Influence of mowing and narrow grass buffer widths on reductions in sediment, nutrients, and bacteria in surface runoff

Author:

Miller J. J.1,Curtis T.1,Chanasyk D. S.2,Reedyk S.3

Affiliation:

1. Agriculture and Agri-Food Canada, 5403-1st Ave. South, Lethbridge, Alberta, Canada T1J 4B1

2. Department of Renewable Resources, University of Alberta, Edmonton, Alberta, Canada T6G 2H1

3. Agri-Food Canada, Canada Place, Room 945, 9700 Jasper Ave., Edmonton, Alberta, Canada T5J 4C3

Abstract

Miller, J. J., Curtis, T., Chanasyk, D. S. and Reedyk, S. 2015. Influence of mowing and narrow grass buffer widths on reductions in sediment, nutrients, and bacteria in surface runoff. Can. J. Soil Sci. 95: 139–151. Little research has been conducted on the effect of mowing and buffer width on the effectiveness of short-width (< 10 m) native grass buffers to filter sediment, nutrients, and bacteria. A 2-yr (2011–2012) field study was conducted on native rangeland in southern Alberta. The treatments of mowing and buffer width (1.5, 3, 6 m) were evaluated using a randomized complete block design with four replicates. The buffer plots were pre-wet with distilled water. A spiked solution was then applied to each plot using a run-on distribution device and the runoff collected every 10 min for 30 min once the runoff started discharging from the plot. The volume of runoff, and percent reduction in concentration and mass of sediment [total dissolved solids (TSS)], phosphorus [dissolved reactive P (DRP), total P], nitrogen (total N), and bacteria (Escherichia coli, total coliforms) in runoff were determined. The findings did not support our hypothesis that percent reductions in concentrations and mass for sediment, nutrients, and bacteria were greater for mowed than unmowed buffers. In contrast, the findings supported our hypothesis that increasing buffer width would significantly (P≤0.05) decrease mass (but not concentration) of sediment, nutrients, and bacteria in runoff. The significant mass reduction was attributed to a reduced runoff ratio caused by longer residence time and greater infiltration in the wider buffers. Mass reductions for the three buffer widths ranged from 29 to 92% for TSS, 22 to 93% for DRP, 38 to 93% for total P, 23 to 92% for total N, and between 61 and 94% for E. coli and total coliforms. These findings suggest that buffer width but not mowing may reduce runoff quantity and improve runoff quality over the short term.

Publisher

Canadian Science Publishing

Subject

Soil Science

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