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Forestry

Forestry

The Forestry sector specializes in harvesting of wood resources for fuel, wood, and paper products, and often implements practices that will sustain resources, such as reforestation.

CMap

Agriculture, aquaculture and forestry policies regulate and control agriculture, aquaculture and forestry. Cultural services are the nonmaterial benefits people obtain from ecosystems through spiritual enrichment, cognitive development, recreational opportunities, aesthetic experiences, sense of place, and educational and research opportunities. Deforestation and Devegetation are the removal of trees and plants, including clear-cutting, to provide clear land for farms, roads, homes, buildings, and other infrastructure. 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. 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. The Forestry sector specializes in harvesting of wood resources for fuel, wood, and paper products, and often implements practices that will sustain resources, such as reforestation. 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. Provisioning services are the products or ecosystem goods obtained from ecosystems, including seafood, genetic and biochemical resources, pharmaceuticals, ornamental resources, and water resources. 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. Sediment includes dirt, sand, silt, clay, and small rocks that form soil on land or soft substrate in marine habitats, and may be transported by water, wind, or human activities. 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. Supporting services are ecological processes that indirectly benefit humans by maintaining a functional ecosystem for the production of other ecosystem goods and services. Surface and groundwater flow reflects the patterns of water movement across the landscape, including rivers, streams, underground water, or stormwater. Waterborne discharges include direct and indirect discharges of pollutants into the aquatic environment, including chemicals, nutrients, sediment, and pathogens.

CMap Description

Forestry alters the landscape through devegetation and deforestation that can alter patterns of water flow, accelerating runoff and the deposit of sediments into the coastal ecosystem. Forestry benefits indirectly from ecosystem services that improve the well-being of other sectors, such as tourism and recreation, which drive coastal development and the need for wood products. Forestry practices can be implemented to minimize the need for broad deforestation. Landuse Restoration, such as hydroseeding along roads, can restore vegetation and 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: Hydroseeding High Risk Soils Hydroseeding is a process that creates a slurry of seeds, water, and mulch. This slurry can be applied with the use of trucks, trailers, and even aircrafts. This method is particularly useful because it promotes quick germination and reduces erosion. It is especially beneficial to use this method where there is a vastness of bare soil due to clearing vegetation for roads, homes, and farming. Higher elevations are typically steeper and often experience heavy rainfall, and ultimately an extreme amount of erosion occurs if soil is bare. Erosion from the highlands can fill the reservoirs in the drainage basin with sediment. Using hydroseeding would increase vegetation and ultimately the stabilization of the soil. Also, increased vegetation through hydroseeding would help with infiltration rates because the roots would aerate the soil. Center for Watershed Protection. 2008. Guanica Bay watershed management plan.

Natural Resources Conservation Service. 1999. Temporary Seeding. NRCS Planning and Design Manual. U.S. Depatrment of Agriculture.

Agriculture; Agriculture, Aquaculture, & Forestry Policies; Biological Monitoring & Restoration; Civil Engineering & Construction; Construction Codes & Projects; Deforestation & Devegetation; Ditching & Soil Disturbance; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Food & Energy Policies; Food & Raw Materials; Forestry; Infrastructure; Land-Based Civil Engineering; Landscape Changes; Landscape Conservation & Restoration; Landuse Management; Mining; Mining Policies; Reef Life; Sediment
Corporate Response: Standardized Environmental Certifications and Labels Product labeling initiatives are based on the premise that product information represented by or contained on the label is otherwise not readily available (or apparent) and is of value in consumer purchase decisions. For example, warning labels highlight product safety and toxic exposure hazards and advise consumers on ways to minimize risks. Likewise, a number of environmental certification programs (ECPs) identify products' environmental burdens and/or set standards for products' environmental attributes. Properly designed environmental labeling efforts can change consumer and manufacturer attitudes and behaviors, thus reducing environmental burdens. The specific metrics used to measure environmental label effectiveness include: 1) consumer awareness of labels, 2) consumer acceptance of labels (credibility and understanding), 3) changes in consumer behavior, 4) changes in manufacturer behavior, and 5) improvement of end goals, such as environmental quality. Malcohn, E., Bentham Paulos, Andrew Stoeckle, Herbert Han-Pu Wang, and Julie Lynch. Determinants of Effectiveness for Environmental Certification and Labeling Programs. EPA-742-R-94-001, US EPA, Washington, DC.

Agriculture; Agriculture, Aquaculture, & Forestry Policies; Aquaculture; Banks, Credit, & Securities; Climate; CO2; Collaboration & Partnering; Commercial Fisheries; Corporate Responses; Economic Markets & Policies; Environmental Education & Outreach; Fishing Sector; Food & Energy Policies; Food, Beverage, & Tobacco Products; Forestry; Health; Manufacturing & Trade; Manufacturing & Trade Policies; Marine Birds; Medical Care; Medical Centers; Metals, Electronics, & Machinery Products; Resource Use Management; Toxics; Transportation; Utilities; Whales & Dolphins; Wholesale & Retail Trade; Wood, Plastics, & Chemical Products
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
Forestry Policy: Forestry Streamside Management Areas There are often surface waters, such as streams and lakes, within forestry areas that require special protection. This management option involves establishing and maintaining management areas (35 to 50 feet) around these surface waters to buffer against changes in temperature, increases in sediments and nutrients, and to provide bank stability. Canopy species in these areas also provide woody debris needed for instream channel structure and aquatic species habitat. Environmental Protection Agency Office of Water. 1993. Guidance Specifying Management Measures For Sources Of Nonpoint Pollution In Coastal Waters. EPA/840/B-92/002, US EPA, Washington, DC.

Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture.

Agriculture, Aquaculture, & Forestry Policies; Carbon Storage & Cycling; Civil Engineering & Construction; Construction Codes & Projects; Deforestation & Devegetation; Discharges; Ditching & Soil Disturbance; Food & Raw Materials; Forestry; Impervious Surfaces; Infrastructural Policies; Landscape Changes; Landscape Conservation & Restoration; Landuse Management; Non-point Source Runoff; Point & Mobile Source Controls; Primary Production; Sediment; Surface & Groundwater Flow; Waterborne Discharges; Wood, Plastics, & Chemical Products
Forestry Policy: Forestry Management Planning There are many aspects to properly managing forestry sites to reduce point source and non-point source pollutants. Forestry activities can degrade water quality with several types of pollutants and impacts, including: sediment, nutrients, forest chemicals like pesticides, organic debris from tree litter, increased water temperature and increased streamflow. The Forestry management plan and practices include, but are not limited to: pre-harvest planning, road construction and use, prescribed burning and fire management, brush management, timber harvest, regeneration, and application of forest chemicals. Wetlands Forest Management has additional best practices. Environmental Protection Agency Office of Water. 1993. Guidance Specifying Management Measures For Sources Of Nonpoint Pollution In Coastal Waters. EPA/840/B-92/002, US EPA, Washington, DC.

Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture.

Agriculture, Aquaculture, & Forestry Policies; Applied Chemicals; Biological Harvest; Chemical Use Regulations; Civil Engineering & Construction; Deforestation & Devegetation; Discharge Limitations; Ditching & Soil Disturbance; Fertilizer & Pesticide Use; Food & Raw Materials; Forestry; Landscape Changes; Landscape Conservation & Restoration; Landuse Management; Manufacturing & Trade; Non-point Source Controls; Non-point Source Runoff; Nutrients; Physical & Chemical Water Quality Criteria; Point & Mobile Source Controls; Point Source Discharges; Regulating Services; Resource Use Management; Sediment; Supporting Services; Surface & Groundwater Flow; Toxics; Waterborne Discharges; Wetlands; Wood, Plastics, & Chemical Products
Forestry Policy: Forest Chemical Management Pesticides and fertilizers are commonly used in forestry to reduce mortality of desired trees, improve forest production, and ease harvest/extraction. The rate of application is typically very low, but given the overall area covered, pesticides can still accumulate within watersheds. Some forest management chemical use considerations to reduce nonpoint source pollution impacts include: Develop an effective spill contingency plan to contain spills, and immediately report accidental spills into surface waters to the appropriate State agency. Prior to application, inspect the mixing and loading process and the calibration of equipment, and identify the appropriate weather conditions, the spray area, and buffer areas for surface waters. Buffer areas for surface waters are especially important for aerial applications. Carefully prescribe the type and amount of pesticides appropriate for the insect, fungus, or herbaceous species. Environmental Protection Agency Office of Water. 1993. Guidance Specifying Management Measures For Sources Of Nonpoint Pollution In Coastal Waters. EPA/840/B-92/002, US EPA, Washington, DC.

Agriculture, Aquaculture, & Forestry Policies; Applied Chemicals; Chemical Use Regulations; Discharge Limitations; Discharges; Fertilizer & Pesticide Use; Forestry; Non-point Source Controls; Nutrients; Provisioning Services; Surface & Groundwater Flow; Toxics; Water Resources; Wood, Plastics, & Chemical Products
Landuse Management: Temporary Road Planning and Construction This management option involves minimizing sediment discharges from forestry and other temporary roads through their planning and construction. Since these roads are seasonal or temporary, less time and effort is normally invested in construction. Road construction has four main phases, clearing, leveling, construction and surfacing. Construction timing should be targeted to avoid sensitive spawning periods and during low stream flow at water passes. Road surface drainage shaping requires proper moisture content, surfacing, and grading. Drainage should be installed to reduce the volume and velocity of runoff water passing over sensitive areas. Methods for road surface drainage include: broad-based dip construction, pole culverts, ditch relief culverts, road outsloping and grading, ditch and turnout construction. Roadway runoff should be prevented from flowing directly into watercourses by using turnouts, wing ditches and dips. Brush barriers, silt fences, riprap and filter strips can be used to trap sediment in runoff water. Where roads cross streams it is important to guard against erosion, as such erosion may necessitate road repairs. Environmental Protection Agency Office of Water. 1993. Guidance Specifying Management Measures For Sources Of Nonpoint Pollution In Coastal Waters. EPA/840/B-92/002, US EPA, Washington, DC.

Agriculture, Aquaculture, & Forestry Policies; Civil Engineering & Construction; Construction Codes & Projects; Decision Support; Deforestation & Devegetation; Discharge Limitations; Discharges; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Food & Raw Materials; Forestry; Hydrologic Management; Impervious Surfaces; Infrastructural Policies; Infrastructure; Land & Air Transportation; Land-Based Civil Engineering; Landscape Changes; Landscape Conservation & Restoration; Landuse Management; Mining; Mining Policies; Non-point Source Controls; Non-point Source Runoff; Nutrients; Road Construction & Maintenance; Sediment; Transportation; Transportation Policies
Restoration: Land Reclamation Integrating Landslide Treatments This management option is exercised to prevent down slope movement of earthen materials, including natural soils, and spoil/waste from mining or forestry activities. Extreme caution and planning must be exercised before permitting any personnel, equipment or other machinery into the slide area. An experienced engineer should analyze the stability of the site both before and after alterations are made to evaluate stability. Water Control: sources of water that enter the area can be controlled to keep the material dry, as it is typically more stable when dry. Loading Control: where appropriate, consider removing excess material from upper portions of the slide area to reduce slide mass. Slope Reduction: where practice, use grading to reduce the slope of the slide area. Increasing Internal Strength: consider the impact of removing and recompacting of material at designed levels of moisture and with biotechnical slope stabilization practices. External Restraints: external restraints can be used where slope movements must be limited due to surrounding valued improvements (e.g. structures), where manipulation of the material may not achieve desired improvements. External restraints must be designed to prevent overturning, sliding at or below the base, and bearing failure of the foundation. Vegetative Treatment: deep rooted grasses and shrubs with proven performance in soil bioengineering applications can be planted using selected soil bioengineering or biotechnical slope stabilization techniques appropriate to the site. Transpiration and infiltration should be considered when choosing vegetation. Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture.

Agriculture, Aquaculture, & Forestry Policies; Construction Codes & Projects; Discharges; Ditching & Soil Disturbance; Forestry; Infrastructure; Insurance; Landscape Conservation & Restoration; Mining; Mining Policies; Non-point Source Runoff; Sediment
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
Transportation Policy: Dust Control Application This action is taken to control dust from unpaved roads and other surfaces, which is generated by traffic and/or wind. Some dust control products (palliatives) for application include: water, hydroscopic palliatives, adhesive, petroleum emulsion, polymer emulsion, clay additive, and bituminous. There are specific considerations for application of each, including seasons and when to use which. For example, hygroscopic palliatives (control dust by absorbing water from the air) shall not be used in arid and semi-arid environments. Calcium chloride and magnesium chloride shall not be used in locations where the daily summertime relative humidity averages below 30%. Natural Resources Conservation Service. 2011. National Handbook of Conservation Practices. U.S. Department of Agriculture.

Agriculture; Construction Codes & Projects; Discharge Limitations; Discharges; Food & Raw Materials; Forestry; Impervious Surfaces; Infrastructural Policies; Land & Air Transportation; Mining; Non-point Source Controls; Non-point Source Runoff; Sediment; Transportation; Transportation Policies
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
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
Significant amendments to the Coastal Barrier Resources Act of 1982 include (1) Coastal Barrier Improvement Act of 1990, (2) Coastal Barrier Resources Reauthorization Act of 2000, (3) Coastal Barriers Resources Reauthorization Act of 2005,. (1) Added additional areas along the Great Lakes, Puerto Rico, the Florida Keys and the Virgin Islands and established "Otherwise Protected Areas OPAs); (2) amended the guidelines for making recommendations regarding additions to the CBRS and reqired a pilot digital mapping project; (3) reauthorized CBRA and required the submission of the final digital mapping pilot project.

Application to Coral Reefs:Development of coastal barrier islands can cause sedimentation, through runoff and construction activities, that could reach inshore coral reefs.

Legislative Actions:Restricted most federal expenditures and financial assistance that encourage development including federal flood insurance.

Comments:Recognized coastal barriers as essential habitat for many fish, water fowl and other aquatic animals   		U.S. Fish & Wildlife Service

Jurisdiction:
United States 		Beach & Land Formation; Coastal Development; Dam Construction & Maintenance; Existence Value & Sense of Place; Forestry; Mangroves; Seagrasses; Seawater Flow; Shoreline Protection
Surface waters of the State, Florida Administrative Code Annotated §§ Chapter 62-301 (1996). It is the intent of this Chapter to define the landward externt of surface waters of the state. Te findings, declarations, and intentfor this Chapter are the same as those for Chapter 62-302 F. A. C.

Application to Coral Reefs:By defining the landward extent of surface waters of the State using dominant plant species, the guidance in the Chapter will include wetlands and transitional zones on many occasions. Through the protection of these areas, filtration of sediment and nutrients will be maintained and two of the harmful parameters for coral reefs will be reduced.

Legislative Actions:The Chapter is a guidance document and does not contain penalties. The Chapter provides a list of plant species for use with the guidance as well as the methods of calculating the areas of state waters.

Comments: 		Florida Department of Environmental Protection

Jurisdiction:
State Coastal Waters; US State Waters; Designated Marine Areas 		Arthropods; Ballast Discharge; Beaches & Nature Parks; Biotechnology Research & Development; Building & Home Construction; Coastal Development; Docks & Marinas; Dredging Regulations; Dredging, Draining, & Filling; Finfish & Shellfish Stock; Fish; Fishing & Harvesting Management; Forestry; Invertebrates; Landscape Conservation & Restoration; Landuse Management; Mangroves; Marine Birds; Marine Vertebrates; Molluscs; Non-point Source Runoff; Nutrient & Contaminant Processing; Petroleum Spills; Pipelines; Ports & Harbors; Recreational Fishing; Resource Use Management; Sea Turtles; Seagrasses; Sediment; Shoreline Armoring; Small Boats; Surface & Groundwater Flow; Utility Line Construction & Maintenance; Wastewater Discharge; Wetlands; Whales & Dolphins
Uniform Mitigation Assessment Method, Florida Administrative Code Annotated §§ Chapter 62-345 (2005). Establishes a methodology that provides a standard procedure for assessing the functions provided by wetlands and other surface waters, the amount that those functions are reduced by a proposed impact, and the amount of mitigation necessary to offset that loss.

Application to Coral Reefs:Protecting wetlands provides wetland areas that can act as buffers against nutrients, pollutants and contaminants from reaching habitats including coral reefs.

Legislative Actions:The Chapter is administrative and provides methods to assess wetland value and appropriate mitigation to offset impact.

Comments: 		Florida Department of Environmental Protection

Jurisdiction:
State Coastal Waters 		Agriculture, Aquaculture, & Forestry Policies; Building & Home Construction; Civil Engineering & Construction; Coastal Development; Coastal Engineering; Complex Habitat & Resources; Construction Codes & Projects; Dam Construction & Maintenance; Docks & Marinas; Dredging Regulations; Dredging, Draining, & Filling; Finfish & Shellfish Stock; Forestry; Land-Based Civil Engineering; Landuse Management; Mangroves; Nutrient & Contaminant Processing; Oil & Gas Research & Exploration; Pipelines; Ports & Harbors; Recreational Opportunities; Resource Use Management; Road Construction & Maintenance; Seagrasses; Sediment; Shoreline Armoring; Surface & Groundwater Flow; Utility Line Construction & Maintenance; Wetlands

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