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Herbicides - protecting long-term sustainability and water quality in forest ecosystems

Author: Neary, Daniel G.; Michael, Jerry L.
Date: 1996
Periodical: New Zealand Journal of Forestry Science
Link: http://www.srs.fs.usda.gov/pubs/ja/ja_neary010.pdf
Abstract: World-wide, sediment is the major water quality problem. The use of herbicides for controlling competing vegetation during stand establishment can be beneficial to forest ecosystem sustainability and water quality by minimising off-site soil loss, reducing on-site soil and organic matter displacement, and preventing deterioration of soil physical properties. Sediment losses from sites where competing vegetation is controlled by mechanical methods can be 1 to 2 orders of magnitude greater than natural losses from undisturbed watersheds. On a watershed basis, vegetation management techniques in general increase annual erosion by <7%. Herbicides do not increase natural erosion rates. Organic matter and nutrients that are critical to long-term site productivity can be removed off-site by mechanical vegetation-management techniques and fix, or redistributed on-site in a manner that reduces availability to the next stand. For several decades, research has been conducted on the fate of forcitry-use herbicides in various watersheds throughout the southern and western United States, Canada, and Australia. This research has evaluated chemicals such as 2,4-D, glyphosate, hexazinone, imarapyr, metsulfuronmethyl, picloram, sulfometuron methyl, tebuthiuron, and triclopyr. Losses in streamflow, and leaching to groundwater have been evaluated. Field study data indicate that residue concentrations tend to be low, except where direct applications are made to ephemeral channels or streams, and do not persist for extended periods of time. Regional environmental impact statements in the United States demonstrate that forestry herbicide presence in surface and groundwater is not a significant risk to water quality or human health. They also clearly indicate that herbicides can greatly reduce water quality deterioration that is produced by erosion and sedimentation.


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