Mapping watershed integrity for the conterminous United States

•An Index of Watershed Integrity (IWI) was developed for 2.6 million US watersheds.•A related Index of Catchment Integrity was developed based on local drainages.•There is high integrity in the western US and lower integrity in the temperate plains.•Nationally, the IWI accounts for 25–27% of variati...

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Published inEcological indicators Vol. 85; no. C; pp. 1133 - 1148
Main Authors Thornbrugh, Darren J., Leibowitz, Scott G., Hill, Ryan A., Weber, Marc H., Johnson, Zachary C., Olsen, Anthony R., Flotemersch, Joseph E., Stoddard, John L., Peck, David V.
Format Journal Article
LanguageEnglish
Published United States Elsevier Ltd 01.02.2018
Elsevier
Subjects
Anthropogenic stressors
Catchment integrity
ICI
IWI
NRSA
StreamCat
Sustainable watershed management
Water quality
Catchment integrity
Anthropogenic stressors
NRSA
StreamCat
Water quality
Sustainable watershed management
IWI
ICI
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Abstract •An Index of Watershed Integrity (IWI) was developed for 2.6 million US watersheds.•A related Index of Catchment Integrity was developed based on local drainages.•There is high integrity in the western US and lower integrity in the temperate plains.•Nationally, the IWI accounts for 25–27% of variation in two site-level water quality metrics.•The IWI could be useful for management efforts, but missing data need to be noted. Watershed integrity is the capacity of a watershed to support and maintain the full range of ecological processes and functions essential to sustainability. Using information from EPA’s StreamCat dataset, we calculated and mapped an Index of Watershed Integrity (IWI) for 2.6 million watersheds in the conterminous US with first-order approximations of relationships between stressors and six watershed functions: hydrologic regulation, regulation of water chemistry, sediment regulation, hydrologic connectivity, temperature regulation, and habitat provision. Results show high integrity in the western US, intermediate integrity in the southern and eastern US, and the lowest integrity in the temperate plains and lower Mississippi Valley. Correlation between the six functional components was high (r=0.85–0.98). A related Index of Catchment Integrity (ICI) was developed using local drainages of individual stream segments (i.e., excluding upstream information). We evaluated the ability of the IWI and ICI to predict six continuous site-level indicators with regression analyses – three biological indicators and principal components derived from water quality, habitat, and combined water quality and habitat variables – using data from EPA’s National Rivers and Streams Assessment. Relationships were highly significant, but the IWI only accounted for 1–12% of the variation in the four biological and habitat variables. The IWI accounted for over 25% of the variation in the water quality and combined principal components nationally, and 32–39% in the Northern and Southern Appalachians. We also used multinomial logistic regression to compare the IWI with the categorical forms of the three biological indicators. Results were consistent: we found positive associations but modest results. We compared how the IWI and ICI predicted the water quality PC relative to agricultural and urban land use. The IWI or ICI are the best predictors of the water quality PC for the CONUS and six of the nine ecoregions, but they only perform marginally better than agriculture in most instances. However, results suggest that agriculture would not be appropriate in all parts of the country, and the index is meant to be responsive to all stressors. The IWI in its present form (available through the StreamCat website; https://www.epa.gov/national-aquatic-resource-surveys/streamcat) could be useful for management efforts at multiple scales, especially when combined with information on site condition. The IWI could be improved by incorporating empirical or literature-derived relationships between functional components and stressors. However, limitations concerning the absence of data for certain stressors should be considered.
AbstractList Watershed integrity is the capacity of a watershed to support and maintain the full range of ecological processes and functions essential to sustainability. Using information from EPA’s StreamCat dataset, we calculated and mapped an Index of Watershed Integrity (IWI) for 2.6 million watersheds in the conterminous US with first-order approximations of relationships between stressors and six watershed functions: hydrologic regulation, regulation of water chemistry, sediment regulation, hydrologic connectivity, temperature regulation, and habitat provision. Results show high integrity in the western US, intermediate integrity in the southern and eastern US, and the lowest integrity in the temperate plains and lower Mississippi Valley. Correlation between the six functional components was high ( r = 0.85-0.98). A related Index of Catchment Integrity (ICI) was developed using local drainages of individual stream segments (i.e., excluding upstream information). We evaluated the ability of the IWI and ICI to predict six continuous site-level indicators with regression analyses – three biological indicators and principal components derived from water quality, habitat, and combined water quality and habitat variables – using data from EPA’s National Rivers and Streams Assessment. Relationships were highly significant, but the IWI only accounted for 1-12% of the variation in the four biological and habitat variables. The IWI accounted for over 25% of the variation in the water quality and combined principal components nationally, and 32-39% in the Northern and Southern Appalachians. We also used multinomial logistic regression to compare the IWI with the categorical forms of the three biological indicators. Results were consistent: we found positive associations but modest results. We compared how the IWI and ICI predicted the water quality PC relative to agricultural and urban land use. The IWI or ICI are the best predictors of the water quality PC for the CONUS and six of the nine ecoregions, but they only perform marginally better than agriculture in most instances. However, results suggest that agriculture would not be appropriate in all parts of the country, and the index is meant to be responsive to all stressors. The IWI in its present form (available through the StreamCat website; https://www.epa.gov/national-aquatic-resource-surveys/streamcat ) could be useful for management efforts at multiple scales, especially when combined with information on site condition. The IWI could be improved by incorporating empirical or literature-derived relationships between functional components and stressors. However, limitations concerning the absence of data for certain stressors should be considered.
Watershed integrity is the capacity of a watershed to support and maintain the full range of ecological processes and functions essential to sustainability. Using information from EPA's StreamCat dataset, we calculated and mapped an Index of Watershed Integrity (IWI) for 2.6 million watersheds in the conterminous US with first-order approximations of relationships between stressors and six watershed functions: hydrologic regulation, regulation of water chemistry, sediment regulation, hydrologic connectivity, temperature regulation, and habitat provision. Results show high integrity in the western US, intermediate integrity in the southern and eastern US, and the lowest integrity in the temperate plains and lower Mississippi Valley. Correlation between the six functional components was high ( = 0.85-0.98). A related Index of Catchment Integrity (ICI) was developed using local drainages of individual stream segments (i.e., excluding upstream information). We evaluated the ability of the IWI and ICI to predict six continuous site-level indicators with regression analyses - three biological indicators and principal components derived from water quality, habitat, and combined water quality and habitat variables - using data from EPA's National Rivers and Streams Assessment. Relationships were highly significant, but the IWI only accounted for 1-12% of the variation in the four biological and habitat variables. The IWI accounted for over 25% of the variation in the water quality and combined principal components nationally, and 32-39% in the Northern and Southern Appalachians. We also used multinomial logistic regression to compare the IWI with the categorical forms of the three biological indicators. Results were consistent: we found positive associations but modest results. We compared how the IWI and ICI predicted the water quality PC relative to agricultural and urban land use. The IWI or ICI are the best predictors of the water quality PC for the CONUS and six of the nine ecoregions, but they only perform marginally better than agriculture in most instances. However, results suggest that agriculture would not be appropriate in all parts of the country, and the index is meant to be responsive to all stressors. The IWI in its present form (available through the StreamCat website; https://www.epa.gov/national-aquatic-resource-surveys/streamcat) could be useful for management efforts at multiple scales, especially when combined with information on site condition. The IWI could be improved by incorporating empirical or literature-derived relationships between functional components and stressors. However, limitations concerning the absence of data for certain stressors should be considered.
•An Index of Watershed Integrity (IWI) was developed for 2.6 million US watersheds.•A related Index of Catchment Integrity was developed based on local drainages.•There is high integrity in the western US and lower integrity in the temperate plains.•Nationally, the IWI accounts for 25–27% of variation in two site-level water quality metrics.•The IWI could be useful for management efforts, but missing data need to be noted. Watershed integrity is the capacity of a watershed to support and maintain the full range of ecological processes and functions essential to sustainability. Using information from EPA’s StreamCat dataset, we calculated and mapped an Index of Watershed Integrity (IWI) for 2.6 million watersheds in the conterminous US with first-order approximations of relationships between stressors and six watershed functions: hydrologic regulation, regulation of water chemistry, sediment regulation, hydrologic connectivity, temperature regulation, and habitat provision. Results show high integrity in the western US, intermediate integrity in the southern and eastern US, and the lowest integrity in the temperate plains and lower Mississippi Valley. Correlation between the six functional components was high (r=0.85–0.98). A related Index of Catchment Integrity (ICI) was developed using local drainages of individual stream segments (i.e., excluding upstream information). We evaluated the ability of the IWI and ICI to predict six continuous site-level indicators with regression analyses – three biological indicators and principal components derived from water quality, habitat, and combined water quality and habitat variables – using data from EPA’s National Rivers and Streams Assessment. Relationships were highly significant, but the IWI only accounted for 1–12% of the variation in the four biological and habitat variables. The IWI accounted for over 25% of the variation in the water quality and combined principal components nationally, and 32–39% in the Northern and Southern Appalachians. We also used multinomial logistic regression to compare the IWI with the categorical forms of the three biological indicators. Results were consistent: we found positive associations but modest results. We compared how the IWI and ICI predicted the water quality PC relative to agricultural and urban land use. The IWI or ICI are the best predictors of the water quality PC for the CONUS and six of the nine ecoregions, but they only perform marginally better than agriculture in most instances. However, results suggest that agriculture would not be appropriate in all parts of the country, and the index is meant to be responsive to all stressors. The IWI in its present form (available through the StreamCat website; https://www.epa.gov/national-aquatic-resource-surveys/streamcat) could be useful for management efforts at multiple scales, especially when combined with information on site condition. The IWI could be improved by incorporating empirical or literature-derived relationships between functional components and stressors. However, limitations concerning the absence of data for certain stressors should be considered.
Author Peck, David V.
Flotemersch, Joseph E.
Leibowitz, Scott G.
Thornbrugh, Darren J.
Olsen, Anthony R.
Hill, Ryan A.
Johnson, Zachary C.
Stoddard, John L.
Weber, Marc H.
AuthorAffiliation a Oak Ridge Institute for Science and Education (ORISE) Post-Doctoral Fellow c/o U.S. Environmental Protection Agency, National Health and Environmental Effects Research Laboratory, Western Ecology Division, 200 SW 35 th St., Corvallis, OR 97333, USA
c U.S. Environmental Protection Agency, National Health and Environmental Effects Research Laboratory, 200 SW 35 th St., Corvallis, OR 97333 USA
d U.S. Environmental Protection Agency, National Exposure Research Laboratory, 26 W. Martin Luther King Dr., Cincinnati, OH 45268 USA
AuthorAffiliation_xml – name: a Oak Ridge Institute for Science and Education (ORISE) Post-Doctoral Fellow c/o U.S. Environmental Protection Agency, National Health and Environmental Effects Research Laboratory, Western Ecology Division, 200 SW 35 th St., Corvallis, OR 97333, USA
– name: c U.S. Environmental Protection Agency, National Health and Environmental Effects Research Laboratory, 200 SW 35 th St., Corvallis, OR 97333 USA
– name: d U.S. Environmental Protection Agency, National Exposure Research Laboratory, 26 W. Martin Luther King Dr., Cincinnati, OH 45268 USA
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  surname: Thornbrugh
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  givenname: Anthony R.
  surname: Olsen
  fullname: Olsen, Anthony R.
  organization: U.S. Environmental Protection Agency, National Health and Environmental Effects Research Laboratory, 200 SW 35th St., Corvallis, OR 97333, USA
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Issue C
Keywords Catchment integrity
Anthropogenic stressors
NRSA
StreamCat
Water quality
Sustainable watershed management
IWI
ICI
Language English
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Present address: National Park Service, Northern Great Plains Network, 231 East St. Joseph St., Rapid City, SD 55701 USA
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Snippet •An Index of Watershed Integrity (IWI) was developed for 2.6 million US watersheds.•A related Index of Catchment Integrity was developed based on local...
Watershed integrity is the capacity of a watershed to support and maintain the full range of ecological processes and functions essential to sustainability....
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StartPage 1133
SubjectTerms Anthropogenic stressors
Catchment integrity
ICI
IWI
NRSA
StreamCat
Sustainable watershed management
Water quality
Title Mapping watershed integrity for the conterminous United States
URI https://dx.doi.org/10.1016/j.ecolind.2017.10.070
https://www.ncbi.nlm.nih.gov/pubmed/29628801
https://search.proquest.com/docview/2023410500
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https://pubmed.ncbi.nlm.nih.gov/PMC5884453
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