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Water

Water

Water Sectors include those that pertain to provisioning of water for public use, including the drinking water supply, irrigation systems for agriculture, and water for critical services (such as firefighting and hospitals).

CMap

The Agriculture Sector includes both animal and crop production. Agriculture, aquaculture and forestry policies regulate and control agriculture, aquaculture and forestry. Discharge limitations are responses to regulate and control the discharge of pollutants and the use of chemicals. Discharges are the intentional or unintentional distribution of chemicals, debris, or other pollution, into the environment as a consequence of human activities. Ditching & Soil Disturbance pertains to large-scale changes to the terrestrial landscape through channeling for irrigation, grading for roads & construction, and mining which disrupt and dislodge soil and can lead to sediment runoff into the watershed. The Drinking Water Supply subsector includes the drinking water systems that provide drinking water, including treatment and supply using aqueducts, pumping stations, distribution mains. Ecosystem services are the benefits people obtain from ecosystems . Food & energy policies are legislation, restrictions, and guidelines that pertain to sectors that harvest or extract natural resources. The Food and Raw Materials sector includes groups that harvest natural resources from the earth, including agriculture, aquaculture, fishing, forestry, mining, and the oil and gas industry. Infrastructural sectors provide the physical, organizational, and technical support for the economy to function, including construction, utilities, transportation, finance, manufacturing, wholesale and retail trade, and technical services. Irrigation is needed for Agriculture, and involves the treatment and supply of water for irrigation purposes using aqueducts, pumping stations, and distribution mains. Landscape Changes are alterations of the natural landscape through human activities, including coastal development, shoreline armoring, impervious surfaces, deforestation, or soil disturbance, which can alter water flow patterns and lead to pollutant runoff into coastal systems. Landuse management pertains to responses that determine the use of land for development and construction. Non-point source pollution is runoff from diffuse sources that is caused by rainwater moving over and through the ground, carrying pollutants with it and depositing them in coastal waters. The Reef Ecosystem includes a suite of abiotic variables that form the physical and chemical environment. Pressures are human activities that create stress on the environment. The state of the Reef Ecosystem is the condition, in terms of quantity and quality, of the abiotic and biotic components including physical, chemical, and biological variables. Reef Life is the abundance, distribution, and condition of the biological components of the coral reef ecosystem. Regulating Services are benefits obtained from ecosystem processes that regulate the environment, including erosion regulation, natural hazard regulation, and climate regulation. Responses are actions taken by groups or individuals in society and government to prevent, compensate, ameliorate or adapt to changes in Ecosystem Services or their perceived value. Shoreline Protection is the attenuation of wave energy by reefs that protects coastal communities against shoreline erosion and flooding during storms, hurricanes, and tsunamis that can cause property damage and loss of life. Socio-Economic Drivers include the sectors that fulfill human needs for Food & Raw Materials, Water, Shelter, Health, Culture, and Security, and the Infrastructure that supports the sectors. Utilities specialize in providing basic services for public use, including telecommunications, water systems, natural gas, electric power, and waste management. Utility policies are those that put controls on delivery of utilities to human populations. Water Sectors include those that pertain to provisioning of water for public use, including the drinking water supply, irrigation systems for agriculture, and water for critical services (such as firefighting and hospitals). Water utilities policies are policies that place requirements on water to used for public consumption or use in irrigation. Waterborne discharges include direct and indirect discharges of pollutants into the aquatic environment, including chemicals, nutrients, sediment, and pathogens.

CMap Description

Development of systems for irrigation can lead to ditching & soil disturbance that modify the landscape and can modify rates of non-point source runoff. Runoff can alter the levels of sediment, toxics, and nutrients within the physical & chemical environment, affecting the survival & growth of reef life and the provision of ecosystem services. Water sectors may benefit from shoreline protection, as well as indirectly from other ecosystem services that improve the well-being of sectors that depend on water. Agricultural policies can be enacted to modify irrigation practices, or landscape changes, such as ditches and canals, can be modified or restored to reduce runoff.

Citations

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Citation Year Study Location Study Type Database Topics

Management Options

Management Option Description Sources Database Topics
Agriculture & Aquaculture: Waterspreading This management option uses a system of dams, dikes, ditches, or other means of diverting or collecting runoff from natural channels, gullies, or streams and spreading it over relatively flat areas. Waterspreading differs from irrigation in that applications are timed by the availability of natural runoff flow rather than scheduled to meet plant needs. Waterspreading is most beneficial in areas with an average annual precipitation of 8 to 25 inches. Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture.

Agriculture; Agriculture, Aquaculture, & Forestry Policies; Food & Raw Materials; Landuse Management; Surface & Groundwater Flow; Water; Water Resources
Chemical Discharge Controls: Integrated pest Management Modify mosquito control programs/regulations The results of pesticide research program can be used to modify the existing mosquito control program as necessary. (312) NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.

Agriculture; Agriculture, Aquaculture, & Forestry Policies; Applied Chemicals; Cleaner & Solvent Use; Discharge Limitations; Discharges; Drinking Water Supply; Fertilizer & Pesticide Use; Food & Energy Policies; Food & Raw Materials; Infrastructure; Non-point Source Controls; Point & Mobile Source Controls; Pressures; Responses; Sectors Filling Human Needs; Socio-Economic Drivers; Utilities; Water
Chemical Discharge Controls: Research impacts and alternatives This plan involves researching the impacts of current spraying practices on sanctuary resources and indentifying alternative means of mosquito control. NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.

Agriculture; Agriculture, Aquaculture, & Forestry Policies; Applied Chemicals; Cleaner & Solvent Use; Discharge Limitations; Discharges; Drinking Water Supply; Fertilizer & Pesticide Use; Food & Energy Policies; Food & Raw Materials; Infrastructure; Point & Mobile Source Controls; Pressures; Responses; Sectors Filling Human Needs; Socio-Economic Drivers; Utilities; Water
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
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
Resource Use Management: Develop Water Efficiency Initiatives Reducing water use through cost effective water efficiency improvements can be beneficial as it reduces pressure on water as a finite resource and saves money. There are several ways water efficiency can be promoted. Some Water Efficiency BMPs recommended by the EPA include: Water Management Planning; Information and Education Programs; Distribution System Audits, Leak Detection and Repair; Water-Efficient Landscaping, Water-Efficient Irrigation; Toilets and Urinals; Faucets and Showerheads; Boiler/Steam Systems; Single-Pass Cooling Equipment; Cooling Tower Management; Commercial Kitchen Equipment; Laboratory/ Medical Equipment; Other Water Intensive Processes; Alternative Water Sources. One of the ways the US government has promoted Water Efficiency Initiatives is through Executive order 13123 which places certain water use reduction requirements on Federal Agencies. There are also existing funding and incentives for non-government sectors. Project funding comes in many forms, such as appropriations, energy savings performance contract (ESPC) and Utility Energy Service Contract (UESCs) programs; ratepayer incentive programs such as rebates from public benefit funds or utilities; and the retention of energy and water cost savings. US Department of Energy. 2008. Establishing Baseline and Meeting Water Conservation Goals of Executive Order 13423.

Environmental Protection Agency. Federal Water Efficiency Best Management Practices. Federal Energy Management Program Accessed 7/12/2011.

Agriculture; Collaboration & Partnering; Designated Uses; Discharge Limitations; Discharges; Drinking Water Supply; Environmental Education & Outreach; Funding & Donations; Funding & Incentives; Hydrologic Management; Irrigation; Landscaping & Household Services; Natural Gas & Electric Power; Resource Use Management; Surface & Groundwater Flow; Textiles & Apparel; Utilities; Utility Policies; Water; Water Resources; Water Utilities Policies; 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: 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: 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: 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: 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: 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
Wastewater Pollutants Impacts: Wastewater Pollutant Monitoring and Impact Studies Potential approaches to this management option include experimental studies, eutrophication gradient studies, comparative studies of impacted and non-impacted sites, historical studies, geography comparison, use of biochemical and ecological indicators, use of sewage tracers, and high-frequency and spatially intensive water quality sampling. NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.

Chemical Variables; Discharge Limitations; Discharges; Drinking Water Supply; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Environmental Monitoring, Mapping, & Scientific Research; Health Policies; Infrastructure; Non-point Source Controls; Nutrients; Physical & Chemical Environment; Physical & Chemical Water Quality Criteria; Point & Mobile Source Controls; Point Source Discharges; Pressures; Public Administration; Responses; Sectors Filling Human Needs; Security; Socio-Economic Drivers; Utilities; Waste Management Policies; Wastewater Discharge; Water; 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
Waterway Management: Remove Previous Canal and Irrigation Infrastructure Canal and irrigation infrastructure typically includes concrete structures to control the flow of water. These low head dams, bulkheads, concrete footers, and other structures act as constricting forces in channels. This constriction leads to debris becoming lodged and thus changing the erosive forces. In turn, banks become destabilized. Channel erosion then increases along with bed scour and sediment transport. Removing these structures and making banks more gradual has the added benefit of allowing for riparian vegetation to be planted, which acts as a natural buffer. Center for Watershed Protection. 2008. Guanica Bay watershed management plan.

Agriculture; Agriculture, Aquaculture, & Forestry Policies; Boat Movement; Boating Activities; City Planning; Civil Engineering & Construction; Coastal Engineering; Construction Codes & Projects; Dam Construction & Maintenance; Deforestation & Devegetation; Discharge Limitations; Discharges; Ditching & Soil Disturbance; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Food & Raw Materials; Hydrologic Management; Impervious Surfaces; Infrastructural Policies; Irrigation; Land-Based Civil Engineering; Landscape Changes; Landscape Conservation & Restoration; Landuse Management; Non-point Source Controls; Physical Damage; Sediment; Shoreline Protection; Small Boats; Substrate; Surface & Groundwater Flow; Transportation; Water; Water Resources; Water Transportation; Waterborne Discharges
Waterway Management: Waterway Management/Marking Plan Proper waterway markings provide coherent guidance for boats. Clearly-marked waterway exits and entrances reduce the probability of damage to reefs from boat gear damage, boat movement, trampling, and ballast discharge. Waterway marking can be achieved through surveying damage from propeller scarring and vessel groundings, enhancing channel marking aids, assessing the effectiveness of channel marking, and through removing waterway obstructions. "Hotspots" where many incidents have been reported should be considered for further marking, especially those that are in high use areas. NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.

Anchoring & Vessel Grounding; Boat Movement; Boating Activities; Boating Regulations; Contact Uses; Decision Support; Dredging Regulations; Dredging, Draining, & Filling; Physical Damage; Resource Use Management; Trampling; Trawling & Fishing Gear Damage; Water; Water Transportation
Waterway Management: Starting slower releases for longer durations from high-intensity rivers in coastal watershed and other methods of reducing sediment transport Slower releases with longer durations would be an advantage to short, intense releases. This is because current short, high intensity releases from rivers that are in the coastal watershed (like Rio Loco into Lagos Loco and Lucchetti) contributes to additional channel erosion and increase of suspending sediments in the water. Center for Watershed Protection. 2008. Guanica Bay watershed management plan.

Agriculture, Aquaculture, & Forestry Policies; Discharge Limitations; Discharges; Drinking Water Supply; Hydrologic Management; Infrastructure; Irrigation; Light; Point Source Discharges; Pressures; Primary Production; Water; Waterborne Discharges
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: Boat Access Plan An optimal boat access strategy involves conducting a survey of all public and private boat access points throughout the area. Once entry and exit sites are identified, channel markings can be placed accordingly. An effective strategy must also consider boat access needs, location, and intensity of use. This will help to efficiently mark the waterways so that there can be a reduction in damage to reefs, seagrasses and wetlands. NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.

Anchoring & Vessel Grounding; Artisanal Fishing; Boat Movement; Boating Activities; Boating Regulations; Commercial Fisheries; Contact Uses; Cultural Policies; Culture; Decision Support; Dive, Snorkeling, & Swimming Tourism; Dredging, Draining, & Filling; Landscape Changes; Physical Damage; Public Administration; Recreational Fishing; Resource Use Management; Security; Security & Public Administration Policies; Tourism & Recreation; Tourism & Recreation Policies; Trampling; Transportation; Trawling & Fishing Gear Damage; Water; Water Resources; Water Transportation
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
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

Laws

Legal Citation Purpose of Law Management Organization Database Topics
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
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
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
Water Resource Implementation Rule, 62-40 Florida Administrative Code (2006). The Chapter is intended to provide water resouirce implementation goals, objectives and guidance for the development and review of programs, rules, and plans relating to water resources. A goal of the Chapter is to coordinate the management of water and land resources. It is the objective of the State to protect the functions of the entire ecological systems, as developed and defined in the programs, rules, and plans of the Department and water management districts. It is a goal of the Chapter that sufficient water be available for all existing and future reasonable-beneficial uses and the natural systems and that adverse effects of competition for water supplies be avoided.

Application to Coral Reefs:By protecting the functions of entire aquatic ecological systems, those waters will contain less contaminants when they are discharged and meet other natural water bodies including marine ecosystems. Cleaner water will result in less ecological strees to marine ecosystems, including coral reefs.

Legislative Actions:

Comments:This Chapter is intended to provide water resource implementation goals, objectives, and guidance for the development and review of programs, rules, and plans relating to water resources, based on statutory policies and directives in Chapters 187, 373, and 403, Florida Statutes. 		Florida State Department of Environmental Protection

Jurisdiction:
US State Waters 		Agriculture, Aquaculture, & Forestry Policies; Drinking Water Supply; Environmental Education & Outreach; Non-point Source Controls; Non-point Source Runoff; Nutrient & Contaminant Processing; Physical & Chemical Water Quality Criteria; Point & Mobile Source Controls; Point Source Discharges; Waste Management Policies

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