Your search keyword '"Derek F. Wallace"' showing total 6 results

1. Variation in chlorotoluron photodegradation rates as a result of seasonal changes in the composition of natural waters

Author

Mark Earll, Robin G. Oliver, and Derek F. Wallace

Subjects

Chemistry, Ecology, Natural water, General Medicine, Organic molecules, chemistry.chemical_compound, Nitrate, Insect Science, Environmental chemistry, Degradation (geology), Composition (visual arts), Photodegradation, Inverse correlation, Agronomy and Crop Science, Surface water

Abstract

BACKGROUND: It is important to understand the degradation of organic molecules in surface waters to ensure that risk assessments, intended to prevent adverse effects on human health and the environment, are robust. One important degradation mechanism in surface waters is photodegradation. This process is generally studied in laboratory test systems, and the significance of the results is then extrapolated to the field. The aim of this work was to assess how fluctuations in the composition of surface water influence the photodegradation rate of chlorotoluron. RESULTS: Photodegradation DT50 values in the lake (mean = 26.0 days) and pond (mean = 26.0 days) were significantly slower than in the river (mean = 6.8 days) and stream (mean = 7.3 days) samples. The DT50 values in the pond and lake samples were similar to the direct photolysis value (mean = 28.6 days). Photodegradation was significantly faster in the stream and river samples, suggesting that indirect photolysis was significant in those waters. Principal component analysis indicated a strong inverse correlation between nitrate concentration and degradation rate. CONCLUSIONS: Nitrate concentration had a strong influence on the rate of photodegradation, with increasing nitrate concentrations sharply reducing the DT50. However, this effect was restricted to a narrow concentration range and levelled off quite quickly, such that further increases in the nitrate concentration had no significant effect on the rate of degradation. Extrapolating photodegradation rates of chlorotoluron from the laboratory to the field should be relatively straightforward, provided the nitrate concentrations in the waters are known. Copyright © 2012 Society of Chemical Industry

Published

2012

2. Are Sorption and Degradation Processes Adequately Accounted for in Surface Water Risk Assessments for Plant Protection Products?

Author

Laurence H. Hand, Robin G. Oliver, and Derek F. Wallace

Subjects

Pesticide residue, Sediment, Sorption, Agronomy, Insect Science, Environmental chemistry, Aquatic plant, Environmental science, Degradation (geology), Water quality, Risk assessment, Agronomy and Crop Science, Surface water, Food Science, Biotechnology

Published

2009

3. Variation in chlorotoluron photodegradation rates as a result of seasonal changes in the composition of natural waters

Author

Robin G, Oliver, Derek F, Wallace, and Mark, Earll

Subjects

Lakes, Principal Component Analysis, Nitrates, Photolysis, England, Rivers, Phenylurea Compounds, Fresh Water, Seasons, Ponds, Water Pollutants, Chemical

Abstract

It is important to understand the degradation of organic molecules in surface waters to ensure that risk assessments, intended to prevent adverse effects on human health and the environment, are robust. One important degradation mechanism in surface waters is photodegradation. This process is generally studied in laboratory test systems, and the significance of the results is then extrapolated to the field. The aim of this work was to assess how fluctuations in the composition of surface water influence the photodegradation rate of chlorotoluron.Photodegradation DT(50) values in the lake (mean = 26.0 days) and pond (mean = 26.0 days) were significantly slower than in the river (mean = 6.8 days) and stream (mean = 7.3 days) samples. The DT(50) values in the pond and lake samples were similar to the direct photolysis value (mean = 28.6 days). Photodegradation was significantly faster in the stream and river samples, suggesting that indirect photolysis was significant in those waters. Principal component analysis indicated a strong inverse correlation between nitrate concentration and degradation rate.Nitrate concentration had a strong influence on the rate of photodegradation, with increasing nitrate concentrations sharply reducing the DT(50) . However, this effect was restricted to a narrow concentration range and levelled off quite quickly, such that further increases in the nitrate concentration had no significant effect on the rate of degradation. Extrapolating photodegradation rates of chlorotoluron from the laboratory to the field should be relatively straightforward, provided the nitrate concentrations in the waters are known.

Published

2011

4. The role of indirect photolysis in limiting the persistence of crop protection products in surface waters

Author

Derek F. Wallace, Robin G. Oliver, and Laurence H. Hand

Subjects

Crops, Agricultural, Quenching (fluorescence), Photolysis, Chemistry, Hydroxyl Radical, Health, Toxicology and Mutagenesis, Bicarbonate, chemistry.chemical_compound, Nitrate, Environmental chemistry, Dissolved organic carbon, Environmental Chemistry, Degradation (geology), Photosensitizer, Hydroxyl radical, Organic Chemicals, Photodegradation, Water Pollutants, Chemical

Abstract

The photodegradation of six crop protection products (CPPs) was studied in 16 natural waters collected from across the midwest of the United States under simulated sunlight to determine the significance of indirect photolysis. The rate of degradation of five of the CPPs was faster in irradiated natural waters than in buffer systems, with the effect particularly significant with the relatively photostable compounds propiconazole and prometryn. Degradation rates were correlated with the concentration of one or more photosensitizers, or ratios thereof, by means of a Pearson's correlation and linear regression analysis. It was found that the photodegradation of chlorotoluron, pinoxaden, propiconazole and prometryn were linked to the concentration of nitrate, pointing to a significant role of hydroxyl radical ((.)OH) as a reactive intermediate. Increased concentrations of dissolved organic carbon (DOC) and bicarbonate relative to nitrate were found to decrease the rate of degradation of these compounds, consistent with a quenching role. Chlorothalonil appeared to be rapidly degraded by means of the carbonate radical ((.)CO(3)(-)), whereas the photodegradation of emamectin was particularly complex. Overall, indirect photolysis significantly enhanced the rate of CPP degradation and fate models based on these experiments appear to offer more realism than those that only take into account direct photolysis.

Published

2010

5. The Role of Non-Decay Microorganisms in the Degradation of Organic Wood Preservatives

Author

Derek F. Wallace, Steven R. Cook, and David J. Dickinson

Published

2008

6. Development of Commercial Wood Preservatives

Author

Tor P. Schultz, Holger Militz, Mike H. Freeman, Barry Goodell, Darrel D. Nicholas, Yuhui Qian, Jody Jellison, Terry L. Amburgey, Jeffrey J. Morrell, Philip D. Evans, Stan T. Lebow, Terry Highley, Glenn M. Larkin, Peter E. Laks, Stephen L. Quarles, Geoffrey Daniel, K. Hansen, Michael J. Pietrykowski, Constantine M. Panagotacos, Marisa A. McKeown, Gregg Henderson, R. Joseph Woodrow, J. Kenneth Grace, John N.R. Ruddick, Derek F. Wallace, Steven R. Cook, David J. Dickinson, W. J. Homan, Stig Lande, Morten Eikenes, Mats Westin, Marc H. Schneider, Andreas Krause, F. Wepner, Y. Xie, David B. Helmer, Donatien Pascal Kamdem, Mark J. Manning, Paul Merrick, Marek J. Gnatowski, Alan S. Ross, Anke Schirp, Rebecca E. Ibach, David E. Pendleton, Michael P. Wolcott, Henry M. Jacoby, Craig R. McIntyre, H. M. Rollins, Timothy Townsend, Brajesh Dubey, Helena Solo-Gabriele, Hans Leithoff, Piet Blancquaer, Mark van der Flaas, Alex Valcke, H. M. Barnes, Alan Preston, Lehong Jin, Tor P. Schultz, Holger Militz, Mike H. Freeman, Barry Goodell, Darrel D. Nicholas, Yuhui Qian, Jody Jellison, Terry L. Amburgey, Jeffrey J. Morrell, Philip D. Evans, Stan T. Lebow, Terry Highley, Glenn M. Larkin, Peter E. Laks, Stephen L. Quarles, Geoffrey Daniel, K. Hansen, Michael J. Pietrykowski, Constantine M. Panagotacos, Marisa A. McKeown, Gregg Henderson, R. Joseph Woodrow, J. Kenneth Grace, John N.R. Ruddick, Derek F. Wallace, Steven R. Cook, David J. Dickinson, W. J. Homan, Stig Lande, Morten Eikenes, Mats Westin, Marc H. Schneider, Andreas Krause, F. Wepner, Y. Xie, David B. Helmer, Donatien Pascal Kamdem, Mark J. Manning, Paul Merrick, Marek J. Gnatowski, Alan S. Ross, Anke Schirp, Rebecca E. Ibach, David E. Pendleton, Michael P. Wolcott, Henry M. Jacoby, Craig R. McIntyre, H. M. Rollins, Timothy Townsend, Brajesh Dubey, Helena Solo-Gabriele, Hans Leithoff, Piet Blancquaer, Mark van der Flaas, Alex Valcke, H. M. Barnes, Alan Preston, and Lehong Jin

Subjects

Wood--Preservation

Published

2008