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Soil and Sediment Contamination: An International Journal Volume 20, 2011 - Issue 6
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Original Articles

Using Soil Available P and Activities of Soil Dehydrogenase and Phosphatase as Indicators for Biodegradation of Organophosphorus Pesticide Methamidophos and Glyphosate

Ying Yu College of Environmental Sciences and Engineering, Dalian Maritime University, Dalian, China
,
Haijun Zhang Dalian Institute of Chemical Physics, Chinese Academy of Sciences, Dalian, China
&
Qixing Zhou Key Laboratory of Terrestrial Ecological Process, Institute of Applied Ecology, Chinese Academy of Sciences, Shenyang, China
Pages 688-701 | Published online: 29 Aug 2011

References

  • Albers , C. N. , Banta , G. T. , Hansen , P. E. and Jacobsen , O. S. 2009 . The influence of organic matter on sorption and fate of glyphosate in soil-comparing different soils and humic substances . Environ. Pollut. , 157 : 2865 – 2870 .
  • Allan , S. F. and Dzantor , E. K. 1995 . Effect of alachlor concentration and an organic amendment on soil dehydrogenase activity and pesticide degradation rate . Environ. Toxicol. Chem. , 14 : 23 – 28 .
  • Araújo , A. S.F. , Monteiro , R. T.R. and Abarkeli , R. B. 2003 . Effect of glyphosate on the microbial activity of two Brazilian soils . Chemosphere , 52 : 799 – 804 .
  • Athanasopoulos , P. E. , Pappas , C. , Kyriakidis , N. V. and Thanos , A. 2005 . Degradation of methamidophos on soultanina grapes on the vines and during refrigerated storage . Food Chem. , 91 : 235 – 240 .
  • Aubert , S. D. , Li , Y. C. and Rsushel , F. M. 2004 . Mechanism for the hydrolysis of organophosphates by the bacterial phosphotriesterase . Biochem. , 43 : 5707 – 5715 .
  • Bray , R. H. and Kurtz , L. T. 1945 . Determination of total, organic and available phosphorus in soil . Soil Sci. , 59 : 39 – 45 .
  • Casida , L. E. , Klein , D. A. and Santoro , T. 1964 . Soil dehydrogenase activity . Soil Sci. , 98 : 371 – 376 .
  • Chen , S. K. , Edwards , C. A. and Subler , S. 2001 . A microcosm approach for evaluating the effects of the fungicides benomyl and captan on soil ecological processes and plant growth . Appl. Soil Ecol. , 18 : 69 – 82 .
  • Eberbach , P. 1998 . Applying non-steady-state compartmental analysis to investigate the simultaneous degradation of soluble and sorbed glyphosate (N-(phosphonomethyl)glycine) in four soils . Pestic. Sci. , 52 : 229 – 240 .
  • Forlani , G. , Mangiacalli , A. , Nielsen , E. and Suardi , C. M. 1999 . Degradation of the phosphonate herbicide glyphosate in soil: evidence for a possible involvement of unculturable microorganism . Soil Biol. Biochem. , 31 : 991 – 997 .
  • Gerber , H. R. , Anderson , J. P. E. , Bugel-Mogenson , B. , Castle , D. , Domsch , K. H. , Malkomes , H. P. , Somerville , L. , Arnold , D. J. , Vanderwent , H. , Vebeken , R. and Vank , J. W. 1991 . Revision of recommended laboratory tests for assessing side effects of pesticides on the soil microflora . Toxicol. Environ. Chem. , 30 : 249 – 261 .
  • Gianfreda , L. , Sannino , F. , Filazzola , M. T. and Violante , A. 1993 . Influence of pesticides on the activity and kinetics of invertase, urease and acid phosphatase enzymes . Pestic. Sci. , 39 : 237 – 244 .
  • Gianfreda , L. , Sannino , F. , Filazzola , M. T. and Violante , A. 1995 . Pesticide effects on the activity of free, immobilized and soil invertase . Soil Biol. Biochem. , 27 : 1201 – 1208 .
  • Gianfreda , L. and Rao , M. A. 2004 . Potential of extra cellular enzymes in remediation of polluted soils: A review . Enzym. Microb. Tech. , 35 : 339 – 354 .
  • Gil-Sotres , F. , Trasar-Cepeda , C. , Leirós , M. C. and Seoane , S. 2005 . Different approaches to evaluationg soil quality using biochemical properties . Soil Biol. Biochem. , 37 : 877 – 887 .
  • Gimsing , A. L. , Borggaard , O. K. , Jacobsen , O. S. , Aamand , J. and Srøenden , J. 2004 . Chemical and microbiological soil characteristics controlling glyphosate mineralization in Danish surface soils . Appl. Soil Ecol. , 27 : 233 – 242 .
  • Juarez , L. M. and Sanchez , J. 1989 . Toxicity of the organophosphorus insecticide methmidophos to larvae of the freshwater prawn macrobrachius rosenbergii and the blue shrimp penaeus stylirostris stemson . Bull. Environ. Contam. Toxicol. , 38 : 131 – 138 .
  • Kang , H. and Freeman , C. 1999 . Phosphatase and arylsulphatase activities in wetland soil: Annual variation and controlling factors . Soil Biol. Biochem. , 31 : 449 – 454 .
  • Kishore , G. M. and Jacob , G. S. 1987 . Degradation of glyphosate by Pseudomonas sp. PG2982 via a sarcosine intermediate . J Biol. Chem. , 262 : 12164 – 12168 .
  • Kools , S. A. E. , Roovert , M. V. , Gestel , C. A. M. and Straalen , N. M. V. 2005 . Glyphosate degradation as a soil health indicator for heavy metal polluted by soils . Soil Biol. Biochem. , 37 : 1303 – 1307 .
  • Krzysko-lupicka , T. and Orlik , A. 1997 . The use of glyphosate as the sole source of phosphorous or carbon for the selection of soil-borne fungal strains capable to degrade this herbicide . Chemosphere , 34 : 2601 – 2605 .
  • Li , X. , Zhang , H. , Wu , M. , Zhang , Y. and Zhang , C. 2008 . Effect of methamidophos on soil fungi community in microcosms by plate count, DGGE and clone library analysis . J. Environ. Sci. , 20 : 619 – 625 .
  • Liu , Q. , Loganathan , P. , Hedley , M. J. and Skinner , M. F. 2004 . The mobilisation and fate of soil and rock phosphate in the rhizosphere of ectomycorrhizal Pinus radiate seedlings in an Allophanic soil . Plant Soil , 264 : 219 – 229 .
  • Nannipieri , P. , Ceccanti , B. and Bianchi , D. 1988 . Characterization of humus-phosphatase complexes extracted from soil . Soil Biol. Biochem. , 20 : 683 – 691 .
  • Nelson , D. W. and Sommers , L. E. 1982 . “ Total carbon, organic carbon and organic matter ” . In Methods of Soil Analysis, Part 2, Chemical and Microbial Properties , Edited by: Page , A. L. , Miller , R. M. and Keeney , D. R. 539 – 580 . Madison, Wisconsin : Soil Science Society of America .
  • Nigg , H. N. , Beier , R. C. , Carter , O. , Chaisson , C. , Franklin , C. , Lavy , T. , Lewis , R. G. , Lombardo , P. , McCarthy , J. F. , Maddy , K. T. , Moses , M. , Norris , D. , Peck , C. , Skinner , K. and Tardiff , R. G. 1990 . “ Exposure to pesticides ” . In Advances in Modern Environmental Toxicology, Vol. 18, The Effect of Pesticides on Human Health , Edited by: Baker , J. and Wilkinson , C. F. 35 – 130 . Princeton, New Jersey : Princeton Scientific Publishing Co. .
  • Pessagno , R. C. , Sánchez , R. M. T. and Afonso , M. S. 2008 . Glyphosate behavior at soil and mineral–water interfaces . Environ. Pollut. , 153 : 53 – 59 .
  • Pipke , R. and Amrhein , N. 1988 . Degradation of the phosphonate herbicide glyphosate by arthrobacter atrocyaneus ATCC 13752 . Appl. Environ. Microbiol. , 54 : 1293 – 1296 .
  • Sannino , F. and Gianfreda , L. 2001 . Pesticide influence on soil enzymatic activities . Chemosphere , 45 : 417 – 425 .
  • Speir , T. W. and Ross , D. F. 1978 . “ Soil phosphatase and sulphatase ” . In Soil Enzymes , Edited by: Burns , R. G. 197 – 250 . London : Academic Press .
  • Stenrød , M. , Charnay , M.-P. , Benoit , P. and Eklo , O. M. 2006 . Spatial variability of glyphosate mineralization and soil microbial characteristics in two Norwegian sandy loam soils as affected by surface topographical features . Soil Biol. Biochem. , 38 : 962 – 971 .
  • Tabatabai , M. and Bremner , J. M. 1969 . Use of p-nitrophenyl phosphate for assay of soil phosphatase activity . Soil Biol. Biochem. , 1 : 301 – 307 .
  • Ternan , N. G. , McGrath , J. W. , McMullan , G. and Quinn , J. P. 1998 . Review: Organophosphonates: Occurrence, synthesis and biodegradation by microorganisms . World J Microbiol. Biotechnol. , 14 : 635 – 647 .
  • Trasar-Cepeda , C. , Leiros , M. C. , Seoane , S. and Gill-Sotres , F. 2000 . Limitations of soil enzymes as indicators of soil pollution . Soil Biol. Biochem. , 32 : 1867 – 1875 .
  • van Aarle , I. M. and Plassard , C. 2010 . Spatial distribution of phosphatase activity associated with ectomycorrhizal plants is related to soil type . Soil Biol. Biochem. , 42 : 324 – 330 .
  • von Wirén-Lehr , S. , Komoßa , D. , Gläßgen , W. E. , Sandermann , H. and Scheunert , I. 1997 . Mineralization of [14C] glyphosate and its plant-associated residues in arable soils originating from different farming systems . Petic. Sci. , 51 : 436 – 442 .
  • Wang , M. C. , Liu , Y. H. , Wang , Q. , Gong , M. , Hua , X. M. , Pang , Y. J. , Hu , S. and Yang , Y. H. 2008 . Impacts of methamidophos on the biochemical, catabolic, and genetic characteristics of soil microbial communities . Soil Biol. Biochem. , 40 : 778 – 788 .
  • Wang , L. M. , Xu , D. M. , Chen , B. and Liu , G. G. 2004 . Effects of external contaminants on soil phosphatase . Can. J Microbiol. , 8 : 501 – 509 .
  • Wardle , D. A. and Parkinson , D. 1990a . Effects of three herbicides on soil microbial biomass and activity . Plant Soil , 122 : 21 – 28 .
  • Wardle , D. A. and Parkinson , D. 1990b . Influence of the herbicide glyphosate on soil microbial community structure . Plant Soil , 122 : 29 – 37 .
  • Williams , G. M. , Kroes , R. and Munro , I. C. 2000 . Safety evaluation and risk assessment of the herbicide roundup and its active ingredient, glyphosate, for humans . Regul. Toxicol. Pharm. , 31 : 117 – 165 .
  • Xu , Y. H. , Gu , G. B. , Wu , Z. F. , Li , F. B. and Wan , H. F. 2001 . Study on photocatalytic degradation of organophosphorous pesticides with TiO2 nanometre powder . Soil Environ. Sci. , 10 : 173 – 175 .
  • Yu , Y. and Zhou , Q. X. 2005a . Adsorption characteristics of pesticides methamidophos and glyphosate by two soils . Chemosphere , 58 : 811 – 816 .
  • Yu , Y. and Zhou , Q. X. 2005b . Degradation–detoxification behavior of methamidophos in phaiozem and burozem rhizosphere . Chin. J Appl. Ecol. , 16 : 1761 – 1764 .
  • Yu , Y. , Zhou , Q. X. and He , Z. L. 2005 . Effects of methamidophos and glyphosate on copper sorption-desorption behavior in soils . Sci. China Ser. C Life Sciences , 48 Supp. : 167 – 175 .
  • Zhou , Q. , Wang , M. and Liang , J. 2008 . Ecological detoxification of methamidophos by earthworms in phaiozem co-contaminated with acetochlor and copper . Appl. Soil Ecol. , 40 : 138 – 145 .

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