Integrative Review of Riparian Buffers Benefits in Urbanized Watersheds

Autores/as

  • Paige Denning University of Kansas
  • Scott Schulte University of Kansas

DOI:

https://doi.org/10.17161/mjusc.v3i1.22600

Palabras clave:

Riparian Buffer Benefits

Resumen

Riparian buffers or riparian corridors are areas of vegetation in the floodplains and areas surrounding a stream. By the early 2000s, numerous national reports and studies of riparian buffer benefits established that vegetation near streams is helpful in protecting the stream from increasing urban runoff, minimizing bank erosion, reducing flooding, and improving overall water quality. However, influential studies concluded that buffer benefits dwindle as urbanization increases, eventually becoming ineffective. This study evaluates more recent research that suggests riparian buffers are more effective at countering urbanization impacts than previously understood, and considers the extent to which we can quantify these benefits and identify the factors that maximize their effectiveness (i.e. greater efficiency based on buffer distance from the stream, extent of stream setbacks, and percentage of impervious cover in the area). Much of the research has been conducted in the Kansas City area in the Blue River Watershed, which begins in Kansas and flows into Missouri River east of downtown Kansas City, Missouri. About 800,000 residents live in the watershed, which includes some of the region’s fastest growing areas. It is critical to protect this major resource, and other regional rivers and streams, for residents of the Kansas City Metropolitan area and the ecosystems that depend on them. It is also critical to provide the latest and best information to the community-of-practice currently updating regional stormwater management planning and design guidance.  

Biografía del autor/a

  • Scott Schulte, University of Kansas

    Dr. Scott Schulte is an Associate Professor of the Practice in the Environmental Studies Program at the University of Kansas.

Referencias

Coles, J. F., et al. (2012). Effects of urban development on stream ecosystems in nine metropolitan study areas across the United

States. Circular.

Deacon, J., Soule, S., & Smith, T. (2005). Effects of urbanization on stream quality at selected sites in the seacoast region in New

Hampshire, 2001-2003. U.S. Geological Survey.

Schueler, T. (2018, April 12). The impervious cover model, revisited (again). Chesapeake Stormwater Network. Ellicott City, MD.

Watershed Science Institute. (n.d.). Watershed Science Institute Watershed Condition Series Technical Note 2. USDA, 2.

Dosskey, M. G., Vidon, P., Gurwick, N. P., Allan, C. J., & Duval, T. P. (2010). The role of riparian vegetation in protecting and improving

chemical water quality in streams. JAWRA Journal of the American Water Resources Association, 46(2), 261–277.

Horner, R., May, C., Livingston, E., Blaha, D., Scoggins, M., Tims, J., & Maxted, J. (2001). Structural and non-structural BMPs for protecting streams. In B. Urbonas (Ed.), Linking Stormwater BMP Designs and Performance to Receiving Water Impact Mitigation. Proceedings of an Engineering Research Foundation Conference, Smowmass, CO. American Society of Civil Engineers (TRS).

The Nature Conservancy. (n.d.). Blue River, Kansas City. Retrieved [15 Apr. 2024.], from www.nature.org/en-us/get-involved/how-tohelp/ places-we-protect/blue-river-kansascity/.

Schulte, S. A., Elbert Noll, P. A., & Henson, J. (2008). Riparian buffer benefits and Kansas City, Missouri’s stream setback ordinance.

Hutchinson, S., McDonough, K., Stanton, J., & Thomas, V. (2020). Blue River Watershed Modeling Report.

Atkinsons, S. F., & Lake, M.C. (2020). Prioritizing riparian corridors for ecosystem restoration in urbanizing watersheds. PeerJ, 8, e8174.

Bentrup, G. (2008). Conservation buffers— design guidelines for buffers, corridors, and greenways. NRCS.

Bartens, J., Day, S. D., Harris, J. R., Dove, J. E., & Wynn, T. M. (2008). Can urban tree roots improve infiltration through compacted

subsoils for stormwater management? Journal of Environmental Quality, 37(6), 2048- 2057.

Beeson, C. E., & Doyle, P. F. (1995). Comparison of bank erosion at vegetated and non-vegetated channel bends. Water Resources Bulletin, 31(6), 983-990.

Bennett, S. J., Wu, W., Alonso, C. V., & Wang, S. S. Y. (2008). Modeling fluvial response to in-stream woody vegetation: Implications for

stream corridor restoration. Earth Surface Processes and Landforms, 33(6), 890-909. Heartland Conservation Alliance. (2023). Blue

River Report Card. Retrieved from https://www.heartlandconservationalliance.org/wpcontent/uploads/2023/11/BlueRiverReport-CardWeb.pdf

Horner, R., May, C., Livingston, E., & Maxted, J. (1999). Impervious cover, aquatic community health, and stormwater BMPs: Is there

a relationship? In Proceedings of The Sixth Biennial Stormwater Research and Watershed Management Conference, Sept 14-

, 1999, Tampa Florida. Southwest Florida Water Management District.

Schueler, T. (2003). Impacts of impervious cover on aquatic systems. Center for Watershed Protection, 1.

Schueler, T. R., et al. (2009). Is impervious cover still important? Review of recent research. Journal of Hydrologic Engineering,

(4), 309–315.

Oklahoma State University. (2017). Using vegetation for erosion control on construction

sites. Retrieved from https://extension.okstate.edu/fact-sheets/using-vegetation-for-erosion-control-on-construction-

sites.html Uncited

Bartens, J., Day, S. D., Harris, J. R., Dove, J. E., & Wynn, T. M. (2008). Can urban tree roots improve infiltration through compacted subsoils

for stormwater management? Journal of Environmental Quality, 37(6), 2048-2057.

Beeson, C. E., & Doyle, P. F. (1995). Comparison of bank erosion at vegetated and non-vegetated channel bends. Water Resources Bulletin, 31(6), 983-990.

Bennett, S. J., Wu, W., Alonso, C. V., & Wang, S. S. Y. (2008). Modeling fluvial response to in-stream woody vegetation: Implications for

stream corridor restoration. Earth Surface Processes and Landforms, 33(6), 890-909.

Heartland Conservation Alliance. (2023). Blue River Report Card. Retrieved from https://www.heartlandconservationalliance.org/wpcontent/uploads/2023/11/BlueRiverReport-CardWeb.pdf

Horner, R., May, C., Livingston, E., & Maxted, J. (1999). Impervious cover, aquatic community health, and stormwater BMPs: Is there a relationship? In Proceedings of The Sixth Biennial Stormwater Research and Watershed Management Conference, Sept 14-

, 1999, Tampa Florida. Southwest Florida Water Management District. Schueler, T. (2003). Impacts of impervious cover on aquatic systems. Center for Watershed Protection, 1.

Schueler, T. R., et al. (2009). Is impervious cover still important? Review of recent research. Journal of Hydrologic Engineering, 14(4),

–315. Oklahoma State University. (2017). Using vegetation for erosion control on construction sites. Retrieved from https://extension.okstate.edu/fact-sheets/using-vegetation-for-erosion-control-on-construction-sites.html

Descargas

Publicado

2024-09-17

Cómo citar

Denning, P., & Schulte, S. (2024). Integrative Review of Riparian Buffers Benefits in Urbanized Watersheds. Midwestern Journal of Undergraduate Sciences, 3(1). https://doi.org/10.17161/mjusc.v3i1.22600