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Climate Regulation

Climate Regulation

Climate regulation is the process by which ecosystems process and store carbon, which can modulate atmospheric levels of carbon dioxide.

CMap

Algae are aquatic, photosynthetic plant-like organisms and include calcareous macroalgae, fleshy macroalgae, turf algae, and crustose coralline algae. Carbon storage and cycling is the ability of an ecosystem to utilize, process, and store carbon. Climate reflects a region's temperature, humidity, air pressure, and weather. Climate regulation is the process by which ecosystems process and store carbon, which can modulate atmospheric levels of carbon dioxide. Carbon dioxide is a greenhouse gas used by primary producers, such as plants and algae, to produce sugars. Contact Uses, such as biological additions, physical damage, and biological harvesting, are activities in which humans create pressures through direct contact with the ecosystem. Coral is a colonial marine animal consisting of polyps. Culture sectors contribute to the social, emotional, and intellectual well-being of the community. Discharges are the intentional or unintentional distribution of chemicals, debris, or other pollution, into the environment as a consequence of human activities. Ecosystem monitoring and restoration refers to responses to directly alter the condition of the reef ecosystem through restoration or remediation activities, setting limits on degradation through biological criteria or water quality criteria, or improvin Ecosystem services are the benefits people obtain from ecosystems . The Health sector includes groups which provide for human health through medical and social care, and maintenance and disposal of waste. 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. 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 runo 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 Habitat is the abundance, distribution, and condition of the benthic components of the reef ecosystem. Reef Inhabitants are all of the motile components of the reef ecosystem, including fish, invertebrates, marine reptiles and mammals, and are quantified by their abundance, distribution, and condition. 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. Shelter includes sectors that provide for the comfort and protection of humans in relation to their living spaces. 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. Storms and hurricanes are periodic events of high precipitation, winds, wave action, and flooding that can potentially cause damage to reef habitat, property, or human lives. Supporting services are ecological processes that indirectly benefit humans by maintaining a functional ecosystem for the production of other ecosystem goods and services. Valuation is the process of estimating the worth, merit, or desirability of benefits derived from ecosystems. Water depth reflects the height between the bottom of the seafloor and water surface, and is often indicative of distinct ecological communities (shallow water species; deep water species). A wetland is an area of land whose soil is saturated with moisture either permanently or seasonally.

CMap Description

Carbon storage and processing by coral, algae, and wetland plants convert atmospheric CO2 into biomass, and can contribute to climate regulation. Changing climate contributes to rising sea surface temperatures, sea levels, and changing frequencies and intensities of storm and hurricane events. Regulating services can improve air quality, reduce risks of injury or death to humans, and reduce damage to homes and buildings. Many of the same socio-economic sectors that benefit from climate regulation also create pressures on the reef through coastal development, harvesting, and pollution, namely greenhouse gas emissions. Valuation methods and scientific research can be used to determine the value of climate regulation.

Citations

Citation Year Study Location Study Type Database Topics
Harrison, P. A., M. Vandewalle, M. T. Sykes, P. M. Berry, R. Bugter, F. de Bello, C. K. Feld, U. Grandin, R. Harrington, J. R. Haslett, R. H. G. Jongman, G. W. Luck, P. M. da Silva, M. Moora, J. Settele, J. P. Sousa, and M. Zobel. 2010. Identifying and prioritising services in European terrestrial and freshwater ecosystems. Biodiversity and Conservation 19:2791-2821. 2010 Europe Review Agriculture; Biochemical & Genetic Resources; Biomedical Research Policies; Climate; Climate Regulation; Cultural Policies; Cultural Services; Existence Value & Sense of Place; Fishing Sector; Forestry; Non-Monetary Valuation; Pathogens; Pharmaceuticals & Cosmetics; Provisioning Services; Recreational Opportunities; Regulating Services; Seawater Flow; Special Use Permitting; Surface & Groundwater Flow; Tourism & Recreation; Tourism & Recreation Policies; Wetlands
Raina, J. B., E. A. Dinsdale, B. L. Willis, and D. G. Bourne. 2010. Do the organic sulfur compounds DMSP and DMS drive coral microbial associations? Trends in Microbiology 18:101-108. 2010 Global Climate; Climate Regulation; Microorganisms; Special Use Permitting
TEEB. 2010. The economics of valuing ecosystem services and biodiversity. in P. Kumar, editor. The economics of ecosystems and biodiversity: ecological and economic foundations. Earthscan, United Kingdom. 2010 Climate; Climate Regulation; Cultural Policies; Monetary Valuation; Recreational Opportunities; Special Use Permitting; Tourism & Recreation; Tourism & Recreation Policies; Valuation
Harrison, P. A. and the RUBICODE consortium. 2009. Conservation of biodiversity and ecosystem services in Europe: from threat to action. Pensoft. 2009 Europe Review; Index or Indicator Climate; Climate Regulation; Fishing Sector; Forestry; Landscape Conservation & Restoration; Mitigation; Seawater Flow; Special Use Permitting; Surface & Groundwater Flow; Tourism & Recreation; Tourism & Recreation Policies; Valuation
Layke, C. 2009. Measuring nature�s benefits: a preliminary roadmap for improving ecosystem service indicators. 2009 Index or Indicator; Decision Support Frameworks & Tools Climate; Climate Regulation; Corporate Responses; Existence Value & Sense of Place; Provisioning Services; Regulating Services; Social Organizations; Special Use Permitting
Nunes, P. A. L. D., H. Ding, and A. Markandya. 2009. The economic valuation of marine ecosystems. Fondazione Eni Enrico Mattei. 2009 Europe Review Climate; Climate Regulation; Monetary Valuation; Special Use Permitting; Valuation
Kamenos, N. A., S. C. Strong, D. M. Shenoy, S. T. Wilson, A. D. Hatton, and P. G. Moore. 2008. Red coralline algae as a source of marine biogenic dimethylsulphoniopropionate. Marine Ecology Progress Series 372:61-66. 2008 Global; Cuba Algae; Climate; Climate Regulation; Coralline Algae; Plankton; Special Use Permitting
Naber. H., G.-H. Lange, and M. E. Hatziolos. 2008. Valuation of Marine Ecosystem Services: A Gap Analysis. The World Bank, Washington, D.C. 2008 Europe Review Climate; Climate Regulation; Monetary Valuation; Special Use Permitting; Valuation
Van Alstyne, K. L., P. Schupp, and M. Slattery. 2006. The distribution of dimethylsulfoniopropionate in tropical Pacific coral reef invertebrates. Coral Reefs 25:321-327. 2006 Global; US Pacific & Hawaii Algae; Climate; Climate Regulation; Pharmaceuticals & Cosmetics Sources; Special Use Permitting; Sponges; Zooxanthellae

Management Options

Management Option Description Sources Database Topics
Damage Assessment, Documentation & Response: Respond to Mass Coral Bleaching Events There are several actions managers can take to prepare for and respond to bleaching events. These strategies typically focus on developing and communicating reliable information about the bleaching event and its impacts, rather than providing a "cure." Developing a Bleaching response plan in advance allows managers to respond more effectively during these rapid onset events. Predicting the risk and severity of bleaching events can allow for more timely yet credible information for decision makers. After the bleaching event it is important to quickly access the ecological impacts for further management decisions. Bleached coral are in a vulnerable state, and are therefore less resilient to degraded water quality, physical damage from recreation, or pressure from fishing activities. This heightened sensitivity means that current protections may need to be increased temporarily following a bleaching event. Marshall, P. and H. Schuttenberg. 2006. A reef manager's guide to coral bleaching.

Atmospheric Emissions; Biological Monitoring & Restoration; Biological Monitoring, Mapping, & Scientific Research; Climate; Climate Regulation; Coral; Decision Support; Ecosystem Monitoring & Restoration; Environmental Education & Outreach; Environmental Monitoring & Restoration; Funding & Incentives; Greenhouse Gas Emissions; Sea Temperatures
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: Develop Energy Efficiency Initiatives Energy efficiency is one of the lowest cost strategies for reducing greenhouse gases. Energy efficiency is also one of the few options that actually reduce user costs as well, since using less energy should reduce energy bills. Energy efficiency can be promoted across the residential, commercial, and industrial sectors. In the US, the ENERGY STAR program has served as a trusted source of information to help consumers and organizations throughout the nation adopt energy-efficient products and practices. Other ways to incentivize energy improvements include subsidizing (e.g. tax exemption) or issuing lower interest loans for investments in energy use reduction technologies and infrastructure (e.g. more efficient heating/cooling systems). Environmental Protection Agency. ENERGY STAR and Other Climate Protection Partnerships. 2009 Annual Report. US EPA.

Atmospheric Emissions; City Planning; Climate Regulation; CO2; Coal Mining; Construction Codes & Projects; Corporate Responses; Discharges; Economic Markets & Policies; Energy Policy & Development; Food, Beverage, & Tobacco Products; Funding & Incentives; Greenhouse Gas Emissions; Housing; Improved Technology; Landuse Management; Manufacturing & Trade; Metals, Electronics, & Machinery Products; Oil & Gas Industry; Shelter; Utilities; Utility Policies; Wholesale & Retail Trade; Wood, Plastics, & Chemical Products
Monitor & Research: Water Quality Status and Trends Monitoring This activity produces long-term, comprehensive information on sanctuary-wide status and trends of water quality parameters. Parameters that should be measured include temperature, salinity, dissolved oxygen, turbidity, relative fluorescence, light attenuation, nutrients, chlorophyll, and alkaline phosphatase activity. NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.

Applied Chemicals; Atmospheric Emissions; Calcium Carbonate Deposition; Carbon Storage & Cycling; Chemical Variables; Climate; Climate Regulation; CO2; Discharges; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Environmental Monitoring, Mapping, & Scientific Research; Light; Nutrient & Contaminant Processing; Nutrients; Ocean Acidity; Physical & Chemical Water Quality Criteria; Physical Variables; Regulating Services; Salinity; Sea Temperatures; Sediment; Supporting Services; Toxics; Waterborne Discharges
Monitor & Research: Research Global Change This management option involves research to examine the effects of stresses associated with global change on the ecosystem. Stresses can include changes in temperature, hydrology, salinity, frequency and intensity of storms, turbidity, sea level change, and ultra violet and visible radiation. NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.

Atmospheric Emissions; Calcium Carbonate Deposition; Carbon Storage & Cycling; Chemical Variables; Climate; Climate Regulation; CO2; Discharges; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Environmental Monitoring, Mapping, & Scientific Research; Greenhouse Gas Emissions; Nutrient & Contaminant Processing; Ocean Acidity; Physical & Chemical Water Quality Criteria; Physical Variables; Regulating Services; Salinity; Sea Temperatures; Seawater Flow; Shoreline Protection; Storms & Hurricanes; Supporting Services; Surface & Groundwater Flow; Water Depth & Sea Level
Monitor & Research: Research and Monitor Wetlands This management option involves monitoring and research of mangroves, both for biotic and abiotic factors. Some biotic factors include disease, species, invasive species, abundance, age and leaf litter. Important abiotic factors include sedimentation rates, types and causes of turbidity, and soil chemistry. The activity would document changes to the extent of mangrove vegetation by using historical aerial photography and other records. Wetland nutrient and contaminant processing productivity depends on maintaining a balance and not exceeding thresholds. There remain many unknowns in wetland restoration as to optimal capacity and how to achieve this. NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.

Biological Monitoring & Restoration; Biological Monitoring, Mapping, & Scientific Research; Carbon Storage & Cycling; Chemical Variables; Climate Regulation; Complex Habitat & Resources; Deforestation & Devegetation; Discharges; Ecosystem Monitoring & Restoration; Educational & Research Opportunities; Environmental Monitoring & Restoration; Environmental Monitoring, Mapping, & Scientific Research; Invasive Species; Mangroves; Nutrient & Contaminant Processing; Nutrients; Physical & Chemical Water Quality Criteria; Physical Variables; Primary Production; Regulating Services; Scientific Research; Seawater Flow; Sediment; Shoreline Protection; Substrate; Supporting Services; Surface & Groundwater Flow; Wetland & Reef Restoration; Wetlands
Monitor & Research: Monitor Water Temperature Extreme water temperature fluctuations can lead to bleaching and disease in corals and mass mortality of seagrass. Recording thermographs are deployed throughout the sanctuary area to monitor seawater temperatures. Temperatures fluctuate greatly, meaning monitoring should be continued long term, and that historic data must be considered to discern trends. NOAA Marine Sanctuary Program. 2007. Florida Keys National Marine Sanctuary revised management plan. National Ocean Service, Key West, FL.

Atmospheric Emissions; Climate; Climate Regulation; Ecosystem Monitoring & Restoration; Environmental Monitoring & Restoration; Environmental Monitoring, Mapping, & Scientific Research; Physical & Chemical Environment; Physical & Chemical Water Quality Criteria; Physical Variables; Regulating Services; Sea Temperatures
Transportation Policy: Corporate Average Fuel Economy Standards The purpose of Corporate Average Fuel Economy (CAF�) standards is to reduce fuel consumption by increasing the fuel economy of cars and light trucks. NHTSA sets fuel economy standards for cars and light trucks sold in the US while EPA calculates the average fuel economy for each manufacturer. Since the standard only dictates the average fuel economy, manufacturers can sell vehicles with higher or lower fuel economy than the standard. National Highway Traffic Safety Administration. Corporate Average Fuel Economy (CAFE). Accessed 8/11/2011.

Atmospheric Emissions; Carbon Storage & Cycling; Climate; Climate Regulation; CO2; Energy Policy & Development; Food & Energy Policies; Greenhouse Gas Emissions; Land & Air Transportation; Manufacturing & Trade; Manufacturing & Trade Policies; Non-Greenhouse Gas Emissions; Ocean Acidity; Oil & Gas Industry; Provisioning Services; Regulating Services; Resource Use Management; Supporting Services; Transportation; Transportation Policies
Transportation Policy: Airline Carbon Policy Civil aviation is a significant source of greenhouse gas emissions, and this contribution has grown as the industry has grown. Some regions are implementing policies such as cap and trade that apply to the airline industry. Bruce Duguid. 2009. Fasten Your Seat Belt: Airlines and cap-and-trade. CTC764, Carbon Trust, United Kingdom.

Atmospheric Emissions; Carbon Storage & Cycling; Climate Regulation; CO2; Economic Markets & Policies; Energy Policy & Development; Greenhouse Gas Emissions; Land & Air Transportation; Political Pressure; Provisioning Services; Regulating Services; Supporting Services; Transportation; Transportation Policies

Laws

Legal Citation Purpose of Law Management Organization Database Topics
Clean Air Act, 42 United States Code §§ 7400 et seq. To ensure Americans have clean air to breath, and to protect the environment from air pollution. Regulates air emmissions from area, stationary and mobile sources. Charges federal land managers with direct responsibility to protect the "air quality and related values" of land under their control. The "related values" include fish and widlife and their habitats. The Clean Air Act is the law that defines EPA's responsibility for protecting and improving the nation's air quality and the stratospheric ozone layer.

Application to Coral Reefs:The Act would decrease carbon dioxide emissions from sources in the United States, thereby making a contribution toward reducing ocean acidification, which is one of the problems contributing to coral reef decline.

Legislative Actions:Response will differ from State to State because many Sates have been delegated to administer the Clean Air Act. However, States cannot have air quality standards less stringent then the federal standards. State air pollution agencies hold permit hearings and fines industries that violate air quality limits. States must develop state implementation plans that require approval by EPA.

Comments:The 1990 amendments authorized the Acid Deposition Control Program, a program to control 189 toxic pollutants, established permit program requirements, expanded and modified the attainment of National Ambient Air Quality Standards, and expanded and modified enforcement authority. 		United States Environmntal Protection Agency

Jurisdiction:
United States 		Carbon Storage & Cycling; Climate Regulation; CO2; Energy Policy & Development; Environmental Monitoring, Mapping, & Scientific Research; Greenhouse Gas Emissions; Improved Technology; Mineral, Rock, & Metal Mining; Natural Gas & Electric Power; Non-Greenhouse Gas Emissions; Nutrient & Contaminant Processing; Nutrients; Oil & Gas Research & Exploration; Oil & Gas Rigs; Point & Mobile Source Controls; Political Pressure; Transportation Policies; Wood, Plastics, & Chemical Products
Electric Power Siting, 62-017 Florida Administrative Code. 62-17.011 General. (1) The purpose of Part I is to implement the provisions of the Florida Electrical Power Plant Siting Act, Sections 403.501 - 403.518, F.S., as amended. (2) The department promulgates Part I pursuant to the charge of the legislature to provide efficient, centralized review of the needs for increased electrical power generation and the effects of generation-related activities on human health and the environment and ecology of the lands and waters within the state. (3) This Part addresses applications for certification of: (a) A new site for a steam or solar electrical power plant; (b) The construction and operation of additional steam or solar electrical generating units to be located at sites which have been previously certified for an ultimate site capacity; and (c) An existing power plant site which had or had applied for permits prior to the effective date of the Act. Specific Authority 403.504(1), 403.517(1)(a), FS. Law Implemented 403.504(2)(3)(5), 403.517, 403.5175, FS. History - New 5-7-74, Amended 12-27-77, Formerly 17-17.01, Amended 5-9-83, Formerly 17-17.011, Amended 2-1-99.

Application to Coral Reefs: To provide efficient, centralized review of the needs for increased electrical power generation and the effects of generation-related activities on human health and the environment and ecology of the lands and waters within the state. (3) This Part addresses applications for certification of: (a) A new site for a steam or solar electrical power plant;

Legislative Actions:

Comments:To provide efficient, centralized review of the needs for increased electrical power generation and the effects of generation-related activities on human health and the environment and ecology of the lands and waters within the state. 		Florida State Department of Environmental Protection

Jurisdiction:
 Building & Home Construction; Carbon Storage & Cycling; Climate Regulation; Energy Policy & Development; Natural Gas & Electric Power; Point & Mobile Source Controls
Greenhouse Gas Emissions Reduction, 62-285 Florida Administrative Code. Florida LEV Program. The Department of Environmental Protection (Department) adopts this rule to establish a Florida low emission vehicle (LEV) program that implements California motor vehicle emission standards pursuant to s. 177 of the Clean Air Act. This rule refers to many sections of chapter 1, division 3, title 13 of the California Code of Regulations (CCR), adopted and incorporated by reference at subsection 62-285.400(9), F.A.C. This rule also includes provisions specific to implementation in Florida.

Application to Coral Reefs:Reducing greenhouse gases will contibute to a decrease in ocean acidification.

Legislative Actions:

Comments:To protect air quality, this rule applies to any heavy-duty diesel engine powered motor vehicle. 		Florida State Department of Environmental Protection

Jurisdiction:
 Climate Regulation; CO2; Greenhouse Gas Emissions; Land & Air Transportation; Nutrients; Point & Mobile Source Controls; Transportation Policies
Motor Vehicle Emissions Standards and Test Procedures, 62-242 Florida Administrative Code. (1) The Department of Environmental Protection adopts this chapter pursuant to the Florida Clean Outdoor Air Law, Section 325.201, F.S., and in order to provide the Department of Highway Safety and Motor Vehicles with the necessary rules, standards, and criteria to administer the Florida Motor Vehicle Inspection Program. (2) The Legislature has directed that in order to implement the Motor Vehicle Inspection Program, the Department of Environmental Protection will set the standards and criteria listed below. (a) Designation of program area (Section 325.204, F.S.). (b) Emissions testing and inspection procedures (Section 325.206, F.S.). (c) Inspection pass/fail criteria (Section 325.206, F.S.). (d) Test equipment performance specifications (Sections 325.206, .212, and .213, F.S.). (e) Definition of low emission adjustment (Section 325.209, F.S.). (f) Inspection personnel training criteria (Section 325.213(1)(d), F.S.). (3) The Department has set the vehicle in-use emission standards at levels that are achievable with proper operation and maintenance of the various model year vehicles, if they have not been tampered with, and which will result in a significant reduction in ozone-causing air pollutant emissions from automobiles and light duty trucks. It is the Department�s intent that eligibility for emission control system performance warranty repairs of these vehicles be protected by reference to 40 CFR 85.2201 (Subpart W) � Emission Control System Performance Warranty Short Tests. (4) This chapter, and the Department of Highway Safety and Motor Vehicles rules it references, are intended as an integral part of the Department�s program to achieve and maintain the National Ambient Air Quality Standards for ozone, carbon monoxide, and particulate matter; and to control nuisance exhaust.

Application to Coral Reefs:Regulation and stanards for air emissions will contribute to lower greenhouse gasses and assist in combating ocean acidification.

Legislative Actions:

Comments: 		Florida State Department of Environmental Protection

Jurisdiction:
 Climate Regulation; CO2; Greenhouse Gas Emissions; Land & Air Transportation; Nutrients; Transportation Policies
Requirements for Sources Subject to the Federal Acid Rain Program, 62-214 Florida Administrative Code. This chapter outlines the additional permitting requirements for Title V sources that are subject to the Federal Acid Rain Program. The rules under this chapter set forth requirements for the Acid Rain Part of an operation permit for a Title V source which is subject to the Federal Acid Rain Program. The Department intends that this chapter shall implement and be consistent with the federal requirements of 40 C.F.R. Part 72. Words and phrases used in this chapter, unless clearly indicated otherwise, are defined at either 40 CFR 72.2 or 76.2 or Rule 62-210.200, F.A.C. The provisions of 40 CFR Parts 72, 73, 74, 75, and 76 referenced in this rule are adopted and incorporated by reference at Rule 62-204.800, F.A.C.

Application to Coral Reefs:Controlling toxic air emissions will contribute to a decrease in greenhouse gasses and assist in reducing ocean acidification.

Legislative Actions:

Comments:This chapter outlines the additional permitting requirements for Title V sources that are subject to the Federal Acid Rain Program. The rules under this chapter set forth requirements for the Acid Rain Part of an operation permit for a Title V source which is subject to the Federal Acid Rain Program. The Department intends that this chapter shall implement and be consistent with the federal requirements of 40 CFR. Part 72. 		Florida State Department of Environmental Protection

Jurisdiction:
 Atmospheric Emissions; Climate Regulation; CO2; Energy Policy & Development; Greenhouse Gas Emissions; Natural Gas & Electric Power; Ocean Acidity
Stationary Sources - Emission Standards, 62-296 Florida Administrative Code. (1) The Department of Environmental Protection adopts this chapter to establish emission limiting standards and compliance requirements for stationary sources of air pollutant emissions. (2) The chapter includes emission limitations for specific categories of facilities and emissions units, and it establishes reasonably available control technology requirements. Where work practice standards, including requirements for specific types of pollution control equipment, are provided for in this chapter, such standards shall be of the same force and effect as emission limiting standards. The emission limiting and work practice standards of Rule 62-296.320, F.A.C., and Rules 62-296.401 through 62-296.480, F.A.C., are applicable statewide. The reasonably available control technology requirements are established for specific areas of the state as set forth in Rules 62-296.500, 62-296.600, and 62-296.700, F.A.C. (3) A facility or emissions unit subject to any standard or requirement of 40 CFR. Part 60, 61, 63 or 65, adopted and incorporated by reference at Rule 62-204.800, F.A.C., shall comply with such standard or requirement. Nothing in this chapter shall relieve a facility or emissions unit from complying with such standard or requirement, provided, however, that where a facility or emissions unit is subject to a standard established in this chapter, such standard shall also apply. (4) Words and phrases used in this chapter, unless clearly indicated otherwise, are defined at Rule 62-210.200, F.A.C.

Application to Coral Reefs:Controlling air emission pollutants can assist in controlling ocean acid acidification and the damaging effect of ocean water acidification on coral reefs.

Legislative Actions:

Comments:To protect air quality, the chapter includes emission limitations for specific categories of facilities and emissions units, and it establishes reasonably available control technology requirements. 		Florida State Department of Environmental Protection

Jurisdiction:
 Atmospheric Emissions; Chemical Use Regulations; Climate Regulation; CO2; Corporate Responses; Greenhouse Gas Emissions; Natural Gas & Electric Power; Nutrients

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