Data from: Vegetative Buffer Strips for Reducing Herbicide Transport in Runoff: Effects of Buffer Width, Vegetation, and Season
The effectiveness of vegetative buffer strips (VBS) for reducing herbicide transport has not been well documented for runoff prone soils. A multi‐year plot‐scale study was conducted on an eroded claypan soil with the following objectives: (1) assess the effects of buffer width, vegetation, and season on runoff transport of atrazine (ATR), metolachlor (MET), and glyphosate; (2) develop VBS design criteria for herbicides; and (3) compare differences in soil quality among vegetation treatments. Rainfall simulation was used to create uniform antecedent soil water content and to generate runoff. Vegetation treatment and buffer width impacted herbicide loads much more than season. Grass treatments reduced herbicide loads by 19‐28% and sediment loads by 67% compared to the control. Grass treatments increased retention of dissolved‐phase herbicides by both infiltration and adsorption, but adsorption accounted for the greatest proportion of retained herbicide load. This latter finding indicated VBS can be effective on poorly drained soils or when the source to buffer area ratio is high. Grass treatments modestly improved surface soil quality 8‐13 years after establishment, with significant increases in organic C, total N, and ATR and MET sorption compared to continuously tilled control. Herbicide loads as a function of buffer width were well described by first‐order decay models which indicated VBS can provide significant load reductions under anticipated field conditions.
Resources in this dataset:
Resource Title: Supplemental Material: Main factor interaction effects on runoff (flow depth), herbicide and sediment loads, and dissolved‐phase herbicide retention - Download docx.
File Name: downloadSupplement, url: https://onlinelibrary.wiley.com/action/downloadSupplement?doi=10.1111/1752-1688.12526&file=jawr12526-sup-0001-Supinfo.docx
Table S1. The effect of vegetation and buffer width on runoff depth. Table S2. The effect of vegetation and buffer width on input normalized atrazine, metolachlor, glyphosate, and sediment loads. Table S3. Vegetation by season interactions for input normalized atrazine and metolachlor loads. Table S4. The effect of vegetation and buffer width on reductions in dissolved-phase herbicide loads by infiltration and adsorption. Figure S1. Effect of vegetation treatment and buffer width on herbicide and sediment input normalized loads, illustrating the significant vegetation by width interaction for all four contaminants.
History
Data contact name
Lerch, Robert N.Data contact email
bob.lerch@ars.usda.govPublisher
Journal of the American Water Resources AssociationIntended use
To assess the effects of buffer width, vegetation, and season on runoff transport of atrazine (ATR), metolachlor (MET), and glyphosate; to develop VBS design criteria for herbicides; and to compare differences in soil quality among vegetation treatments.Temporal Extent Start Date
2007-01-01Temporal Extent End Date
2012-12-31Frequency
- periodic
Theme
- Not specified
Geographic Coverage
{"type":"FeatureCollection","features":[{"geometry":{"type":"Point","coordinates":[-92.05,38.88]},"type":"Feature","properties":{}}]}Geographic location - description
University of Missouri Bradford Research and Extension CenterISO Topic Category
- climatologyMeteorologyAtmosphere
- environment
- farming
- inlandWaters
National Agricultural Library Thesaurus terms
filter strips; herbicides; runoff; vegetation; soil; claypan soils; atrazine; metolachlor; glyphosate; soil quality; rainfall simulation; soil water content; soil water; grasses; pollution load; sediment yield; adsorption; poorly drained soils; models; riparian buffersOMB Bureau Code
- 005:18 - Agricultural Research Service
OMB Program Code
- 005:040 - National Research
Pending citation
- No
Public Access Level
- Public