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New Paradigm for Sizing Riparian Buffers to Reduce Risks of Polluted Storm Water: Practical Synthesis |
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| Authors: | M. Todd Walter Josephine A. Archibald Brian Buchanan Helen Dahlke Zachary M. Easton Rebecca D. Marjerison Asha N. Sharma Stephen B. Shaw |
| Affiliation: | 1Assistant Professor, Dept. of Biological and Environmental Engineering, Cornell Univ., Ithaca, NY 14853 (corresponding author). E-mail: mtw5@cornell.edu 2Graduate Student, Dept. of Biological and Environmental Engineering, Cornell Univ., Ithaca, NY 14853. 3Post-doctoral Researcher, Dept. of Biological and Environmental Engineering, Cornell Univ., Ithaca, NY 14853. |
| Abstract: | Riparian buffers are commonly promoted to protect stream water quality. A common conceptual assumption is that buffers “intercept” and treat upland runoff. As a shift in paradigm, it is proposed instead that riparian buffers should be recognized as the parts of the landscape that most frequently generate storm runoff. Thus, water quality can be protected from contaminated storm runoff by disassociating riparian buffers from potentially polluting activities. This paper reviews and synthesizes some simple engineering approaches that can be used to delineate riparian buffers for rural watersheds based on risk of generating runoff. Although reference is made to specific future research that may improve the proposed methods for delineating riparian buffers, the approaches described here provide planners and engineers with a set of currently available scientifically defensible tools. It is recommended that planners and engineers use available rainfall and stream discharge data to parameterize the buffer-sizing equations and use variable-width buffers, based on a topographic index, to achieve a realistic representation of runoff generating areas. |
| Keywords: | Stormwater management Runoff Hydrology Water quality |