Factors controlling streambank erosion and phosphorus loss in claypan watersheds

References

1. 1. Belmont P.,
   2. Gran K.G.,
   3. Schottler S.P.,
   4. Wilcock P.R.,
   5. Day S.S.,
   6. Jennings C.,
   7. Lauer J.W.,
   8. Viparelli E.,
   9. Willenbring J.K.,
   10. Engstrom D.R.,
   11. Parker G.

   . 2011. Large shift in source of fine sediment in the Upper Mississippi River. Environmental Science and Technology 45:8804-8810.

   OpenUrlPubMed
2. 1. Belsky A.J.,
   2. Matzke A.,
   3. Uselman S.

   . 1999. Survey of livestock influences on stream and riparian ecosystems in the western United States. Journal of Soil and Water Conservation 54(1):419-419.

   OpenUrlAbstract/FREE Full Text
3. 1. Dewald T.G.,
   2. Roth K.S.

   . 1998. The National Hydrography Dataset – Integrating the USEPA Reach File and USGS DLG. In Proceedings of the 1998 ESRI User Conference, San Diego, California, March 4, 1999. Redlands, CA: Environmental Systems Research Institute.
4. 1. Dick W.A.,
   2. Tabatabai M.A.

   . 1977. An alkaline oxidation method for determination of total phosphorus in soils. Soil Science Society of America Journal 40:511-514.

   OpenUrl
5. 1. Fitzpatrick F.A.,
   2. Knox J.C.,
   3. Whitman H.E.

   . 1999. Effects of Historical Land-Cover Changes on Flooding and Sedimentation, North Creek, Wisconsin. US Geological Survey Water Resources Investigations Report 99-4083. Bayfield County, WI: US Geological Survey and Wisconsin Water Science Center. https://pubs.er.usgs.gov/publication/wri994083.
6. 1. Fox G.A.,
   2. Purvis R.A.,
   3. Penn C.J.

   . 2016. Streambanks: A net source of sediment and phosphorus to streams and rivers. Journal of Environmental Management 181:602-614.

   OpenUrl
7. 1. Fox G.A.,
   2. Wilson G.V.

   . 2010. The role of subsurface flow in hillslope and stream bank erosion: A review. Soil Science Society of America Journal 74:717-733.

   OpenUrlCrossRefWeb of Science
8. 1. Lawler D.M.,
   2. Grove J.R.,
   3. Couperthwaite J.S.,
   4. Leeks G.J.L.

   . 1999. Downstream change in river bank erosion rates in the Swale-Ouse system, northern England. Hydrological Processes 13:977-992.

   OpenUrlCrossRefGeoRefWeb of Science
9. 1. Lerch R.N.,
   2. Kitchen N.R.,
   3. Baffaut C.,
   4. Vories E.D.

   . 2015. Long-term agroecosystem research in the Central Mississippi River Basin: Goodwater Creek experimental watershed and regional nutrient water quality data. Journal of Environmental Quality 44:37-43.

   OpenUrl
10. 1. Lerch R.N.,
    2. Sadler E.J.,
    3. Kitchen N.R.,
    4. Sudduth K.A.,
    5. Kremer R.J.,
    6. Meyers D.B.,
    7. Baffaut C.,
    8. Anderson S.H.,
    9. Lin C.H.

    . 2008. Overview of the Mark Twain/Salt River Basin conservation effects assessment project. Journal of Soil and Water Conservation 63(6):345-359, doi:10.2489/jswc.63.6.345.

    OpenUrlAbstract/FREE Full Text
11. 1. Line D.E.,
    2. Harman W.A.,
    3. Jennings G.D.,
    4. Thompson E.J.,
    5. Osmond D.L.

    . 2000. Nonpoint-source pollutant load reductions associated with livestock exclusion. Journal of Environmental Quality 29:1882-1890.

    OpenUrlWeb of Science
12. 1. Lyons J.,
    2. Weasel B.M.,
    3. Paine L.K.,
    4. Undersander D.J.

    . 2000. Influence of intensive rotational grazing on bank erosion, fish habitat quality, and fish communities in southwestern Wisconsin trout streams. Journal of Soil and Water Conservation 55(3):271-271.

    OpenUrlAbstract/FREE Full Text
13. 1. Magner J.A.,
    2. Vondracek B.,
    3. Brooks K.N.

    . 2008. Grazed riparian management and stream channel response in southeastern Minnesota (USA) streams. Environmental Management 42:377-390.

    OpenUrlCrossRefPubMed
14. 1. McBride M.,
    2. Hession W.C.,
    3. Rizzo D.M.,
    4. Thompson D.M.

    . 2007. The influence of riparian vegetation on near-bank turbulence: A flume experiment. Earth Surface Processes and Landforms 32:2019-2037.

    OpenUrlGeoRef
15. 1. Minshall N.E.,
    2. Jamison V.C.

    . 1965. Interflow in claypan soils. Water Resources Research 1:381-390.

    OpenUrl
16. 1. Missouri Mesonet

    . 2016. Missouri Historical Agricultural Weather Database for Auxvasse and Monroe City. Data from 2008-2011. http://agebb.missouri.edu/weather/history/index.asp.
17. 1. Owens L.B.,
    2. Edwards W.M.,
    3. VanKeuren R.W.

    . 1996. Sediment losses from a pastured watershed before and after stream fencing. Journal of Soil and Water Conservation 51(1):90-90.

    OpenUrlAbstract/FREE Full Text
18. 1. Palmer J.A.,
    2. Schilling K.E.,
    3. Isenhart T.M.,
    4. Schultz R.C.,
    5. Tomer M.D.

    . 2014. Streambank erosion rates and loads within a single watershed: Bridging the gap between temporal and spatial scales. Geomorphology 209:66-78.

    OpenUrlGeoRef
19. 1. Peacher R.D.

    2011. Impacts of Land Use on Stream Bank Erosion in the Northeast Missouri Claypan Region, Master's thesis, Iowa State University.
20. 1. Peters G.R.

    2015. Controls of Stream and Springflow Generation and Their Significance in Contaminant Transport to Stream Water within a Claypan Watershed, Master's thesis, Lincoln University.
21. 1. Pimental D.,
    2. Harvey C.,
    3. Resosudarmo P.,
    4. Sinclair K.,
    5. Kurz D.,
    6. McNair M.,
    7. Crist S.,
    8. Shpritz L.,
    9. Fitton L.,
    10. Saffouri R.,
    11. Blar R.

    . 1995. Environmental and economic costs of soil erosion and conservation benefits. Science 267:1117-1123.

    OpenUrlAbstract/FREE Full Text
22. 1. Raymond K.L.,
    2. Vondracek B.

    . 2011. Relationships among rotational and conventional grazing systems, stream channels, and macroinvertebrates. Hydrobiologia 699:105-117.

    OpenUrl
23. 1. Ribaudo M.,
    2. Delgado J.,
    3. Hansen L.,
    4. Livingston M.,
    5. Mosheim R.,
    6. Williamson J.

    . 2011. Nitrogen in Agricultural Systems: Implications for Conservation Policy. Economic Research Report Number 127. Washington, DC: USDA Economics Research Service.
24. 1. Robertson D.M.,
    2. Saad D.A.

    . 2011. Nutrient inputs to the Laurentian Great Lakes by source and watershed estimated using SPARROW watershed models. Journal of the American Water Resources Association 47:1011-1033.

    OpenUrlCrossRefPubMedWeb of Science
25. 1. Rosgen D.

    2001. A practical method of computing streambank erosion rate. In Proceedings of the Seventh Federal Interagency Sedimentation Conference. Reno, Nevada, March 25 to 29, 2001. https://pubs.usgs.gov/misc/FISC_1947-2006/pdf/1st-7thFISCs-CD/7thFISC/7Fisc-V1/7FISC1-2.pdf#page=12.
26. 1. Schilling K.E.,
    2. Chan K.-S.,
    3. Liu H.,
    4. Zhang Y.-K.

    . 2010. Quantifying the effect of land use land cover change on increasing discharge in the Upper Mississippi River. Journal of Hydrology 387:343-345.

    OpenUrlCrossRefGeoRef
27. 1. Schilling K.E.,
    2. Isenhart T.M.,
    3. Palmer J.A.,
    4. Wolter C.F.,
    5. Spooner J.

    . 2011. Impacts of land-cover change on suspended sediment transport in two agricultural watersheds. Journal of the American Water Resources Association 47(4):672-672.

    OpenUrlCrossRefGeoRef
28. 1. Schwarte K.A.,
    2. Russell J.R.,
    3. Kovar J.L.,
    4. Morrical D.G.,
    5. Ensley S.M.,
    6. Yoon K.J.,
    7. Cornick N.A.,
    8. Cho Y.I.

    . 2011. Grazing management effects on sediment, phosphorus, and pathogen loading of streams in cool-season grass pastures. Journal of Environmental Quality 40(4):1303-1303.

    OpenUrlPubMed
29. 1. Sekely A.C.,
    2. Mulla D.J.,
    3. Bauer D.W.

    . 2002. Streambank slumping and its contribution to the phosphorus and suspended sediment loads of the Blue Earth River, Minnesota. Journal of Soil and Water Conservation 57(5):243-243.

    OpenUrlAbstract/FREE Full Text
30. 1. Simon A.,
    2. Collison A.J.C.

    . 2002. Quantifying the mechanical and hydrologic effects of riparian vegetation on streambank stability. Earth Surface Processes and Landforms 27:527-546.

    OpenUrlCrossRefGeoRefWeb of Science
31. 1. Simon A.,
    2. Klimetz L.

    . 2008. Relative magnitudes and sources of sediment in benchmark watersheds of the Conservation Effects Assessment Project. Journal of Soil and Water Conservation 63(6):504-522, doi:10.2489/jswc.63.6.504.

    OpenUrlAbstract/FREE Full Text
32. 1. Simon A.,
    2. Rinaldi M.

    . 2000. Channel instability in the loess area of the midwestern United States. Journal of the American Water Resources Association 36(1):133-133.

    OpenUrlCrossRefGeoRefWeb of Science
33. 1. Simon A.,
    2. Rinaldi M.

    . 2006. Disturbance, stream incision, and channel evolution: The roles of excess transport capacity and boundary materials in controlling channel response. Geomorphology 79:361-383.

    OpenUrlCrossRefGeoRefWeb of Science
34. 1. Simonson T.D.,
    2. Lyons J.,
    3. Kanehl P.D.

    . 1994. Guidelines for Evaluating Fish Habitat in Wisconsin Streams. General Technical Report NC-164. St. Paul, MN: USDA Forest Service North Central Forest Experiment Station.
35. 1. Trimble S.W.

    1999. Decreased rates of alluvial sediment storage in the Coon Creek basin, Wisconsin, 1975-93. Science 285:1244.

    OpenUrlAbstract/FREE Full Text
36. 1. Tufekcioglu M.,
    2. Isenhart T.M.,
    3. Schultz R.C.,
    4. Bear D.A.,
    5. Kovar J.L.,
    6. Russell J.R.

    . 2012. Stream bank erosion as a source of sediment and phosphorus in grazed pastures of the Rathbun Lake Watershed in southern Iowa, United States. Journal of Soil and Water Conservation 67(6):545-555, doi:10.2489/jswc.67.6.545.

    OpenUrlAbstract/FREE Full Text
37. 1. Willett C.D.,
    2. Lerch R.N.,
    3. Schultz R.C.,
    4. Berges S.A.,
    5. Peacher R.D.,
    6. Isenhart T.M.

    . 2012. Streambank erosion in two watersheds of the central claypan region of Missouri, USA. Journal of Soil and Water Conservation 67(4):247-261, doi:10.2489/jswc.67.4.249.

    OpenUrl
38. 1. Wilson C.G.,
    2. Kuhnle R.A.,
    3. Bosch D.D.,
    4. Steiner J.L.,
    5. Starks P.J.,
    6. Tomer M.D.,
    7. Wilson G.V.

    . 2008. Quantifying relative contributions from sediment sources in Conservation Effects Assessment Project watersheds. Journal of Soil and Water Conservation 63(6):523-532, doi:10.2489/jswc.63.6.523.

    OpenUrlAbstract/FREE Full Text
39. 1. Wilson C.G.,
    2. Kuhnle R.A.,
    3. Dabney S.M.,
    4. Lerch R.N.,
    5. Huang C.H.,
    6. King K.W.,
    7. Livingston S.J.

    . 2014. Fine sediment sources in Conservation Effects Assessment Project watersheds. Journal of Soil and Water Conservation 69(5):402-413, doi:10.2489/jswc.69.5.402.

    OpenUrlAbstract/FREE Full Text
40. 1. Wolman M.G.

    1959. Factors influencing erosion of a cohesive river bank. American Journal of Science 257:204-216.

    OpenUrlAbstract/FREE Full Text
41. 1. Wynn T.M.,
    2. Henderson M.B.,
    3. Vaughan D.H.

    . 2008. Changes in streambank erodibility and critical shear stress owing to subaerial processes along a headwater stream, southwestern Virginia, USA. Geomorphology 97:260-273.

    OpenUrlCrossRefGeoRefWeb of Science
42. 1. Wynn T.M.,
    2. Mostaghimi S.

    . 2006. The effects of vegetation and soil type on streambank erosion, southwestern Virginia, USA. Journal of the American Water Resources Association 42(1):69-69.

    OpenUrlCrossRefGeoRefWeb of Science
43. 1. Zaimes G.N.,
    2. Schultz R.C.,
    3. Isenhart T.M.

    . 2004. Stream bank erosion adjacent to riparian forest buffers, row-crop fields, and continuously grazed pastures along Bear Creek in central Iowa. Journal of Soil and Water Conservation 59(1):19-19.

    OpenUrlAbstract/FREE Full Text
44. 1. Zaimes G.N.,
    2. Schultz R.C.,
    3. Isenhart T.M.

    . 2006. Riparian land uses and precipitation influences on stream bank erosion in Central Iowa. Journal of the American Water Resources Association 42(1):83-83.

    OpenUrlCrossRefGeoRef
45. 1. Zaimes G.N.,
    2. Schultz R.C.,
    3. Isenhart T.M.

    . 2008a. Streambank soil and phosphorus losses under different riparian land-uses in Iowa. Journal of the American Water Resources Association 44(4):935-935.

    OpenUrlCrossRef
46. 1. Zaimes G.N.,
    2. Schultz R.C.,
    3. Isenhart T.M.

    . 2008b. Total phosphorus concentrations and compaction in riparian areas under different land-uses in Iowa. Agriculture, Ecosystems and Environment 127:22-30.

    OpenUrlCrossRef