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ARS Home » Northeast Area » University Park, Pennsylvania » Pasture Systems & Watershed Management Research » Research » Publications at this Location » Publication #363857

Research Project: Sustainable Intensification of Crop and Integrated Crop-Livestock Systems at Multiple Scales

Location: Pasture Systems & Watershed Management Research

Title: Assessment of riparian buffers' effectiveness in controlling nutrient and sediment loads as a function of buffer design, site characteristics and upland loadings

Author
item JIANG, FEI - Pennsylvania State University
item GALL, HEATHER - Pennsylvania State University
item Veith, Tameria - Tamie
item CIBIN, RAJ - Pennsylvania State University
item DROHAN, PATRICK - Pennsylvania State University

Submitted to: American Society of Agricultural and Biological Engineers
Publication Type: Abstract Only
Publication Acceptance Date: 5/20/2019
Publication Date: 7/9/2019
Citation: Jiang, F., Gall, H.E., Veith, T.L., Cibin, R., Drohan, P. 2019. Assessment of riparian buffers' effectiveness in controlling nutrient and sediment loads as a function of buffer design, site characteristics and upland loadings[abstract]. American Society of Agricultural and Biological Engineers. p. 1.

Interpretive Summary: No Interpretive Summary is required for this Abstract. JLB.

Technical Abstract: Riparian buffers are a widely adopted agricultural best management practice due to their ability to reduce sediment and nutrient loads to streams. Current efforts in the Commonwealth of Pennsylvania to incentivize widespread adoption of riparian buffers have fallen short as the state struggles to be in compliance with Chesapeake Bay restoration goals. Constrained buffer design in current policies has been identified as one of the barriers to adoption, and therefore this research explores the water quality tradeoffs that may result from a more flexible buffer design paradigm. The Spring Creek watershed in central Pennsylvania was selected as the case study watershed to test the effectiveness of four different buffer designs (variations in vegetation and width) and two alternative buffer management scenarios that involved harvesting of either grass or trees from the buffer. Three crop rotations were simulated in the Soil & Water Assessment Tool (SWAT), with nutrient and sediment loads coupled to the Riparian Ecosystem Management Model (REMM) to better understand how input loads affect the effectiveness of a specific buffer design and how the effectiveness of a buffer design changes as a function of input load. Simulations were run at a daily scale for 16 years, allowing annual-scale performance as well as event-specific performance to be investigated. The results revealed that knowing annual removal efficiency of a buffer is insufficient and that adoption recommendations should be made based on loads treated by the buffer, as higher nutrient and sediment masses may be reduced by buffers with lower removal efficiencies.