Evaluating the Impacts of Land Use and Climate Change on the Hydrology of Headwater Wetlands in the Coastal Plain of Virginia PDF Download
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Author: Pamela Braff
Publisher:
ISBN:
Category : Climatic changes
Languages : en
Pages :
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Book Description
Located at the interface between uplands and surface water networks, headwater wetlands act as a natural filter to improve downstream water quality and play a critical role in maintaining the ecological integrity of downstream aquatic ecosystems. Vulnerable to development pressure, as well as indirect impacts from land use and climate change, the loss and alteration of headwater wetlands has been linked to the loss of biodiversity and regional water quality declines worldwide. The overall goal of this dissertation is to address some of the challenges associated with the management and conservation of headwater wetlands in the coastal plain of Virginia including: the identification of palustrine forested wetlands in flat coastal landscapes (Chapter II); and improved understanding of the impacts of land use (Chapter III) and climate change (Chapter IV) on the hydrologic regime of headwater wetlands. First, a simple model of wetland distribution was developed by characterizing the depth to groundwater using widely available geospatial data, including surface water features and a high-resolution digital elevation model. Comparison with the National Wetland Inventory (NWI) and targeted field validation indicated that this model provides an effective approach to identify palustrine forested wetlands often unmapped by NWI. Results from this study indicate that there may be at least 37% more wetland area than is currently mapped within the study area; and that in the future, modeling approaches should be used in addition to NWI mapping to better understand the full extent and distribution of wetlands in forested areas. The impacts of land use and climate change were then investigated through field studies of headwater wetland hydrology and community composition. Potential differences in headwater wetland hydrology were evaluated through an index of hydrophytic vegetation occurrence, the wetland prevalence index (PI). Changes in PI between sapling and canopy strata, with respect to local land use, indicated that decreased forest cover was associated with a shift in plant community composition, and that increasing road density was associated with a shift towards more upland type species, while increasing agricultural cover was associated with a shift towards more wetland type species. The effects of climate change, including rising temperatures and altered precipitation patterns were evaluated by developing an empirical model of water table depth for coastal headwater wetlands. Wetland water levels were simulated under current and potential future conditions to evaluate the impact of climate change on the hydrologic regime of headwater wetlands. Based on the model scenarios applied in this study, it appears that decreasing water availability may lead to drier conditions at headwater wetlands by the end of the 21st century, with a substantial decline in minimum water levels and a 3-10% decline in average annual percent saturation. Collectively, the results of this dissertation provide practical insights for improving the conservation and management of coastal headwater wetlands. Improved understanding of the extent and distribution of previously unmapped forested wetlands can improve the capacity to monitor wetland loss and degradation. Additionally, clarifying the influence of land use and climate on the hydrologic regime of these wetlands, can help improve the capacity to forecast and then mitigate potential future impacts to wetland hydrology.
Author: Pamela Braff
Publisher:
ISBN:
Category : Climatic changes
Languages : en
Pages :
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Book Description
Located at the interface between uplands and surface water networks, headwater wetlands act as a natural filter to improve downstream water quality and play a critical role in maintaining the ecological integrity of downstream aquatic ecosystems. Vulnerable to development pressure, as well as indirect impacts from land use and climate change, the loss and alteration of headwater wetlands has been linked to the loss of biodiversity and regional water quality declines worldwide. The overall goal of this dissertation is to address some of the challenges associated with the management and conservation of headwater wetlands in the coastal plain of Virginia including: the identification of palustrine forested wetlands in flat coastal landscapes (Chapter II); and improved understanding of the impacts of land use (Chapter III) and climate change (Chapter IV) on the hydrologic regime of headwater wetlands. First, a simple model of wetland distribution was developed by characterizing the depth to groundwater using widely available geospatial data, including surface water features and a high-resolution digital elevation model. Comparison with the National Wetland Inventory (NWI) and targeted field validation indicated that this model provides an effective approach to identify palustrine forested wetlands often unmapped by NWI. Results from this study indicate that there may be at least 37% more wetland area than is currently mapped within the study area; and that in the future, modeling approaches should be used in addition to NWI mapping to better understand the full extent and distribution of wetlands in forested areas. The impacts of land use and climate change were then investigated through field studies of headwater wetland hydrology and community composition. Potential differences in headwater wetland hydrology were evaluated through an index of hydrophytic vegetation occurrence, the wetland prevalence index (PI). Changes in PI between sapling and canopy strata, with respect to local land use, indicated that decreased forest cover was associated with a shift in plant community composition, and that increasing road density was associated with a shift towards more upland type species, while increasing agricultural cover was associated with a shift towards more wetland type species. The effects of climate change, including rising temperatures and altered precipitation patterns were evaluated by developing an empirical model of water table depth for coastal headwater wetlands. Wetland water levels were simulated under current and potential future conditions to evaluate the impact of climate change on the hydrologic regime of headwater wetlands. Based on the model scenarios applied in this study, it appears that decreasing water availability may lead to drier conditions at headwater wetlands by the end of the 21st century, with a substantial decline in minimum water levels and a 3-10% decline in average annual percent saturation. Collectively, the results of this dissertation provide practical insights for improving the conservation and management of coastal headwater wetlands. Improved understanding of the extent and distribution of previously unmapped forested wetlands can improve the capacity to monitor wetland loss and degradation. Additionally, clarifying the influence of land use and climate on the hydrologic regime of these wetlands, can help improve the capacity to forecast and then mitigate potential future impacts to wetland hydrology.
Author: Josef Křeček
Publisher: Springer Science & Business Media
ISBN: 9781402042270
Category : Nature
Languages : en
Pages : 372
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Book Description
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Author: Vijay P. Singh
Publisher: Allied Publishers
ISBN: 9788177645477
Category : Groundwater
Languages : en
Pages : 588
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Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 342
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Book Description
Author: Peter J. Buzzanell
Publisher:
ISBN:
Category : Coastal ecology
Languages : en
Pages : 42
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Book Description
Author: Carl H. Hershner
Publisher:
ISBN:
Category : Wetlands
Languages : en
Pages : 8
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Book Description
Author: Aliana Britson
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
There is increasing evidence that elevated levels of nitrate are degrading aquatic ecosystems while increasing atmospheric carbon levels are leading to global climatic shifts. Riparian wetlands may alleviate the impacts of elevated nitrate and atmospheric carbon through denitrification and long-term carbon storage. However, anthropogenic impacts in the surrounding landscape likely affect the ability of riparian wetlands to provide these ecosystem services. Changes in land-use regimes surrounding riparian wetlands has been known to alter plant communities, hydrology, and soils. However, few studies examine whether the different plant communities associated with land-use regime affect decomposition or total carbon inputs and outputs within these wetlands and whether these differences lead to differential carbon storage. For denitrification, surrounding-land use likely influences the concentration of important abiotic parameters such as nitrate and dissolved organic carbon. However, it is not understood how surrounding land-use influences the distribution of these parameters and thus the distribution of denitrification in space and time. To better understand the influences of land-use on denitrification and carbon storage, three high disturbance and three low disturbance headwater wetlands were selected. Factors known to affect denitrification in shallow groundwater were analyzed at a meter scale and used to construct functional habitats to examine the combined effects of multiple parameters on denitrification. To examine effects of plant community on carbon storage I classified the sites by plant community, performed a yearlong decomposition experiment, and measured organic carbon inputs and outputs at each site. Five distinct denitrification functional habitats were identified across the six sites. Distribution of three out of five functional habitats differed between high and low disturbance sites, indicating that surrounding land-use regime likely influences the spatial characteristics of biogeochemical parameters important to denitrification. Carbon storage differed between the plant communities, with low disturbance sites dominated by Tsuga canadensis having the highest soil carbon levels. The differences in carbon storage were likely due to differential decomposition and carbon inputs and outputs between the different plant communities. Litter quality was found to be a large driver of decomposition dynamics, as litter with greater percent C, percent lignin, C:N ratios, and lignin:N ratios decomposed more slowly. Furthermore, significant differences in dissolved organic carbon concentration and quality, as well as soil carbon content and quality between high and low disturbance sites indicate shifts in carbon dynamics which can likely be attributed to differences in plant community. Overall, large changes were seen in carbon dynamics and biogeochemical parameters associated with denitrification between high and low disturbance sites, indicating that surrounding land use has a large effect on C and N cycling in headwater wetlands.
Author: Glenn R. Guntenspergen
Publisher:
ISBN:
Category : Climatic changes
Languages : en
Pages : 120
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Author: David Bosch
Publisher:
ISBN:
Category : Streamflow
Languages : en
Pages :
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Author: Virginia. Division of State Planning and Community Affairs
Publisher:
ISBN:
Category : Conservation of natural resources
Languages : en
Pages : 130
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Book Description
