2020
DOI: 10.1088/1748-9326/ab7a56
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Climate and anthropogenic controls on blue carbon sequestration in Hudson River tidal marsh, Piermont, New York

Abstract: Tidal marshes globally are experiencing erosion with sea level rise. In order to adaptively plan for essential marsh preservation, we recognize the importance of the investigation of marsh archives for the perspective they provide toward resilience. Our objective in this study is to examine the relationship of tidal marsh carbon sequestration with both climate change and human impact throughout past centuries and millennia. A Hudson River marsh sediment core spanning the last 2000 years is analyzed for bulk lo… Show more

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Cited by 11 publications
(12 citation statements)
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“…The analysis of climate effects can apply various methods, such as the data interpolating empirical orthogonal functions [108] and fixed rank kriging [109] to fill the gaps in the chlorophyll-a and SST data occurring due to cloud cover. In addition, several other climatic phenomena, such as typhoons [110], storms [111,112], heat waves [113], and droughts [114] have been reported to significantly affect the blue carbon ecosystems; thus, these climatic events should be comprehensively studied. Additionally, physiochemical parameters, such as salinity [115][116][117], total suspended solids [118], and colored dissolved organic matter [119], that can be extracted through remote sensing can be used to build more complex and comprehensive models.…”
Section: Future Research Directivesmentioning
confidence: 99%
“…The analysis of climate effects can apply various methods, such as the data interpolating empirical orthogonal functions [108] and fixed rank kriging [109] to fill the gaps in the chlorophyll-a and SST data occurring due to cloud cover. In addition, several other climatic phenomena, such as typhoons [110], storms [111,112], heat waves [113], and droughts [114] have been reported to significantly affect the blue carbon ecosystems; thus, these climatic events should be comprehensively studied. Additionally, physiochemical parameters, such as salinity [115][116][117], total suspended solids [118], and colored dissolved organic matter [119], that can be extracted through remote sensing can be used to build more complex and comprehensive models.…”
Section: Future Research Directivesmentioning
confidence: 99%
“…The objective of this study is to examine the effects of short and long-term climate and anthropic controls on the different types of carbon sequestration in urban tidal marshes. Coastal wetlands which include coastal and riverine marshes, seagrass meadows, mangroves, and tidal wetlands are known as "blue carbon" wetlands (Peteet et al, 2020). Although these ecosystems are small in area, they are among the world's largest carbon sinks per unit area because of their continuous carbon influx (Chmura et al, 2003;Bridgham et al, 2006).…”
Section: Description Of the Case Studymentioning
confidence: 99%
“…Determining the amount of C sequestered and methods to increase accumulation of C within urban coastal ecosystems will enable coastal communities to develop adaptation, mitigation, and resilience strategies to combat the impacts of global climate change. Climate adaptation plans should include (Peteet et al, 2020;Haight et al, 2019;NYC Parks, 2018) :…”
Section: Description Of the Case Studymentioning
confidence: 99%
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