Comparative Metabolism and Blue Carbon Sequestration of Two Wetland-Dominated Estuaries
Coastal tidal wetlands and estuaries play important roles in the global carbon budget by contributing to the net withdrawal of CO2 from the atmosphere. We quantified the linkages between terrestrial and oceanic systems, marsh-to-bay carbon exchange, and the uptake of CO2 from the atmosphere in the w...
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American Association for the Advancement of Science (AAAS)
2025-01-01
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| Series: | Ocean-Land-Atmosphere Research |
| Online Access: | https://spj.science.org/doi/10.34133/olar.0091 |
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| author | Charles S. Hopkinson Nathaniel B. Weston Joseph J. Vallino Robert H. Garritt Inke Forbrich |
| author_facet | Charles S. Hopkinson Nathaniel B. Weston Joseph J. Vallino Robert H. Garritt Inke Forbrich |
| author_sort | Charles S. Hopkinson |
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| description | Coastal tidal wetlands and estuaries play important roles in the global carbon budget by contributing to the net withdrawal of CO2 from the atmosphere. We quantified the linkages between terrestrial and oceanic systems, marsh-to-bay carbon exchange, and the uptake of CO2 from the atmosphere in the wetland-dominated Plum Island Sound (MA, USA) and Duplin River (GA, USA) estuaries. The C budgets revealed that autotrophic marshes [primary production:ecosystem respiration (P:R) ~1.3:1] are tightly coupled to heterotrophic aquatic systems (P:R ~0.6:1). Levels of marsh gross primary production are similar in these systems (865 ± 39 and 768 ± 74 gC m−2 year−1 in Plum Island and the Duplin, respectively) even though they are in different biogeographic provinces. In contrast to inputs from rivers and coastal oceans, tidal marshes are the dominant source of allochthonous matter that supports heterotrophy in aquatic systems. Dissolved inorganic carbon (DIC) exported from marshes to the coastal ocean was a major flux pathway in the Duplin River; however, there was no evidence of DIC export from Plum Island marshes and only minor export to the ocean. Burial was a sink for 53% of marsh net ecosystem production (NEP) on Plum Island, but only 19% of marsh NEP in the Duplin. Burial was the dominant blue carbon sequestration pathway at Plum Island, whereas in the Duplin, DIC and organic carbon export to the ocean were equally important. Regional- and continental-scale C budgets should better reflect wetland-dominated systems to more accurately characterize their contribution to global CO2 sequestration. |
| format | Article |
| id | doaj-art-1d8c163d5aad442cbce90efa6d1bfef5 |
| institution | Kabale University |
| issn | 2771-0378 |
| language | English |
| publishDate | 2025-01-01 |
| publisher | American Association for the Advancement of Science (AAAS) |
| record_format | Article |
| series | Ocean-Land-Atmosphere Research |
| spelling | doaj-art-1d8c163d5aad442cbce90efa6d1bfef52025-08-20T03:48:13ZengAmerican Association for the Advancement of Science (AAAS)Ocean-Land-Atmosphere Research2771-03782025-01-01410.34133/olar.0091Comparative Metabolism and Blue Carbon Sequestration of Two Wetland-Dominated EstuariesCharles S. Hopkinson0Nathaniel B. Weston1Joseph J. Vallino2Robert H. Garritt3Inke Forbrich4Department of Marine Sciences, University of Georgia, Athens, GA 30602, USA.Department of Geography and the Environment, Villanova University, Villanova, PA 19085, USA.The Ecosystems Center, MBL, Woods Hole, MA 02543, USA.The Ecosystems Center, MBL, Woods Hole, MA 02543, USA.Department of Environmental Sciences, University of Toledo, Toledo, OH 43606, USA.Coastal tidal wetlands and estuaries play important roles in the global carbon budget by contributing to the net withdrawal of CO2 from the atmosphere. We quantified the linkages between terrestrial and oceanic systems, marsh-to-bay carbon exchange, and the uptake of CO2 from the atmosphere in the wetland-dominated Plum Island Sound (MA, USA) and Duplin River (GA, USA) estuaries. The C budgets revealed that autotrophic marshes [primary production:ecosystem respiration (P:R) ~1.3:1] are tightly coupled to heterotrophic aquatic systems (P:R ~0.6:1). Levels of marsh gross primary production are similar in these systems (865 ± 39 and 768 ± 74 gC m−2 year−1 in Plum Island and the Duplin, respectively) even though they are in different biogeographic provinces. In contrast to inputs from rivers and coastal oceans, tidal marshes are the dominant source of allochthonous matter that supports heterotrophy in aquatic systems. Dissolved inorganic carbon (DIC) exported from marshes to the coastal ocean was a major flux pathway in the Duplin River; however, there was no evidence of DIC export from Plum Island marshes and only minor export to the ocean. Burial was a sink for 53% of marsh net ecosystem production (NEP) on Plum Island, but only 19% of marsh NEP in the Duplin. Burial was the dominant blue carbon sequestration pathway at Plum Island, whereas in the Duplin, DIC and organic carbon export to the ocean were equally important. Regional- and continental-scale C budgets should better reflect wetland-dominated systems to more accurately characterize their contribution to global CO2 sequestration.https://spj.science.org/doi/10.34133/olar.0091 |
| spellingShingle | Charles S. Hopkinson Nathaniel B. Weston Joseph J. Vallino Robert H. Garritt Inke Forbrich Comparative Metabolism and Blue Carbon Sequestration of Two Wetland-Dominated Estuaries Ocean-Land-Atmosphere Research |
| title | Comparative Metabolism and Blue Carbon Sequestration of Two Wetland-Dominated Estuaries |
| title_full | Comparative Metabolism and Blue Carbon Sequestration of Two Wetland-Dominated Estuaries |
| title_fullStr | Comparative Metabolism and Blue Carbon Sequestration of Two Wetland-Dominated Estuaries |
| title_full_unstemmed | Comparative Metabolism and Blue Carbon Sequestration of Two Wetland-Dominated Estuaries |
| title_short | Comparative Metabolism and Blue Carbon Sequestration of Two Wetland-Dominated Estuaries |
| title_sort | comparative metabolism and blue carbon sequestration of two wetland dominated estuaries |
| url | https://spj.science.org/doi/10.34133/olar.0091 |
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