database Pollutant Category Summary: Nutrients. Geosyntec Consultants, Inc.	Applied Chemicals; Building & Home Construction; Chemical Variables; City Planning; Civil Engineering & Construction; Cleaner & Solvent Use; Climate; Construction Codes & Projects; Deforestation & Devegetation; Discharge Limitations; Discharges; Ditching & Soil Disturbance; Drinking Water Supply; Fertilizer & Pesticide Use; Food & Energy Policies; Impervious Surfaces; Infrastructural Policies; Infrastructure; Irrigation; Land-Based Civil Engineering; Landscape Changes; Landscaping & Household Services; Landuse Management; Non-point Source Controls; Non-point Source Runoff; Physical Variables; Point & Mobile Source Controls; Point Source Discharges; Sediment; Shelter; Storms & Hurricanes; Stormwater Management; Substrate; Surface & Groundwater Flow; Toxics; Utilities; Utility Policies; Waste Management; Waste Management Policies; Wastewater Discharge; Water; Water Utilities Policies; Waterborne Discharges
Stormwater BMPs: Structural Stormwater Filtration	This method attempts to reduce the negative impacts of stormwater runoff through implementation of engineering structures that trap or filter impurities out of runoff water. These include but are not limited to, using swales, filter strips, oil/water separators, oil/grit separators, and sand filters. Often structural retrofitting is coupled with biological filters/controls to direct water as desired and to fully reap the benefits of both systems. Structural filters are often incorporated into retention/detention and infiltration systems as well. One disadvantage of structural filters is that they are often higher maintenance as sand and chambers fill and clog with pollutants over time.	NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL. Natural Resources Conservation Service. Compost Filter System. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Dry Swale. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Median Strip Infiltration Trench. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Montgomery County Water Quality Inlet. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Off-Line Infiltration Basin. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Oil/Water Separators. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Organic Sand Filter. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Peat Sand Filter. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Perimeter Sand Filter. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Pocket Sand Filter. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Rockville Water Quality Inlet. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Sediment Basin (Water Quality Enhancement). Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Side-by-Side Infiltration Basin. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Surface Sand Filter. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Underground Sand Filter. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Underground Trench with Oil/Grit Chamber. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Under-the-Swale Infiltration Trench. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Water Quality Volume (WQV) Storage Tank. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Water Environment Research Foundation, American Society of Civil Engineers, U.S. Environmental Protection Agency, Federal Highway Administration, American Public Works Association, editor. 2008. Overview of Performance by BMP Category and Common Pollutant Type. International Stormwater Best Management Practices (BMP) Database [1999-2008]. Leisenring, M., Clary, J., Stephenson, J., and Hobson, P. 2010. International Stormwater Best Management Practices (BMP) Database Pollutant Category Summary: Nutrients. Geosyntec Consultants, Inc. US EPA. EPA Filtration BMPs. National Pollutant Discharge Elimination System Menu of BMPs Accessed 3/25/2011. US EPA. Manufactured Products for Stormwater Inlets. National Pollutant Discharge Elimination System Menu of BMPs Accessed 3/25/2011. US EPA. Alum Injection. National Pollutant Discharge Elimination System Menu of BMPs Accessed 3/25/2011. Natural Resources Conservation Service. 2010. Stormwater Runoff Controls. U.S. Depatrment of Agriculture. Natural Resources Conservation Service. 2005. Solid/liquid Waste Separation Facility. U.S. Depatrment of Agriculture.	Applied Chemicals; Chemical Variables; City Planning; Civil Engineering & Construction; Coastal Engineering; Construction Codes & Projects; Dam Construction & Maintenance; Discharge Limitations; Discharges; Ditching & Soil Disturbance; Food & Energy Policies; Hydrologic Management; Impervious Surfaces; Improved Technology; Infrastructural Policies; Infrastructure; Land-Based Civil Engineering; Landscape Changes; Landscape Conservation & Restoration; Landuse Management; Non-point Source Controls; Non-point Source Runoff; Physical Variables; Point & Mobile Source Controls; Point Source Discharges; Road Construction & Maintenance; Sediment; Storms & Hurricanes; Stormwater Management; Surface & Groundwater Flow; Toxics; Utilities; Utility Policies; Waste Management; Waste Management Policies; Wastewater Discharge; Waterborne Discharges
Stormwater BMPs: Sustained Reservoir Minimum Release of Minimum Baseflow to Sustain Aquatic Habitat	In some regions, even high intensity rivers (e.g. Rio Loco, Puerto Rico) are seasonal, drying for long enough to kill aquatic vegetation. Creating a constant baseflow would help sustain aquatic life and ultimately help to process nutrients. High intensity rivers are already prone to extreme channel erosion from the high flow rates, this erosion is even greater without any benthic biota to hold sediment on the river bottom. Restricting the release of reservoir water to that required to maintain aquatic biota would reduce the intensity of flow, stabilize the river bottom, create habitat and naturally process nutrients that could potentially contribute to eutrophication out on the coral reef.	Center for Watershed Protection. 2008. Guanica Bay watershed management plan. Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture.	Algae; Biological Monitoring & Restoration; Climate; Dam Construction & Maintenance; Discharge Limitations; Discharges; Ditching & Soil Disturbance; Drinking Water Supply; Ecosystem Monitoring & Restoration; Hydrologic Management; Infrastructural Policies; Infrastructure; Land-Based Civil Engineering; Landscape Changes; Landuse Management; Nutrient & Contaminant Processing; Physical Variables; Point Source Discharges; Pressures; Primary Production; Reef Habitat; Reef Life; Regulating Services; Storms & Hurricanes; Stormwater Management; Surface & Groundwater Flow; Utilities; Waste Management; Water; Waterborne Discharges; Wetland & Reef Restoration; Wetlands
Stormwater BMPs: Structural Stormwater Retention/Detention	This method attempts to reduce the negative impacts of stormwater runoff through implementation of engineering structures that retain runoff water for further treatment or controlled release. Water collection can be selective, targeting the first flush of water, which is typically the most polluted. Water retention has the additional benefit of later release at a place and time when the water is needed (e.g. for irrigation). Rainwater Collection Systems (#11) can be an important water resource in areas where freshwater is limited.	Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture. Natural Resources Conservation Service. Combined Infiltration/Detention Basin. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Detention Devices for Dry/Wet Ponds. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Natural Resources Conservation Service. Dry Extended Detention Ponds. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Leisenring, M., Clary, J., Stephenson, J., and Hobson, P. 2010. International Stormwater Best Management Practices (BMP) Database Pollutant Category Summary: Nutrients. Geosyntec Consultants, Inc. Poresky, A., Clary, J., Strecker, E., and Earles, A. 2011. International Stormwater Best Management Practices (BMP) Database. Technical Summary: Volume Reduction. Geosyntec Consultants. Natural Resources Conservation Service. 2010. Stormwater Runoff Controls. U.S. Depatrment of Agriculture. Natural Resources Conservation Service. 2008. Water and Sediment Control Basin. CODE 638. U.S. Depatrment of Agriculture. Natural Resources Conservation Service. Water Volume Management. Urban BMP's - Water Runoff Management Accessed 3/25/2011.	Agriculture, Aquaculture, & Forestry Policies; Applied Chemicals; Chemical Variables; City Planning; Civil Engineering & Construction; Climate; Coastal Development; Construction Codes & Projects; Deforestation & Devegetation; Discharge Limitations; Discharges; Ditching & Soil Disturbance; Hydrologic Management; Impervious Surfaces; Infrastructural Policies; Infrastructure; Land-Based Civil Engineering; Landscape Changes; Landuse Management; Non-point Source Controls; Non-point Source Runoff; Physical Variables; Point Source Discharges; Sediment; Shoreline Armoring; Storms & Hurricanes; Stormwater Management; Substrate; Surface & Groundwater Flow; Utilities; Utility Policies; Waste Management; Waste Management Policies; Wastewater Discharge; Water; Waterborne Discharges
Stormwater BMPs: Structural Stormwater Infiltration	This management option attempts to reduce the negative impacts of stormwater runoff through implementation of engineering structures that control the volume of surface water, facilitating faster absorption of the stormwater into the ground. Often these structures are able to infiltrate larger amounts of water faster while reducing exposure to surface sediments and pollutants.	Natural Resources Conservation Service. Combined Infiltration/Detention Basin. Urban BMP's - Water Runoff Management Accessed 3/23/2011. Leisenring, M., Clary, J., Stephenson, J., and Hobson, P. 2010. International Stormwater Best Management Practices (BMP) Database Pollutant Category Summary: Nutrients. Geosyntec Consultants, Inc. Poresky, A., Clary, J., Strecker, E., and Earles, A. 2011. International Stormwater Best Management Practices (BMP) Database. Technical Summary: Volume Reduction. Geosyntec Consultants. US EPA. EPA Infiltration BMPs. National Pollutant Discharge Elimination System Menu of BMPs Accessed 3/25/2011.	Applied Chemicals; Chemical Variables; City Planning; Civil Engineering & Construction; Climate; Coastal Development; Construction Codes & Projects; Deforestation & Devegetation; Discharge Limitations; Discharges; Ditching & Soil Disturbance; Drinking Water Supply; Fertilizer & Pesticide Use; Hydrologic Management; Impervious Surfaces; Infrastructural Policies; Irrigation; Land-Based Civil Engineering; Landscape Changes; Landuse Management; Non-point Source Controls; Non-point Source Runoff; Point Source Discharges; Sediment; Storms & Hurricanes; Stormwater Management; Substrate; Supporting Services; Surface & Groundwater Flow; Waste Management Policies; Wastewater Discharge; Water; Waterborne Discharges
Stormwater BMPs: Stormwater Pollution Reduction Through Instituting Preventitive Best Management Practices	This method focuses on reducing the amount of harmful contaminants in stormwater runoff by establishing Best Management Practices that prevent the generation of the pollutant to begin with. These BMPs include educational programs, infrastructure improvements and agricultural BMPs. Examples of educational programs would be programs that educate the public on the importance of, and how to avoid depositing hazardous wastes, such as oil, into storm drains, or how to use landscape management controls to limit the chemical and debris that from enter stormwater runoff from their personal lawns. Infrastructure improvement could include the use of alternative turnarounds and street cleaning. Agricultural practices such as roofs and covers for pesticides and equipment, or use of bedding are both preventative stormwater practices. Some additional specific practices include: controlling fertilizer application, properly using and disposing of fertilizers, pesticides, motor oil, and other harmful chemicals, debris removal, exposure reduction, minimization of pollutants, parking lot cleaning, stormwater catch basin insert, eliminate curbs and gutters, green parking, green roofs, street design and patterns, bedding.	NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL. Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture. US EPA. Alternative Turnarounds. National Pollutant Discharge Elimination System Menu of BMPs Accessed 3/25/2011. US EPA. Eliminate Curbs and Gutters. National Pollutant Discharge Elimination System Menu of BMPs Accessed 3/25/2011. US EPA. Green Parking. National Pollutant Discharge Elimination System Menu of BMPs Accessed 3/25/2011. US EPA. Green Roofs. National Pollutant Discharge Elimination System Menu of BMPs Accessed 3/25/2011. US EPA. Street Design and Patterns. National Pollutant Discharge Elimination System Menu of BMPs Accessed 3/25/2011. Natural Resources Conservation Service. Urban BMP's - Water Runoff Management. Urban BMP's - Water Runoff Management Accessed 3/25/2011. Irrigation Association. 2010. Turf and Landscape Irrigation Best Management Practices.	Agriculture; Applied Chemicals; Chemical Use Regulations; Chemical Variables; City Planning; Construction Codes & Projects; Discharge Limitations; Discharges; Environmental Education & Outreach; Food & Energy Policies; Food & Raw Materials; Forestry; Housing; Hydrologic Management; Infrastructural Policies; Infrastructure; Land-Based Civil Engineering; Landscape Changes; Landscape Conservation & Restoration; Landscaping & Household Services; Landuse Management; Mining; Nutrient & Contaminant Processing; Nutrients; Oil & Gas Industry; Road Construction & Maintenance; Security & Public Administration Policies; Shelter; Solid Waste Disposal; Storms & Hurricanes; Stormwater Management; Supporting Services; Toxics; Utilities; Waste Management; Waste Management Policies; Waterborne Discharges
Water Quality Management: Treating Effluent Water Through Wetlands	Additional treatment of sewage is often a necessary management option because secondary treatment alone leaves 20,000 times more nutrients in the water than the safe limit for corals. High concentrations of nutrients in the water leads to eutrophication, and coral reefs are more sensitive to nutrient enrichment than any other coastal system. Wetlands are extremely successful at reducing nitrogen levels in water. Using natural wetlands or "living machines" to perform this task can actually be more cost effective than further sewage treatment. Each successive wetland treatment cell of the series can provide incredible levels of denitrification, and thus protect corals from nutrient enrichment.	Center for Watershed Protection. 2008. Guanica Bay watershed management plan. Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture. Natural Resources Conservation Service. 2003. Waste Treatment Lagoon. CODE 359. U.S. Depatrment of Agriculture.	Building & Home Construction; Chemical Variables; City Planning; Civil Engineering & Construction; Coastal Development; Coastal Engineering; Deforestation & Devegetation; Discharge Limitations; Discharges; Ditching & Soil Disturbance; Infrastructural Policies; Infrastructure; Land-Based Civil Engineering; Landscape Changes; Landscape Conservation & Restoration; Landuse Management; Mangroves; Nutrient & Contaminant Processing; Nutrients; Physical Variables; Point & Mobile Source Controls; Point Source Discharges; Primary Production; Security & Public Administration Policies; Sewage Treatment; Supporting Services; Surface & Groundwater Flow; Toxics; Utilities; Utility Policies; Waste Management; Waste Management Policies; Wastewater Discharge; Waterborne Discharges; Wetlands
Water Quality Management: Protection of Resources from Hazardous Materials & Spills	Wherever possible, take actions to decrease the likelihood of hazardous materials spills near corals. Even when risks are reduced significantly, spills may still occur, necessitating contingency plans (#56). In order for reef managers to stay informed of the latest spills/updates, a spill-reporting system should be established along with a geo-referenced database that keeps track of all spills within a certain distance of reefs.	NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL. Puerto Rico and USVI Area Planning Committees. 2008. Hazardous Substances Pollution Area Contingency Plan. Puerto Rico and the U.S. Virgin islands. USCG. 2007. Hazardous Substances Pollution Area Contingency Plan. Florida Keys.	Discharge Limitations; Discharges; Energy Policy & Development; Food & Energy Policies; Food & Raw Materials; Large Ships; Oil & Gas Industry; Oil & Gas Rigs; Oil & Gas Tankers; Petroleum Spills; Pipelines; Point & Mobile Source Controls; Point Source Discharges; Small Boats; Toxics; Transportation; Waste Management; Waste Management Policies; Water Transportation; Waterborne Discharges
Water Quality Management: Landfill & Solid Waste Disposal Site Assessment Strategy	This option seeks to reduce/eliminate pollution from leaching at landfill sites. High risk, old landfill sites that may have hazardous waste must be identified. Once identified, monitoring at these landfills should be intensified to insure leaching does not occur into marine systems.	NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.	Chemical Variables; Discharge Limitations; Discharges; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Environmental Monitoring, Mapping, & Scientific Research; Health; Health Policies; Littering; Nutrient & Contaminant Processing; Nutrients; Point & Mobile Source Controls; Public Administration; Remediation; Security; Security & Public Administration Policies; Solid Waste Disposal; Toxics; Utilities; Waste Management; Waste Management Policies
Water Quality Management: Wastewater Management System Standards	This management option involves reducing the amount of pollutants entering groundwater by enforcing existing standards. Inspection and compliance programs for cesspits, Onsite Sewage Treatment and Disposal Systems (OSTDS) and septic tanks are necessary to do this. Municipal sewage treatment plants have a variety of means to meet these standards, including improving management of current treatment systems or upgrading treatment systems with newer technology. Some of these technologies include: Continuous-Flow, Suspended-Growth Aerobic Systems (CFSGAS), Fixed-film, Sequencing batch reactor systems, Stabilization ponds, FWS constructed wetlands, and other aquatic systems (#2), Enhanced nutrient removal: phosphorus & nitrogen, Recirculating sand/media filters and Land treatment systems.	NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL. Center for Watershed Protection. 2004. Illicit Discharge Detection and Elimination. US EPA. US Environmental Protection Agency. 2002. Onsite Wastewater Treatment Systems Manual. EPA/625/R-00/008, US EPA.	Chemical Variables; City Planning; Decision Support; Discharge Limitations; Discharges; Improved Technology; Landuse Management; Nutrients; Point & Mobile Source Controls; Point Source Discharges; Sewage Treatment; Supporting Services; Utilities; Waste Management; Waste Management Policies; Wastewater Discharge; Waterborne Discharges
Water Quality Management: Pet Waste Cleanup Ordinance & Education	In residential areas, pet waste can contributes to the large amount of nutrients and pathogens that enter the water through stormwater runoff. This is especially useful in regions such as Gu�nica, Puerto Rico where there are a lot of stray dogs. Education for pet-owners and possible ordinance would help decrease harmful pathogens reaching corals through stormwater runoff and reduce eutrophication.	Center for Watershed Protection. 2008. Guanica Bay watershed management plan. Natural Resources Conservation Service. Animal Waste Collection. Urban BMP's - Water Runoff Management Accessed 3/18/2011. Clary, J., Leisenring, M., and Jeray, J. 2010. International Stormwater Best Management Practices (BMP) Database. Pollutant Category Summary: Fecal Indicator Bacteria. Wright Water Engineers.	Aquarium & Pet Trade; Biological Addition; Chemical Variables; Cultural Policies; Cultural Services; Culture; Cyanobacteria; Discharge Limitations; Discharges; Domestic Animal Waste; Environmental Education & Outreach; Health; Health Policies; Invasive Species; Landscaping & Household Services; Microorganisms; Nutrients; Pathogens; Shelter; Solid Waste Disposal; Stormwater Management; Waste Management; Waste Management Policies; Water; Water Resources; Water Utilities Policies; Waterborne Discharges
Water Quality Management: Reduce Pollution & Discharges from Marinas & Live-Aboards	This management option strives to reduce and eliminate the discharge of wastewater and pollution within zones near corals. In many instances, "no-discharge" zones already exist and are simply poorly enforced. In other instances the discharge limits are not stringent enough. Successful regulation requires marinas to be equipped with the proper infrastructure to support transfer of wastewater from vessels to shore-side for treatment. This infrastructure includes: pump-out facilities and mobile pump-out services.	NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.	Biological Addition; Boating Activities; Boating Regulations; Coastal Engineering; Cyanobacteria; Discharge Limitations; Discharges; Docks & Marinas; Health; Health Policies; Marine Debris; Microorganisms; Nutrient & Contaminant Processing; Nutrients; Pathogens; Physical Damage; Point & Mobile Source Controls; Point Source Discharges; Ports & Harbors; Resource Use Management; Sewage Treatment; Solid Waste Disposal; Waste Management; Waste Management Policies; Wastewater Discharge; Waterborne Discharges
Water Quality Plans: Resource Monitoring of Surface Discharges	This strategy will identify the impacts of point-source discharges by requiring all National Pollutant Discharge Elimination System dischargers to develop monitoring programs.	NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.	Decision Support; Discharge Limitations; Discharges; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Environmental Monitoring, Mapping, & Scientific Research; Health; Health Policies; Infrastructure; Physical & Chemical Environment; Point & Mobile Source Controls; Point Source Discharges; Pressures; Public Administration; Responses; Sectors Filling Human Needs; Security; Security & Public Administration Policies; Socio-Economic Drivers; Utilities; Waste Management; Waste Management Policies; Waterborne Discharges
Water Quality Plans: Reducing Pollution Discharges from Marinas and Live-Aboards	This plan strives to reduced pollution discharges through more strictly enforcing already-existing regulations for discharging. This includes enforcing regulations that restrict boaters from releasing sewage into state waters and requiring connecting toilets to shore-side plumbing. Also, this entails enforcing "no-discharge" zones where live-aboard vessels congregate or where there is history of violation issues with sewage release. The third component to this plan would be to develop and education plan to educate boaters on how/why to reduce pollution from their vessels.	NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL. US EPA. 2011. Vessel General Permit Fact Sheet. 2005. Brightwork: Best Management Practices Manual for Maine's Boatyards and Marinas.	Biological Addition; Contact Uses; Cultural Policies; Culture; Discharge Limitations; Discharges; Entertainment & Accommodation Services; Environmental Education & Outreach; Fishing Sector; Food & Raw Materials; Health; Health Policies; Infrastructure; Point & Mobile Source Controls; Point Source Discharges; Pressures; Recreational Fishing; Resource Use Management; Responses; Sectors Filling Human Needs; Sewage Treatment; Socio-Economic Drivers; Tourism & Recreation; Utilities; Waste Management; Waste Management Policies; Wastewater Discharge; Waterborne Discharges
Waterway Management: Manage Canal Water Quality	This management option addresses water quality issues that may arise from nearshore, confined areas, specifically dead-end canals. This management response does not focus on wastewater discharges into canals, but instead on the hydrologic structure and orientation of the canal itself. Physical problems with canal orientation can lead to such problems as low flushing and build-up of weed wrack. This is a problem because the build-up of weed wrack consumes oxygen and releases nutrients as it decays. When combined with low flushing and circulation, dead end canals have decreased oxygen concentrations, accelerated eutrophication, and accumulate organic materials, pollutants and sediment. To improve the current canal system, management can inventory and map canals to identify high risk hotspots and candidates for future canal restoration projects. Canals are typically constructed to best suit the water access needs of local homes and businesses. Preventing high risk canals from being constructed, or placing certain requirements on their construction through permitting is one way to reduce future problem spots. Some design strategies include: Construct non-linear canals without right-angles and flared inlets oriented to prevailing winds. Instead of dead-ends, canals should include a flow through water exchange system or install mechanical pumps. Canals should be as wide as possible in relation to depth and length. Canal depth should be uniform or progressively shallower away from the parent waterbody, with sloping banks (eliminate requirements for navigable depths to shoreline). Some canal improvement strategies include: Implement weed gates, air curtains, and aeration systems. Direct all stormwater and effluent away from canal systems. Reduce bulkheading and restore native vegetative buffers (#1). Promote diversity of substrates and habitats.	NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.	Applied Chemicals; Biological Monitoring & Restoration; Boat Movement; Boating Activities; Building & Home Construction; Chemical Variables; City Planning; Civil Engineering & Construction; Coastal Development; Coastal Engineering; Construction Codes & Projects; Decision Support; Deforestation & Devegetation; Discharge Limitations; Discharges; Ditching & Soil Disturbance; Docks & Marinas; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Fishing Sector; Food & Energy Policies; Hydrologic Management; Improved Technology; Infrastructural Policies; Infrastructure; Land-Based Civil Engineering; Landscape Changes; Landscaping & Household Services; Landuse Management; Non-point Source Controls; Non-point Source Runoff; Nutrient & Contaminant Processing; Physical & Chemical Water Quality Criteria; Physical Damage; Physical Variables; Point & Mobile Source Controls; Point Source Discharges; Ports & Harbors; Provisioning Services; Regulating Services; Seawater Flow; Shoreline Armoring; Shoreline Protection; Small Boats; Surface & Groundwater Flow; Tourism & Recreation; Transportation; Transportation Policies; Utilities; Utility Policies; Waste Management; Waste Management Policies; Wastewater Discharge; Water; Water Depth & Sea Level; Water Resources; Water Transportation; Waterborne Discharges; Wetland & Reef Restoration; Wetlands
Waterway Management: Control River Volume Using Dams and Resevoirs	Constructing dams and creating reservoirs can have many affects, both positive and negative. Like smaller scale structural stormwater retention (#263), this management option retains groundwater for later controlled release. On this scale, the creation of a reservoir may require flooding of an area behind the dam that had other uses (e.g. agriculture). Proper vegetation can be used in and around the reservoir to incorporate biological filtration (#261). Slowing the release of water into rivers reduces the intensity of flow, reducing channel erosion. However, water should still be released consistently to allow for aquatic habitat to be maintained on the river bottom (#8). Lastly, with the correct infrastructure, a dam can be used as a sustainable hydroelectric energy source.	Morris, G.L., Fan, J. 1998. Reservoir Sedimentation Handbook: Design and management of dams, reservoirs, and watersheds for sustainable use. Ver. 1.04 edition. McGraw-Hill, New York, NY. Environmental Protection Agency. 2007. National Management Measures to Control Nonpoint Source Pollution from Hydromodification. EPA 841-B-07-002, Office of Water, Washington, DC.	Civil Engineering & Construction; Climate; Dam Construction & Maintenance; Discharge Limitations; Discharges; Energy Policy & Development; Hydrologic Management; Improved Technology; Infrastructural Policies; Infrastructure; Land-Based Civil Engineering; Non-point Source Runoff; Nutrient & Contaminant Processing; Physical Variables; Point Source Discharges; Storms & Hurricanes; Stormwater Management; Utilities; Utility Policies; Waste Management; Water; Waterborne Discharges; Wetlands
Waterway Management: Stream Bank Riparian Plantings	Planting native vegetation and trees in riparian zones helps to reduce erosion within channels. Such vegetation helps anchor the soil and sediment in place. Planting in riparian zones goes in hand with Remove Previous Canal and Irrigation Infrastructure (#274). This management option can be exercised in streams, canals used for boat passage, stormwater drainage ditches, or in agricultural irrigation channels.	Center for Watershed Protection. 2008. Guanica Bay watershed management plan. Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture.	Agriculture; Agriculture, Aquaculture, & Forestry Policies; Boat Movement; Boating Activities; Carbon Storage & Cycling; City Planning; Civil Engineering & Construction; Coastal Development; Construction Codes & Projects; Deforestation & Devegetation; Discharge Limitations; Discharges; Ditching & Soil Disturbance; Ecosystem Monitoring & Restoration; Food & Energy Policies; Forestry; Hydrologic Management; Infrastructural Policies; Infrastructure; Irrigation; Landscape Changes; Landscape Conservation & Restoration; Landuse Management; Nutrient & Contaminant Processing; Primary Production; Provisioning Services; Sediment; Stormwater Management; Supporting Services; Surface & Groundwater Flow; Transportation; Utilities; Water; Water Resources; Water Transportation; Waterborne Discharges

Laws

Legal Citation	Purpose of Law	Management Organization	Database Topics
Administrative fines for damaging State Lands of products thereof, 18-14 Florida Administrative Code.	18-14.003 Violations. It shall be a violation of this rule for any person or the agent of any person to knowingly refuse to comply with any provision of Chapter 253, F.S., willfully violate any provision of Chapter 253, F.S., or to willfully damage state land (the ownership or boundaries of which have been established by the state) or products thereof, by doing any of the following: (1) Fill, excavate, or dredge, including prop dredging in a manner which produces a defined channel, on state land without the lease, license, easement or other form of consent required by the Board. (2) Remove, in violation of state or federal law, any product from state land without written approval or specific exemption from the Board or Department. (3) Discharge contaminants, wastes, effluents, sewage or any other pollutant as defined in Chapter 376 or Chapter 403, F.S., on, under or over state land; when such discharge is in violation of Chapter 403 or conditions of a permit issued pursuant to that chapter, or conditions of a lease or easement issued pursuant to Chapter 253, F.S. - 37 (4) Maintain, place or build permanent or temporary structures, including, but not limited to, additions to existing structures; all structures whose use is not water-dependent; sanitary septic systems; fences, docks and pilings; houses; oil rigs; and utility installations on or over state land without consent or authority from the Board or Department. (5) Place garbage, refuse, or debris on or over state land without approval by the Board or Department. (6) Any other willful act that causes damage to state land, or products thereof, when such activity occurs without the required approval by the Board or Department. Application to Coral Reefs:Controlling and limiting excavation and dredging, as well as discharge of contaminants, wastes, sewage, and other pollutants will assist in keeping sediment and pollutants from reaching the coral reefs and causing degradation of reef organisms.. Legislative Actions: Comments:Administrative Fines for Damaging State Lands or Products Thereof	Florida State Department of Environmental Protection Jurisdiction: US State Waters	Anchoring & Vessel Grounding; Ballast Discharge; Coastal Engineering; Commercial Fisheries; Construction Codes & Projects; Dredging, Draining, & Filling; Educational & Research Opportunities; Existence Value & Sense of Place; Fertilizer & Pesticide Use; Nutrient & Contaminant Processing; Oil & Gas Research & Exploration; Petroleum Spills; Recreational Opportunities; Resource Use Management; Sediment; Sewage Treatment; Substrate; Waste Management Policies; Wastewater Discharge
Biscayne Bay Aquatic Preserve, 18-18 Florida Administrative Code.	18-18.001 Intent. (1) The Biscayne Bay Aquatic Preserve, the boundaries of which are fully described in Rule 18-18.002, F.A.C., was established for the purpose of preserving and enhancing Biscayne Bay and all natural waterways tidally connected to the bay in an essentially natural condition so that its biological and aesthetic values may endure for the enjoyment of future generations. (2) These rules shall apply to all lands public and private within the boundaries of the preserve. However, privately owned uplands shall be excluded from these rules except as otherwise provided for herein. (3) In promulgating and implementing these rules, it is the intent of the Department to construe the provisions of Sections 258.397 and 258.35 through 258.46, F.S., together and to apply the more stringent statutory provisions for the maintenance of the preserve. (4) The preserve shall be administered and managed in accordance with the following goals: (a) To preserve, protect, and enhance Biscayne Bay and all natural waterways tidally connected to the bay by reasonable regulation of human activity within the preserve through the development and implementation of a comprehensive management program; (b) To protect and enhance the waters of the preserve so that the public may continue to enjoy the traditional recreational uses of those waters such as swimming, boating and fishing; (c) To coordinate with federal, state, and local agencies to aid in carrying out the intent of the legislature in creating the preserve; (d) To use applicable federal, state, and local management programs, which are compatible with the intent and provisions of the Act and these rules, to assist in managing the preserve; (e) To encourage activities that protect or enhance the biological and aesthetic values of the preserve, including but not limited to the modification of existing manmade conditions towards their natural condition, when reviewing applications or developing and implementing management plans for the preserve; (f) To preserve and promote indigenous life forms and habitats including but not limited to sponges, soft corals, hard corals, seagrasses, mangroves, mud flats, marine reptiles, game and non-game fish species, marine mammals, tropical marine invertebrates, birds and shellfish; (g) To acquire additional title interests in land wherever such acquisitions would serve to protect or enhance the biological or aesthetic values of the preserve. Application to Coral Reefs:Biscayne Bay Aquatic Preserve protection of water quality will contribute to a lowering of contaminants leaving the preserve on tides and thus limiting the contaminants that reach off-shore ecosystems including the FKNMS and the reef system within the sanctuary. Legislative Actions: Comments:This chapter establishes the rules to protect the Biscayne Bay Aquatic Preserve, which was established for the purpose of preserving and enhancing Biscayne Bay and all natural waterways tidally connected to the bay in an essentially natural condition so that its biological and aesthetic values may endure for the enjoyment of future generations.	Florida State Department of Environmental Protection Jurisdiction: Designated Marine Areas	Accidental & Illegal Harvest; Anchoring & Vessel Grounding; Ballast Discharge; Boat Movement; Coastal Development; Docks & Marinas; Dredging Regulations; Dredging, Draining, & Filling; Environmental Education & Outreach; Existence Value & Sense of Place; Finfish & Shellfish Stock; Finfish Harvest; Hydrologic Management; Landuse Management; Mangroves; Marine Birds; Marine Debris; Nutrients; Point Source Discharges; Recreational Opportunities; Resource Use Management; Seagrasses; Seawater Flow; Sediment; Sewage Treatment; Small Boats; Waste Management Policies; Wastewater Discharge
Chapter 7: Water pollution control, 12 Virgin Islands Code.	In coordination with EPA through Section 401 of the Clean Water Act, establishes controls for the discharge of wastewater and other pollutants to waters of the USVI, sets water quality standards. The Commissioner sets water quality standards applicable to he United States Virgin Islands to protect the public health and welfare and the present and future usa of such waters for public water supplies, propagation of fish, aquatic life and wildlife , recreational purposes and other legitamate uses. The standards are to be reviewed every three years. Application to Coral Reefs:Water of polluted quality is detrimental to propagation and survival of coral reef organisms. Setting appropriate water quality standards will play a major role in protecting coral reefs. Legislative Actions:The Commissioner or any USVI resident can commence a civil action. Civil penalties for violators are not to exceed $50,000 per day. Any knowingly or negligently discharging polluants can be crimimnally punished with a fine of not less than $5,000 nor more than $75,000 per day of violation. A second conviction can be punishable up to a fine of $100,000, six years in jail, or both. Comments:	US Virgin Islands, Department of Planning and Natural Resources, Division of Environmental Protection Jurisdiction: US Virgin Islands	Biocriteria; Discharges; Health Policies; Nutrient & Contaminant Processing; Physical & Chemical Water Quality Criteria; Point & Mobile Source Controls; Point Source Discharges; Reef Life; Resource Use Management; Sewage Treatment; Waste Management Policies
Clean Water Act of 1974, 33 United States Code § 1252.	To restore and maintain the chemical, physical, and biological integrity of the Nation's waters Application to Coral Reefs:The Act can be used to establish water quality standards for the disharge of pollutants into surface waters. Section 101 (3) stated that it will be the national policy that the discharge of toxic pollutants in toxic amounts will be prohibited. The legislation employs a variety of regulatory and nonregulatory tools to reduce direct pollutant discharges into waterways, finance wastewater treatment facilities, and manage polluted runoff. The tools are employed to achieve the broad goal of restoring and maintaining the chemical, physical, and biological integrity of the nation's waters so they can support "the protection and propagation of fish, shellfish, and wildlife and recreation in and on the water." Legislative Actions:During the late 1980's, the program shifted from program-by-program, source by source, pollutant-by-pollutant approach to more holistic water-shed strategies. Under the watershed approach equal emphasis is placed on protecting healthy waters and restoring impaired waters. Also during the 1980's, voluntary programs for nonpoint runoff and regulatory programs for wet weather point sources began to be addressed. Comments:The Federal Water Pollution Contrl Act Amendments of 1972, PL 92-500, replaced the previous language of the Act entirely, including the Water Quality Act of 1965, the Clean Water Restoration Act of 1965, and the Water Quality Improvement Act of 1970, all of which had been amendments of the Water Pollution Control Act first passed in 1956. The 1977 amendments, PL 95-217, further amended PL 92-500.	US Environmental Protection Agency Jurisdiction: United States; US Territories	Agriculture, Aquaculture, & Forestry Policies; Biocriteria; Collaboration & Partnering; Construction Codes & Projects; Corporate Responses; Drinking Water Supply; Economic Markets & Policies; Energy Policy & Development; Hydrologic Management; Improved Technology; Mangroves; Microorganisms; Non-point Source Controls; Nutrient & Contaminant Processing; Nutrients; Physical & Chemical Water Quality Criteria; Point & Mobile Source Controls; Point Source Discharges; Political Pressure; Public Administration; Remediation; Resource Use Management; Seagrasses; Sewage Treatment; Waste Management Policies; Wastewater Discharge
Delineation of the landward extent of wetlands and surface waters, 62-340 Florida Administrative Code Annotated (2000).	The Rule's intent is to provide a unified statewide methodology for the delineation of the extent of wetlands to satisfy the mandate of Section 373.421, F. S. Application to Coral Reefs:Preservation of wetlands will allow them to continue to function as buffers for sediment and contaminant control keeping them from reaching estuarine and marine waters and eventually habitats including coral reefs. Legislative Actions:The Rule is administrative and methodological for delineation purposes. Comments:	Florida Department of Environmental Protection Jurisdiction: State Coastal Waters; US State Waters; Designated Marine Areas	Agriculture, Aquaculture, & Forestry Policies; Coastal Development; Dam Construction & Maintenance; Docks & Marinas; Dredging Regulations; Drinking Water Supply; Energy Policy & Development; Finfish & Shellfish Stock; Fish; Invertebrates; Landuse Management; Molluscs; Pipelines; Ports & Harbors; Road Construction & Maintenance; Sediment; Sewage Treatment; Shoreline Armoring; Small Boats; Solid Waste Disposal; Utility Line Construction & Maintenance; Wetlands
Domestic Wastewater Facilities, 62-600 Florida Administrative Code.	(1) Section 403.021(2), Florida Statutes, as amended, the Florida Air and Water Pollution Control Act, established that no wastes are to be discharged to any waters of the state without first being given the degree of treatment necessary to protect the beneficial uses of such water. Toward this end, Sections 403.085 and 403.086, Florida Statutes, set forth requirements for the treatment and reuse or disposal of domestic wastewater. Section 403.051(2)(a), Florida Statutes, requires that any Department planning, design, construction, modification, or operating standards, criteria, and requirements for wastewater facilities be developed as a rule. This chapter is promulgated to implement the provisions and requirements of Sections 120.53(1), 120.55, 403.021, 403.051, 403.061, 403.062, 403.064, 403.085, 403.086, 403.087, 403.088, 403.0881, 403.101, 403.131, 403.161, 403.182, 403.859, and 403.918, Florida Statutes, concerning domestic wastewater facilities. - 442 (2) The requirements of this chapter represent the specific requirements of the Florida Department of Environmental Protection and of Local Pollution Control Programs approved and established pursuant to Section 403.182, Florida Statutes, where such authority has been delegated to those programs. It may be necessary for domestic wastewater facilities to conform with requirements of other agencies, established via interagency agreements (e.g., for mosquito control); the absence of reference to such arrangements in this chapter does not negate the need for compliance with those requirements. (3) The purpose of Chapter 62-600, F.A.C., is to provide minimum standards for the design of domestic wastewater facilities and to establish minimum treatment and disinfection requirements for the operation of domestic wastewater facilities. All systems shall be designed in accordance with sound engineering practice. Supported by moderating provisions, it is intended that Chapter 62-600, F.A.C., establish a framework whereby design flexibility and sound engineering practice can be used in developing systems with which to manage domestic wastewater in an environmentally sound manner. (4) As appropriate, Chapter 62-600, F.A.C., shall be used in conjunction with other Department rules relating to the design and operation and maintenance of domestic wastewater facilities. (5) Standards and requirements in this chapter shall apply only to domestic wastewater treatment, reuse, and disposal facilities (including residuals management facilities). (a) Standards and requirements shall apply to all new facilities and modifications or expansions of existing facilities that submit complete permit applications to the Department after July 1, 1991. (b) Standards and requirements shall apply to all existing facilities that submit complete applications for permit renewal after July 1, 1991. (6) Domestic wastewater facilities that submit complete permit applications on or before July 1, 1991, may: (a) Continue to comply with the rule requirements that were in effect at the time the permit was issued and with the conditions of the existing construction or operation permit until the expiration of such permit, or (b) Opt to comply with the requirements of this revised chapter. (7) The standards and requirements of Part II of Chapter 62-600, F.A.C., and Rules 62-600.500 and 62-600.530, F.A.C., shall be applicable to septic tank drainfield systems and other on-site waste treatment systems with subsurface disposal regulated by this chapter. The reliability requirements of paragraph 62-600.400(1)(b), F.A.C., shall not apply to such septic tank drainfield systems and other on-site waste treatment systems. (8) The discharge limitation of subsection 62-600.510(4), F.A.C., shall not be applicable to facilities permitted on or before January 1, 1982, that discharge into Class II waters or Class III waters which are subsequently reclassified as Class II waters. (9) This chapter provides for exemptions, allowances for existing facilities and variations from standards and requirements. Unless specifically provided otherwise, no wastewater permit shall be issued or renewed unless the permit applicant demonstrates that the subject facility is in compliance with the applicable provisions of this chapter. Application to Coral Reefs:Setting construction and treatment water quality criteria for wastewater facilities will provide a system of less contaminated water being discharged to surface waters. The environmental impact of the wastewater will be less harmful to ecosystems. Legislative Actions: Comments:Establishes the processes for planning, design, construction, modification, or operating standards, criteria, and requirements for wastewater facilities	Florida State Department of Environmental Protection Jurisdiction: State Coastal Waters	Biocriteria; Building & Home Construction; Nutrient & Contaminant Processing; Nutrients; Point & Mobile Source Controls; Point Source Discharges; Sewage Treatment; Toxics; Waste Management Policies
Domestic Wastewater Treatment Plant monitoring, 62-601 Florida Administrative Code.	(1) Section 403.051(2)(a), Florida Statutes, as amended, part of the Florida Air and Water Pollution Control Act, requires that any Department operating standards, criteria, and requirements for wastewater facilities be developed as a rule. This rule is promulgated to implement the provisions and requirements of the Act concerning domestic wastewater treatment plant monitoring. (2) The purpose of Chapter 62-601, F.A.C., is to ensure that owners and operators of domestic wastewater treatment facilities maintain accurate records and submit reports required by this Chapter in a timely, accurate, cost-effective and uniform manner. (3) Standards and requirements in this chapter shall apply only to domestic wastewater treatment, reuse, and disposal facilities (including residuals management facilities). The standards and requirements are not applicable to facilities described in Rules 62-600.120(1) and (2), F.A.C. (a) Standards and requirements shall apply to all new facilities and modifications or expansions of existing facilities that submit complete permit applications to the Department after July 1, 1991. (b) Standards and requirements shall apply to all existing facilities that submit complete applications for permit renewal after July 1, 1991. (4) Domestic wastewater facilities that submit complete permit applications on or before July 1, 1991 may: (a) Continue to comply with the rule requirements that were in effect at the time the permit was issued and with the conditions of the existing construction or operation permit until the expiration of such permit, or (b) Opt to comply with the requirements of this revised chapter. Application to Coral Reefs:Setting monitoring requirements and treatment water quality criteria for wastewater facilities will provide a system of less contaminated water being discharged to surface waters. The environmental impact of the wastewater will be less harmful to ecosystems. Legislative Actions: Comments:to implement the provisions and requirements concerning domestic wastewater treatment plant monitoring	Florida State Department of Environmental Protection Jurisdiction: State Coastal Waters	Biocriteria; Building & Home Construction; Discharge Limitations; Manufacturing & Trade; Nutrient & Contaminant Processing; Nutrients; Point Source Discharges; Sewage Treatment; Toxics; Waste Management Policies; Wastewater Discharge
Estuaries and Clean Waters Act of 2000, 33 United States Code §§ 2901 et seq.	Creates a federal interagency council that includes the Director of the Fish and Wildlife Service, the Secretary of Army for Civil Works, the Secretary of Agriculture, the Administrator of the Environmental Protection Agency, and the Administrator of the National Oceanic and Atmospheric Administration. The council is charged with developing a national estuary habitat restoration strategy and providing grants to entities to restore and protect estuary habitat to promote the strategy. Application to Coral Reefs:Protecting water quality in estuaries will help mitigate the impacts of water pollution which inturn would help mitigate ocean acidification. Legislative Actions:The Act authorized the formation of the Estuary Habitat Restoration Council that was responsible for developing a National Habitat Restoration Strategy. Comments:	US Fish and Wildlife Service, US Army Corps of Engineers, Department of Agriculture, US Environmental Protection Agency, National Oceanic and Atmospheric Administration Jurisdiction: United States	Ballast Discharge; Building & Home Construction; Collaboration & Partnering; Dredging, Draining, & Filling; Educational & Research Opportunities; Environmental Education & Outreach; Existence Value & Sense of Place; Finfish Harvest; Fishing & Harvesting Management; Forestry; Funding & Donations; Mangroves; Marine Birds; Mining; Non-point Source Runoff; Nutrient & Contaminant Processing; Nutrients; Remediation; Resource Use Management; Seagrasses; Sediment; Sewage Treatment; Solid Waste Disposal; Waste Management; Waste Management Policies; Wastewater Discharge
Identification of impaired surface waters, 62-303 Florida Administrative Code Annotated (2002).	The Chapter established a methodology to identify surface waters of the state that will be included on the state's planning list of waters that will be assessed pursuant to subsections 403.067(2) and (3), Florida Statutes. It also establishes a methodology to identify impaired waters based on representative data that will be included on the state's verified list of impaired waters, for which the Department will calculate Total Maximum Daily Load (TMDLs), pursuant to subsection 403.067(4), F.S., and which will be submitted to the United States Environmental Protection Agency pursuant to paragraph 303(d)(1) of the Clean Water Act (CWA). Application to Coral Reefs:By regulating the amount of pollutants that will be allowed to be discharged into major waterbodies of the state, the amount of pollutants reaching estuarine and then marine environments, and eventually coral reefs, will assist in protecting the reefs and other habitats. Legislative Actions:The planning list of impaired water bodies has been completed. Data on each water bodies has been collected. DEP is in the process of calculating TMDLs for each water body. Comments:	Florida Department of Environmental Protection Jurisdiction: State Coastal Waters	Agriculture, Aquaculture, & Forestry Policies; Construction Codes & Projects; Corporate Responses; Designated Uses; Fertilizer & Pesticide Use; Finfish & Shellfish Stock; Forestry; Irrigation; Landscaping & Household Services; Landuse Management; Metals, Electronics, & Machinery Products; Microorganisms; Mining; Non-point Source Runoff; Nutrient & Contaminant Processing; Nutrients; Oil & Gas Research & Exploration; Point Source Discharges; Sewage Treatment; Solid Waste Disposal; Waste Management Policies; Wastewater Discharge; Wood, Plastics, & Chemical Products
Marine Protection, Research, and Sanctuaries Act of 1972, 33 United States Code § 1401.	To regulate the dumping of all types of materials into ocean waters and to prevent or strictly limit the dumping into ocean waters of any material which would adversely affect human health, welfare, or amenities, or the marine environment, ecological systems, or economic potentialities. To regulate (1) the transportation by any person of material from the United States and, in the case of United States vessels, aircraft, or agencies, the transportation of material from a location outside the United States, when in either case the transportation is for the purpose of dumping the material into ocean waters, and (2) the dumping of material transported by any person from a location outside the United States, if the dumping occurs in the territorial sea or the contiguous zone of the United States. Application to Coral Reefs:The Act has been historically used to regulate dumping of dredged materials and sewage sludge into the marine environment. The law intends to improve the conservation, understanding, management, and wise and sustainable use of marine resources, enhance public awareness, understanding, and appreciation of the marine environment, and to maintain for future generations the habitat, and ecologigal services, of the natural assemblage of living resources that inhabit those areas. Because permits are required, it can be assumed that dumping would not be allowed if the material would be dispersed into a sensitive habitat such as coral reefs. Legislative Actions:EPA may assess an administrative civil penalty up to $50,000 per person. Higher penalties can be assessed for dumping medical waste (up to $125,000). Each day in violation constitutes a separate offense. Continuing violations can suffer criminal penalties with fines and up to five years imprisionment possible. Comments:The Act has played a major role in regulating the disposal of dredged material into the ocean environment. However, medical and radioactive wastes, industrial wastes, as well as sewage sludge, are also regulated in the law.	United States Environmntal Protection Agency Jurisdiction: US Territorial Waters; US Federal Waters; Designated Marine Areas	Ballast Discharge; Biocriteria; Boating Regulations; Complex Habitat & Resources; Designate Protected Species; Designated Uses; Environmental Education & Outreach; Environmental Monitoring, Mapping, & Scientific Research; Fishing & Harvesting Management; Mangroves; Marine Debris; Marine Protected Areas; Microorganisms; Non-point Source Controls; Oil & Gas Research & Exploration; Physical & Chemical Water Quality Criteria; Point & Mobile Source Controls; Political Pressure; Remediation; Resource Use Management; Seagrasses; Sediment; Sewage Treatment; Solid Waste Disposal; Tourism & Recreation Policies; Transportation Policies; Waste Management Policies; Wastewater Discharge
Revised Florida Keys National Marine Sanctuary Management Plan §§ Public Law 101-605 (HR 5909, Public Law (2007).	The document is a report on the results of NOAA's five year review of strategies and activities detailed in the 1996 Final Management Plan and Environmental Impact Statement for the Florida Keys National Marine Sanctuary. Application to Coral Reefs:The plan specifically addresses preserving and enhancing Sanctuary resources including four national wildlife refuges, six state parks, three state aquatic preserves, Key Largo Marine Sanctuary, Looe Key Marine Sanctuary and a total of 2,900 square nautical miles of coastal waters and numerous coral reefs. The sanctuary ecosystems are facing specific threats including direct human impacts such as vessel groundidngs, pollution and overfishing. Legislative Actions: Comments:	National Oceanic and Atmospheric Administration with the Florida Department of Environmental Protection and the Florida Fish and Wildlife Conservation Commission as Co-trustees Jurisdiction: US Federal Waters; Designated Marine Areas	Anemones & Zooanthids; Apex Fish Predators; Ballast Discharge; Coastal Development; Commercial Fishing Boats; Complex Habitat & Resources; Coral; Cruise Ships; Dive, Snorkeling, & Swimming Tourism; Economic Markets & Policies; Educational & Research Opportunities; Environmental Education & Outreach; Existence Value & Sense of Place; Fish; Fishing & Harvesting Management; Littering; Lobster, Crab, & Shrimp; Marine Debris; Natural Gas & Electric Power; Non-point Source Runoff; Nutrients; Ocean Acidity; Oil & Gas Research & Exploration; Oil & Gas Rigs; Recreational Opportunities; Reef Habitat; Reef Inhabitants; Seastars; Sediment; Sponges; Tourism & Recreation Policies; Waste Management; Waste Management Policies; Waterborne Discharges
State Revolving Fund Loan Program, 62-503 Florida Administrative Code.	(1) Florida�s water pollution control revolving loan program is authorized by Section 403.1835, F.S. This statute establishes the Wastewater Treatment and Stormwater Management Revolving Loan Trust Fund, which meets federal requirements for a State Revolving Fund. The statute authorizes the Department to fund the planning, design, construction, and implementation of wastewater management systems and stormwater management systems. The Act also authorizes financial assistance for a wide range of services, equipment, and construction associated with nonpoint source pollution control. Project examples include brownfield remediation, wetland restoration, septic tank problem correction, best management practices (especially those for agricultural operations) for controlling leaching and runoff, animal waste management, boat discharge elimination, or other needs identified by the Department�s nonpoint source management program. National estuary program projects also may be eligible. (2) The federal Water Pollution Control Act, as amended, commonly called the Clean Water Act, authorizes federal appropriations for grants to the Department to capitalize the State Revolving Fund. The Act requires that the state contribute matching funds of 20% to qualify for federal capitalization grants. The State Revolving Fund must be operated in perpetuity by the Department. (3) This rule sets forth the Department�s program management procedures and the requirements for obtaining financial assistance. Specific Authority 403.1835(5)(a) FS. Law Implemented 403.1835 FS. History - New 7-29-04. Application to Coral Reefs:Providing financial assistance to parties interested in building wastewater treatment palnts and best available standards for construction will result in higher treatment of wastewater prior to discharge to waters of the state. Less contaminated water will reach the marine environment where it would have the potential to adversely effect ecosystems. Legislative Actions: Comments:Establishes the Wastewater Treatment and Stormwater Management Revolving Loan Trust Fund to fund the planning, design, construction, and implementation of wastewater management systems and stormwater management systems and to provide financial assistance for a wide range of services, equipment, and construction associated with nonpoint source pollution control.	Florida State Department of Environmental Protection Jurisdiction: US State Waters	Building & Home Construction; Environmental Education & Outreach; Nutrient & Contaminant Processing; Nutrients; Point Source Discharges; Sewage Treatment; Toxics; Waste Management Policies
Surface water quality standards, 62-302 Florida Administrative Code Annotated (2008).	The Chapter establishes the minimum concentrations of contamination that are allowable to protect the designated uses of a waterbody. Designated uses include public drinking water supplies, propagation of fish and wildlife, agricultural, recreation, industrial, and navigation. Application to Coral Reefs:Protecting surface waters by limiting the concentration of pollutants that can be present will control the concentrations of those pollutants that will reach estuarine and marine environments, thus protecting the associated ecosystems, including coral reefs. Legislative Actions:Penalties are not presented in the Rule. Specific requirements and penalties are addrressed in individual permits. The Rule relies heavily on biocriteria including acute toxicity, chronic toxicity, Shannon-Weaver Diversity Index. Section 400 presents the classes of Florida waters; Class I potable water supplies, Class II shellfish propagation or harvesting, Class III recreation, propagation and maintenance of a healthy, well-balanced population of fish and wildlife, Class IV agricultural water supplies, Class V navigation, utility and industrial use. Comments:	Florida Department of Environmental Protection Jurisdiction: State Coastal Waters; US State Waters; Designated Marine Areas	Biocriteria; Biological Monitoring, Mapping, & Scientific Research; Civil Engineering & Construction; Coastal Development; Commercial Fisheries; Complex Habitat & Resources; Dam Construction & Maintenance; Deforestation & Devegetation; Designate Protected Species; Discharge Limitations; Dive, Snorkeling, & Swimming Tourism; Docks & Marinas; Dredging Regulations; Dredging, Draining, & Filling; Drinking Water Supply; Fertilizer & Pesticide Use; Finfish & Shellfish Stock; Fish; Fishing & Harvesting Management; Impervious Surfaces; Invertebrates; Irrigation; Landuse Management; Molluscs; Non-point Source Controls; Non-point Source Runoff; Nutrient & Contaminant Processing; Nutrients; Physical & Chemical Water Quality Criteria; Pipelines; Point & Mobile Source Controls; Point Source Discharges; Ports & Harbors; Recreational Fishing; Sediment; Sewage Treatment; Shoreline Armoring; Small Boats; Tourism & Recreation Policies; Toxics; Waste Management Policies
Total maximum daily loads, 62-304 Florida Administrative Code Annotated (2006).	The Chapter establishes Total Maximum Daily Loads (TMDLs), and their allocations, for waters that have been verified to be impaired by a pollutant pursuant to Chapter 62-303. F.A.C. Application to Coral Reefs:By regulating the amount of pollutants that will be allowed to be discharged into major waterbodies of the state, the amount of pollutants reaching estuarine and then marine environments, and eventually coral reefs, will assist in protecting the reefs and other habitats. Legislative Actions:The planning list of impaired water bodies has been completed. Data on each water bodies has been collected. DEP is in the process of calculating TMDLs for each water body. Comments:	Florida Department of Envitonmental Protection Jurisdiction: United States; State Coastal Waters	Agriculture, Aquaculture, & Forestry Policies; Aquaculture; Ballast Discharge; Biomedical Research Policies; Coastal Development; Deforestation & Devegetation; Ditching & Soil Disturbance; Dredging Regulations; Finfish & Shellfish Stock; Impervious Surfaces; Irrigation; Landuse Management; Metals, Electronics, & Machinery Products; Nutrient & Contaminant Processing; Nutrients; Physical & Chemical Water Quality Criteria; Point Source Discharges; Resource Use Management; Sediment; Sewage Treatment; Shoreline Armoring; Solid Waste Disposal; Waste Management Policies; Wastewater Discharge; Wetland & Reef Restoration; Wood, Plastics, & Chemical Products
Water quality based effluent limitations, 62-650 Florida Administrative Code Annotated (1996).	To implement the provisions of Section 403.051, 403.085 through 403.088 concerning the development of effluent limitations for wastewater facilities. Application to Coral Reefs:The Florida Air and Water Pollution Act establishes that no wastes are to be discharged to any waters of the state without first being given the degree of treatment necessay to protect the beneficial uses of such water. Requiring treatment of industrial and domestic waste water indirectly protects adjoining ecosystem, such as reefs, by limiting the pollutant that reach these other systems. Legislative Actions:The Department shall not issue a permit for a discharge to waters of the state, unless the Department has established an efflent limit for those pollutants in the discharge that are present in quantities or concentrations which can be reasonably expected to cause or contribute, directly or indirectly, to a violation of any water quality standard established in rule 62-302. The effluent limit may be a technology based effluent limit (TBEL), a water quality based effluent limit (WQBEL) determined by a Level 1 process, or where applicable, a WQBEL determined by a Level 2 process. Comments:	Florida Department of Environmental Protection Jurisdiction: US State Waters; Designated Marine Areas	Agriculture, Aquaculture, & Forestry Policies; Applied Chemicals; Building & Home Construction; Cleaner & Solvent Use; Coal Mining; Construction Codes & Projects; Dam Construction & Maintenance; Domestic Animal Waste; Dredging, Draining, & Filling; Fertilizer & Pesticide Use; Finfish & Shellfish Stock; Fish; Food, Beverage, & Tobacco Products; Irrigation; Landuse Management; Lobster, Crab, & Shrimp; Metals, Electronics, & Machinery Products; Mineral, Rock, & Metal Mining; Non-point Source Runoff; Nutrient & Contaminant Processing; Nutrients; Physical & Chemical Water Quality Criteria; Point Source Discharges; Road Construction & Maintenance; Sediment; Sewage Treatment; Solid Waste Disposal; Utility Line Construction & Maintenance; Waste Management Policies; Wastewater Discharge; Waterborne Discharges; Wholesale & Retail Trade; Wood, Plastics, & Chemical Products
Wetland applications, 62-611 Florida Administrative Code Annotated (1996).	To provide qualitative and quantitative design criteria discharge limits, permitting requirements, and monitoring requirements for wetlands, man-made and natural, receiving domestic wastewater. Application to Coral Reefs:Because wetlands act as buffers and remove nutrients from contaminated water, in many case the nutrients will not reach the estuarine and marine environments and potentially have an adverse effect on coral reefs. Legislative Actions:The Rule is administrative in nature and specific pollutant limits and monitoring requirements are specified in individual permits Comments:	Florida Department of Environmental Protection Jurisdiction: State Coastal Waters	Agriculture, Aquaculture, & Forestry Policies; City Planning; Construction Codes & Projects; Environmental Education & Outreach; Hydrologic Management; Landuse Management; Mangroves; Nutrients; Pipelines; Point Source Discharges; Resource Use Management; Seagrasses; Sewage Treatment; Waste Management Policies; Wastewater Discharge