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Research ArticleResearch Section

Using ArcGIS hydrologic modeling and LiDAR digital elevation data to evaluate surface runoff interception performance of riparian vegetative filter strip buffers in central Iowa

M. Shrivastav, S.K. Mickelson and D. Webber
Journal of Soil and Water Conservation January 2020, 75 (1) 123-129; DOI: https://doi.org/10.2489/jswc.75.1.123
M. Shrivastav
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S.K. Mickelson
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D. Webber
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References

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    . 2018. Assessing surface flowpath interception by vegetative buffers using ArcGIS hydrologic modeling and geospatial analysis for Rock Creek watershed in central Iowa. The 10th Annual ASABE Drainage Symposium “Advances in Drainage” Special Collection. Transactions of the ASABE 61(1):273-283.
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Journal of Soil and Water Conservation: 75 (1)
Journal of Soil and Water Conservation
Vol. 75, Issue 1
January/February 2020
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Using ArcGIS hydrologic modeling and LiDAR digital elevation data to evaluate surface runoff interception performance of riparian vegetative filter strip buffers in central Iowa
M. Shrivastav, S.K. Mickelson, D. Webber
Journal of Soil and Water Conservation Jan 2020, 75 (1) 123-129; DOI: 10.2489/jswc.75.1.123

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Using ArcGIS hydrologic modeling and LiDAR digital elevation data to evaluate surface runoff interception performance of riparian vegetative filter strip buffers in central Iowa
M. Shrivastav, S.K. Mickelson, D. Webber
Journal of Soil and Water Conservation Jan 2020, 75 (1) 123-129; DOI: 10.2489/jswc.75.1.123
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Keywords

  • best management practices (BMPs)
  • coefficient of flow interception
  • digital elevation model
  • light detection and ranging (LiDAR)
  • nonpoint source pollution
  • vegetative filter strip

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