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Social-Ecological analysis of the eutrophication in Chesapeake Bay, United States of America
This study is a social-ecological analysis of eutrophication in the Chesapeake Bay, United States of America (USA). It uses an expanded DPSIR framework (Drivers Pressures, State, Impacts Responses) methodology to analyze the issue. In addition, a typology of the social actors and stakeholders in the...
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| Published in: | Frontiers in Marine Science 2023-09 |
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| creator | Leyva Ollivier, María Esther Newton, Alice Kelsey, Heath |
| description | This study is a social-ecological analysis of eutrophication in the Chesapeake Bay, United States of America (USA). It uses an expanded DPSIR framework (Drivers Pressures, State, Impacts Responses) methodology to analyze the issue. In addition, a typology of the social actors and stakeholders in the socio-economic part of the system is identified. These include residents, agriculturists, fishers, real estate developers, tourism operators, scientific researchers, and state and federal regulators. The Drivers are food security, housing, economic development, recreation pursuits, a sense of belonging, and population growth. These result in human Activities such as land and coastal change for development, coastline changes for fisheries, urban or suburban development, burning fossil fuels, and agricultural fertilization. The activities exert Pressures such as wastewater discharge, runoff from cleared land, atmospheric deposition (NOx), nutrient input, decreased tidal vegetation, and overfishing of filter feeders. These alterations change the State of the environment and its resilience by increasing the duration and areal extent of hypoxia, turbidity, and change in nutrient ratios. This also causes ecosystem changes, such as decrease of wildlife diversity and affects the ecosystem services, such as decreasing nutrient buffering. The health of Chesapeake Bay benefits all stakeholders and wildlife, so the reduction of ecosystem services results in Impacts on society's welfare and well-being, the economy, and environmental justice. Examples are decreased yields from fisheries, poorer water quality affecting aesthetics, tourism, and ultimately human health. The governance Response to the degradation of the Chesapeake Bay and main management Measures has been the creation of the Chesapeake Bay Watershed Agreement (CBWA) by the Chesapeake Bay Program, which implemented the Total Maximum Daily Load (TMDL) to meet quality standards. The Agreement also has the Best Management Practices (BMP), which regulate the point/nonpoint sources of nutrients around the Watershed. The Chesapeake Bay Foundation (CBF), Chesapeake Progress, and Report Cards are used as accountability tools to observe and communicate the management project results or enforce state laws. The current management shows promising results, but further efforts are required to improve the water quality. Using a range of management options may bridge this gap to the benefit of all stakeholders. |
| doi_str_mv | 10.3389/fmars.2023.1237493 |
| format | article |
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It uses an expanded DPSIR framework (Drivers Pressures, State, Impacts Responses) methodology to analyze the issue. In addition, a typology of the social actors and stakeholders in the socio-economic part of the system is identified. These include residents, agriculturists, fishers, real estate developers, tourism operators, scientific researchers, and state and federal regulators. The Drivers are food security, housing, economic development, recreation pursuits, a sense of belonging, and population growth. These result in human Activities such as land and coastal change for development, coastline changes for fisheries, urban or suburban development, burning fossil fuels, and agricultural fertilization. The activities exert Pressures such as wastewater discharge, runoff from cleared land, atmospheric deposition (NOx), nutrient input, decreased tidal vegetation, and overfishing of filter feeders. These alterations change the State of the environment and its resilience by increasing the duration and areal extent of hypoxia, turbidity, and change in nutrient ratios. This also causes ecosystem changes, such as decrease of wildlife diversity and affects the ecosystem services, such as decreasing nutrient buffering. The health of Chesapeake Bay benefits all stakeholders and wildlife, so the reduction of ecosystem services results in Impacts on society's welfare and well-being, the economy, and environmental justice. Examples are decreased yields from fisheries, poorer water quality affecting aesthetics, tourism, and ultimately human health. The governance Response to the degradation of the Chesapeake Bay and main management Measures has been the creation of the Chesapeake Bay Watershed Agreement (CBWA) by the Chesapeake Bay Program, which implemented the Total Maximum Daily Load (TMDL) to meet quality standards. The Agreement also has the Best Management Practices (BMP), which regulate the point/nonpoint sources of nutrients around the Watershed. The Chesapeake Bay Foundation (CBF), Chesapeake Progress, and Report Cards are used as accountability tools to observe and communicate the management project results or enforce state laws. The current management shows promising results, but further efforts are required to improve the water quality. Using a range of management options may bridge this gap to the benefit of all stakeholders.</description><identifier>EISSN: 2296-7745</identifier><identifier>DOI: 10.3389/fmars.2023.1237493</identifier><language>eng</language><publisher>Lausanne: Frontiers Research Foundation</publisher><subject>Agricultural runoff ; Biological fertilization ; Disease management ; Economic development ; Economics ; Ecosystem services ; Ecosystems ; Environmental changes ; Environmental equity ; Environmental impact ; Environmental justice ; Estuaries ; Eutrophication ; Federal regulation ; Fertilization ; Filter feeders ; Fisheries ; Fishers ; Food security ; Fossil fuels ; Governance ; Hypoxia ; Information sources ; Land use ; Nitrogen compounds ; Nonpoint source pollution ; Nonpoint sources ; Nutrients ; Overfishing ; Oxides ; Population growth ; Runoff ; Socioeconomic aspects ; Total maximum daily load ; Tourism ; Turbidity ; Typology ; Wastewater ; Wastewater discharges ; Water quality ; Watersheds ; Wildlife</subject><ispartof>Frontiers in Marine Science, 2023-09</ispartof><rights>2023. 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It uses an expanded DPSIR framework (Drivers Pressures, State, Impacts Responses) methodology to analyze the issue. In addition, a typology of the social actors and stakeholders in the socio-economic part of the system is identified. These include residents, agriculturists, fishers, real estate developers, tourism operators, scientific researchers, and state and federal regulators. The Drivers are food security, housing, economic development, recreation pursuits, a sense of belonging, and population growth. These result in human Activities such as land and coastal change for development, coastline changes for fisheries, urban or suburban development, burning fossil fuels, and agricultural fertilization. The activities exert Pressures such as wastewater discharge, runoff from cleared land, atmospheric deposition (NOx), nutrient input, decreased tidal vegetation, and overfishing of filter feeders. These alterations change the State of the environment and its resilience by increasing the duration and areal extent of hypoxia, turbidity, and change in nutrient ratios. This also causes ecosystem changes, such as decrease of wildlife diversity and affects the ecosystem services, such as decreasing nutrient buffering. The health of Chesapeake Bay benefits all stakeholders and wildlife, so the reduction of ecosystem services results in Impacts on society's welfare and well-being, the economy, and environmental justice. Examples are decreased yields from fisheries, poorer water quality affecting aesthetics, tourism, and ultimately human health. The governance Response to the degradation of the Chesapeake Bay and main management Measures has been the creation of the Chesapeake Bay Watershed Agreement (CBWA) by the Chesapeake Bay Program, which implemented the Total Maximum Daily Load (TMDL) to meet quality standards. The Agreement also has the Best Management Practices (BMP), which regulate the point/nonpoint sources of nutrients around the Watershed. The Chesapeake Bay Foundation (CBF), Chesapeake Progress, and Report Cards are used as accountability tools to observe and communicate the management project results or enforce state laws. The current management shows promising results, but further efforts are required to improve the water quality. Using a range of management options may bridge this gap to the benefit of all stakeholders.</description><subject>Agricultural runoff</subject><subject>Biological fertilization</subject><subject>Disease management</subject><subject>Economic development</subject><subject>Economics</subject><subject>Ecosystem services</subject><subject>Ecosystems</subject><subject>Environmental changes</subject><subject>Environmental equity</subject><subject>Environmental impact</subject><subject>Environmental justice</subject><subject>Estuaries</subject><subject>Eutrophication</subject><subject>Federal regulation</subject><subject>Fertilization</subject><subject>Filter feeders</subject><subject>Fisheries</subject><subject>Fishers</subject><subject>Food security</subject><subject>Fossil fuels</subject><subject>Governance</subject><subject>Hypoxia</subject><subject>Information sources</subject><subject>Land use</subject><subject>Nitrogen compounds</subject><subject>Nonpoint source pollution</subject><subject>Nonpoint sources</subject><subject>Nutrients</subject><subject>Overfishing</subject><subject>Oxides</subject><subject>Population growth</subject><subject>Runoff</subject><subject>Socioeconomic aspects</subject><subject>Total maximum daily load</subject><subject>Tourism</subject><subject>Turbidity</subject><subject>Typology</subject><subject>Wastewater</subject><subject>Wastewater discharges</subject><subject>Water quality</subject><subject>Watersheds</subject><subject>Wildlife</subject><issn>2296-7745</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid>PIMPY</sourceid><recordid>eNqNjbFuwjAURS2kSqCWH2B6EitJHduQeARE1Z12q4Se0pfG1MTBzxn4-0aID-h0hnuujhCLQuZaV_a1uWDkXEml80Lp0lg9ETOl7CYrS7OeijnzWUpZaCPXxs7E1zHUDn12qIMPP65GD9ihv7FjCA2kloCGFEPfjltyoQPXwb4lxp7wl2CHtxV8di7RNxwTJrrftheKo_8inhr0TPMHn8Xy7fCxf8_6GK4DcTqdwxDHHJ9UtSmsrUpT6f9Zf0yuSXE</recordid><startdate>20230908</startdate><enddate>20230908</enddate><creator>Leyva Ollivier, María Esther</creator><creator>Newton, Alice</creator><creator>Kelsey, Heath</creator><general>Frontiers Research Foundation</general><scope>3V.</scope><scope>7TN</scope><scope>7XB</scope><scope>88I</scope><scope>8FE</scope><scope>8FH</scope><scope>8FK</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BBNVY</scope><scope>BENPR</scope><scope>BHPHI</scope><scope>BKSAR</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>F1W</scope><scope>GNUQQ</scope><scope>HCIFZ</scope><scope>LK8</scope><scope>M2P</scope><scope>M7P</scope><scope>PCBAR</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>Q9U</scope></search><sort><creationdate>20230908</creationdate><title>Social-Ecological analysis of the eutrophication in Chesapeake Bay, United States of America</title><author>Leyva Ollivier, María Esther ; Newton, Alice ; Kelsey, Heath</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-proquest_journals_28619987483</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2023</creationdate><topic>Agricultural runoff</topic><topic>Biological fertilization</topic><topic>Disease management</topic><topic>Economic development</topic><topic>Economics</topic><topic>Ecosystem services</topic><topic>Ecosystems</topic><topic>Environmental changes</topic><topic>Environmental equity</topic><topic>Environmental impact</topic><topic>Environmental justice</topic><topic>Estuaries</topic><topic>Eutrophication</topic><topic>Federal regulation</topic><topic>Fertilization</topic><topic>Filter feeders</topic><topic>Fisheries</topic><topic>Fishers</topic><topic>Food security</topic><topic>Fossil fuels</topic><topic>Governance</topic><topic>Hypoxia</topic><topic>Information sources</topic><topic>Land use</topic><topic>Nitrogen compounds</topic><topic>Nonpoint source pollution</topic><topic>Nonpoint sources</topic><topic>Nutrients</topic><topic>Overfishing</topic><topic>Oxides</topic><topic>Population growth</topic><topic>Runoff</topic><topic>Socioeconomic aspects</topic><topic>Total maximum daily load</topic><topic>Tourism</topic><topic>Turbidity</topic><topic>Typology</topic><topic>Wastewater</topic><topic>Wastewater discharges</topic><topic>Water quality</topic><topic>Watersheds</topic><topic>Wildlife</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Leyva Ollivier, María Esther</creatorcontrib><creatorcontrib>Newton, Alice</creatorcontrib><creatorcontrib>Kelsey, Heath</creatorcontrib><collection>ProQuest Central (Corporate)</collection><collection>Oceanic Abstracts</collection><collection>ProQuest Central (purchase pre-March 2016)</collection><collection>Science Database (Alumni Edition)</collection><collection>ProQuest SciTech Collection</collection><collection>ProQuest Natural Science Collection</collection><collection>ProQuest Central (Alumni) (purchase pre-March 2016)</collection><collection>ProQuest Central (Alumni)</collection><collection>ProQuest Central</collection><collection>ProQuest Central Essentials</collection><collection>Biological Science Collection</collection><collection>ProQuest Central</collection><collection>Natural Science Collection</collection><collection>Earth, Atmospheric & Aquatic Science Collection</collection><collection>ProQuest One Community College</collection><collection>ProQuest Central</collection><collection>ASFA: Aquatic Sciences and Fisheries Abstracts</collection><collection>ProQuest Central Student</collection><collection>SciTech Premium Collection</collection><collection>ProQuest Biological Science Collection</collection><collection>Science Database</collection><collection>Biological Science Database</collection><collection>Earth, Atmospheric & Aquatic Science Database</collection><collection>Publicly Available Content Database</collection><collection>ProQuest One Academic Eastern Edition (DO NOT USE)</collection><collection>ProQuest One Academic</collection><collection>ProQuest One Academic UKI Edition</collection><collection>ProQuest Central China</collection><collection>ProQuest Central Basic</collection><jtitle>Frontiers in Marine Science</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Leyva Ollivier, María Esther</au><au>Newton, Alice</au><au>Kelsey, Heath</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Social-Ecological analysis of the eutrophication in Chesapeake Bay, United States of America</atitle><jtitle>Frontiers in Marine Science</jtitle><date>2023-09-08</date><risdate>2023</risdate><eissn>2296-7745</eissn><abstract>This study is a social-ecological analysis of eutrophication in the Chesapeake Bay, United States of America (USA). It uses an expanded DPSIR framework (Drivers Pressures, State, Impacts Responses) methodology to analyze the issue. In addition, a typology of the social actors and stakeholders in the socio-economic part of the system is identified. These include residents, agriculturists, fishers, real estate developers, tourism operators, scientific researchers, and state and federal regulators. The Drivers are food security, housing, economic development, recreation pursuits, a sense of belonging, and population growth. These result in human Activities such as land and coastal change for development, coastline changes for fisheries, urban or suburban development, burning fossil fuels, and agricultural fertilization. The activities exert Pressures such as wastewater discharge, runoff from cleared land, atmospheric deposition (NOx), nutrient input, decreased tidal vegetation, and overfishing of filter feeders. These alterations change the State of the environment and its resilience by increasing the duration and areal extent of hypoxia, turbidity, and change in nutrient ratios. This also causes ecosystem changes, such as decrease of wildlife diversity and affects the ecosystem services, such as decreasing nutrient buffering. The health of Chesapeake Bay benefits all stakeholders and wildlife, so the reduction of ecosystem services results in Impacts on society's welfare and well-being, the economy, and environmental justice. Examples are decreased yields from fisheries, poorer water quality affecting aesthetics, tourism, and ultimately human health. The governance Response to the degradation of the Chesapeake Bay and main management Measures has been the creation of the Chesapeake Bay Watershed Agreement (CBWA) by the Chesapeake Bay Program, which implemented the Total Maximum Daily Load (TMDL) to meet quality standards. The Agreement also has the Best Management Practices (BMP), which regulate the point/nonpoint sources of nutrients around the Watershed. The Chesapeake Bay Foundation (CBF), Chesapeake Progress, and Report Cards are used as accountability tools to observe and communicate the management project results or enforce state laws. The current management shows promising results, but further efforts are required to improve the water quality. Using a range of management options may bridge this gap to the benefit of all stakeholders.</abstract><cop>Lausanne</cop><pub>Frontiers Research Foundation</pub><doi>10.3389/fmars.2023.1237493</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Agricultural runoff Biological fertilization Disease management Economic development Economics Ecosystem services Ecosystems Environmental changes Environmental equity Environmental impact Environmental justice Estuaries Eutrophication Federal regulation Fertilization Filter feeders Fisheries Fishers Food security Fossil fuels Governance Hypoxia Information sources Land use Nitrogen compounds Nonpoint source pollution Nonpoint sources Nutrients Overfishing Oxides Population growth Runoff Socioeconomic aspects Total maximum daily load Tourism Turbidity Typology Wastewater Wastewater discharges Water quality Watersheds Wildlife |
| title | Social-Ecological analysis of the eutrophication in Chesapeake Bay, United States of America |
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