Environmental Monitoring:Chesapeake Bay Legacy Pesticides
Chesapeake Bay Bridge. Source: USGS; Credit: JaneThomas.
Published: July 8, 2011, 12:00 am
Updated: September 20, 2011, 8:04 pm
This article has been reviewed by the following Topic Editor:
Sidney Draggan Ph.D.Chesapeake Bay Pesticides:
Some Diminish, Some Persist
Scientists with the U.S. Department of Agriculture (USDA) have conducted investigations identifying factors that influence pesticide levels in the Chesapeake Bay airshed, including traces of "legacy" pesticides that still linger even though they are no longer being used.
Agricultural Research Service (ARS) chemists Laura McConnell and Cathleen Hapeman obtained weekly air samples and rain samples for precipitation events from 2000 to 2003 at three sites in Maryland and Delaware.
Image 1. Chemists Cathleen Hapeman (left) and Laura McConnell use air and rain sample collection devices to study the fate of atmospheric pollutants in the Chesapeake Bay region.
The samples were tested for several types of legacy pesticides, including chlordane and related chemical products such as heptachlor and breakdown products of chlordane; lindane; aldrin and dieldrin; DDT and its degradation products (DDD and DDE); and mirex. Nearly all the air samples contained lindane and chlordane products, and pesticides measured at the highest mean concentrations were dieldrin and DDE.
The scientists found that some of the legacy pesticides detected in the samples—including chlordane compounds, lindane, DDE, and dieldrin—came from local and regional sources, possibly from contaminated soils. When disturbed, the generally sandy soils on the Delmarva Peninsula are more likely to release pesticides than soils that contain higher levels of organic carbon. But the researchers also concluded that most of the lindane, heptachlor, and many of the chlordanes detected in the air samples came from sources more than 60 miles away.
Modeling results indicated that the variability in air temperature and wind conditions only accounted for 30 to 60 percent of the variability in compound levels. And there was some good news: With the exception of dieldrin, the half-life values measured for the pesticides in the samples indicated that legacy pesticide levels were decreasing over time in the Delmarva.
Results from this study, which support the USDA priority of promoting sustainable agriculture, were published in Science of the Total Environment and Environmental Toxicology and Chemistry.
Read more about this work in the July 2011 issue of Agricultural Research magazine.
By Ann Perry
July 7, 2011
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Citation
U.S. Department of Agriculture (Content Source);Sidney Draggan Ph.D. (Topic Editor) "Chesapeake Bay Legacy Pesticides". In: Encyclopedia of Earth. Eds. Cutler J. Cleveland (Washington, D.C.: Environmental Information Coalition, National Council for Science and the Environment). [First published in the Encyclopedia of Earth July 8, 2011; Last revised Date September 20, 2011; Retrieved June 19, 2013 <http://www.eoearth.org/article/Chesapeake_Bay_Legacy_Pesticides?topic=49501>
Chesapeake Bay Pesticides:
Some Diminish, Some Persist
Scientists with the U.S. Department of Agriculture (USDA) have conducted investigations identifying factors that influence pesticide levels in the Chesapeake Bay airshed, including traces of "legacy" pesticides that still linger even though they are no longer being used.
Agricultural Research Service (ARS) chemists Laura McConnell and Cathleen Hapeman obtained weekly air samples and rain samples for precipitation events from 2000 to 2003 at three sites in Maryland and Delaware.
Image 1. Chemists Cathleen Hapeman (left) and Laura McConnell use air and rain sample collection devices to study the fate of atmospheric pollutants in the Chesapeake Bay region.
The samples were tested for several types of legacy pesticides, including chlordane and related chemical products such as heptachlor and breakdown products of chlordane; lindane; aldrin and dieldrin; DDT and its degradation products (DDD and DDE); and mirex. Nearly all the air samples contained lindane and chlordane products, and pesticides measured at the highest mean concentrations were dieldrin and DDE.
The scientists found that some of the legacy pesticides detected in the samples—including chlordane compounds, lindane, DDE, and dieldrin—came from local and regional sources, possibly from contaminated soils. When disturbed, the generally sandy soils on the Delmarva Peninsula are more likely to release pesticides than soils that contain higher levels of organic carbon. But the researchers also concluded that most of the lindane, heptachlor, and many of the chlordanes detected in the air samples came from sources more than 60 miles away.
Modeling results indicated that the variability in air temperature and wind conditions only accounted for 30 to 60 percent of the variability in compound levels. And there was some good news: With the exception of dieldrin, the half-life values measured for the pesticides in the samples indicated that legacy pesticide levels were decreasing over time in the Delmarva.
Results from this study, which support the USDA priority of promoting sustainable agriculture, were published in Science of the Total Environment and Environmental Toxicology and Chemistry.
Read more about this work in the July 2011 issue of Agricultural Research magazine.
By Ann Perry
July 7, 2011
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