Abstract
Intensive agriculture is spectacularly successful since last couple of decades due to the inputs viz; fertilizers and pesticides along with high yielding varieties. The mandate for agriculture development was to feed and adequate nutrition supply to the expanding population by side the agriculture would be entering to into new area of commercial and export orientation. The attention of public health and proper utilization natural resources are also the main issues related with agriculture development. Concern for pesticide contamination in the environment in the current context of pesticide use has assumed great importance [1]. The fate of the pesticides in the soil environment in respect of pest control efficacy, non-target organism exposure and offsite mobility has been given due consideration [2]. Kinetics and pathways of degradation depend on abiotic and biotic factors [6], which are specific to a particular pesticide and therefore find preference. Adverse effect of pesticidal chemicals on soil microorganisms [3], may affect soil fertility [4] becomes a foreign chemicals major issue. Soil microorganisms show an early warning about soil disturbances by foreign chemicals than any other parameters.
But the fate and behavior of these chemicals in soil ecosystem is very important since they are degraded by various factors and have the potential to be in the soil, water etc. So it is indispensable to monitor the persistence, degradation of pesticides in soil and is also necessary to study the effect of pesticide on the soil quality or soil health by in depth studies on soil microbial activity.
The removal of metabolites or degraded products should be removed from soil and it has now a day’s primary concern to the environmentalist. Toxicity or the contamination of pesticides can be reduced by the bioremediation process which involves the uses of microbes or plants. Either they degrade or use the pesticides by various co metabolic processes.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Zhu G, Wu H, Guo J and Kimaro FME (2004) Microbial degradation of fipronil in clay loam soil. Water Air Soil Poll 153:35–44
Hafez HFH and Theimann WHP (2003) Persistence and biodegradation of iazinone and imidacloprid in soil. Proc. XII Symp. Pest. Chem., Congress Centre Universita Cattolica, Via Emilia Parmense 84, Piacenza. Pp. 35–42
Araújo ASF, Monterio RTR and Abarkeli RB (2003) Effect of glyphosate on the microbial activity of two Brazilian soils. Chemosphere 52:799–804
Schuster E and Schröder D (1990) Side-effects of sequentially applied pesticides on non-target soil microorganisms: field experiments. Soil Biol Biochem 22:367–373
Handa SK, Agnihotri NP and Kulshreshtha G (1999) Effect of pesticide on soil fertility. In Pesticide residues; Significance, Msanagement and analysis. pp 184–198
Beigel C, Charnay MP and Barriuso E (1999) Degradation of formulated and unformulated triticonazole fungicide in soil: effect of application rate. Soil Biol Biochem 31:525–534
Elliot LF, Lynch JM and Papendick RI (1996) The microbial component of soil quality. In: Soil Biochemistry. Vol. 9. Stotzky G and Bollag JM (eds.) Marcel Dekker, Inc., New York, USA. Pp. 1–12
Doran JW and Parkin TB (1994) Defining and assessing soil quality. In: Defining soil quality for sustainable environment. Special Pub. 35. Doran JW, Coleman DC, Bezdicek DF and Stewart BA (eds.). Soil Science Society of America, Inc., Madison, WI. Pp. 3–21
Voos G and Groffman PM (1997) Relationship between microbial biomass and dissipation of 2,4-D and Dicamba in soil. Biol Fertil Soils 24:106–110
Paul EA and Voroney RA (1989) Field interpretation of microbial biomass activity and measurements In: Current perspective in microbial ecology. Klug MJ and Reddy CA (eds.). American Society of Microbiology. Washington DC
Beelen PV and Doelman P (1997) Significance and application of microbial toxicity tests in assessing ecotoxicological risks of contaminants in soil and sediment. Chemosphere 34:455–499
Brookes PC, Newcombe AA and Jenkinson DS (1987) Adenylate energy charge measurement in soil. Soil Biol Biochem 19:211–217
Nannipieri P, Gregos S and Ceccanti B (1990) Ecological significance of the biological activity in soil. In: Soil Biochemistry. Vol. 6. Smith JL and Paul EA (eds.). Marcel Dekker, Inc., New York, USA. Pp. 293–354
Torstenssen L and Stenstorm J (1986) Basic respiration rate as a tool for prediction of pesticide persistence in soil. Toxic Assess 1:57–72
Anderson TH and Domsch KH (1985b) Determination of eco-physiological maintenance requirements of soil micro-organisms in a dormant state. Biol Fertil Soils 1:81–89
Dick RP (1994) Soil enzyme activities as indicators of soil quality. In: Defining soil quality for sustainable environment Special Pub. 35. JW, Doran DC, Coleman DF, Bezdicek and Stewart BA (eds.) Soil Science Society of America, Inc., Madison, WI. Pp. 107–124
Schnurer J and Rosswall T (1982) Fluorescein diacetate hydrolysis as a measure of total microbial activity in soil and litter. Appl Environ Microbial 43:1256–1261
Lundgren B (1981) Fluorescein diacetate as a statin of metabolically active bacteria in soil. Oikos 36: 17–22
Topp E, Vallayes T and Soulas G (1997) Pesticides: Microbial degradation and effects on microorganisms. In: Modern soil microbiology. Van Elsas JD Trevors JT and Wellington EMH (eds.). Mercel Dekker, Inc. New York. USA. Pp. 547–575
Gupta S and Gajbhiye VT (2002) Effect of concentration, moisture and soil type on the dissipation of flufenacet from soil. Chemosphere 47:901–906
Prakash NB and Suseela Devi L (2000) Persistence of butachlor in soils under different moisture regime. J Indian Soc Soil Sci 48:249–256
Gold RE, Howell HN, Pawson BM, Wright MS and Lutz JL (1996) Persistence and bioavailability of termicides to subterranean termites from five soils types and location in Texas. Sociobiol 28: 337–363
Jones WJ and Ananyeva ND (2001) Correlations between pesticide transformation rate and microbial respiration activity in soil of different ecosystems. Biol Fertil Soils 33:477–483
Walter-Echols G and Lichtenstein EP (1978) Movement and metabolism of 14C-phorate in a flooded soil system. J Agri Food Chem 26:599–604
Burns RG (1975) Factors affecting pesticides loss from soil. In: Soil Biochemistry. Vol. 4 Paul, E. A. and McLaren, A. D (eds.). Marcel Dekker, Inc., New York. USA, Pp. 103–141
Racke KD, Skidmore MW, Hamilton DJ, Unsworth JB, Miyamoto J and Cohen SZ (1997). Pesticide fate in tropical soils. Pure and Appl Chem 69:1349–1371
Alexander M (1977) Introduction to soil microbiology 2nd Edn. Wiley Eastern Limited, New Delhi
Jitender K, Kumar J and Prakash J (1993) Persistence of thiobencarb and butachlor in soil incubated at different temperatures. In: Integrated weed management for sustainable agriculture. Proc. Indian Soc. Weed. Sci. Int. Seminar. Hisar, India. Pp. 123–124
Hicks RJ, Stotzky G and Voris PV (1990) Review and evaluation of the effects of xenobiotic chemicals on microorganisms in soil. Adv Appl Microbiol 35:195–253
Reddy BR and Sethunathan N (1985) Salinity and the persistence of parathion in flooded soil. Soil Biol Biochem 17:235–239
Perucci P, Dumontet S, Bufo SA, Mazzatura A and Casucci C (2000) Effects of organic amendments and herbicide treatment on soil microbial biomass. Biol Fertil Soils 32:17–23
Walker N (1975). Microbial degradation of plant protection chemicals. In: Soil Microbiology. Walker, N. (ed.) Butterwoths. London. Pp. 181–194
Thom E, Ottow JCG and Benckiser G (1997) Degradation of the fungicide difenoconazole in a silt loam soil as affected by pretreatment and organic amendement. Environ Poll 96:409–414
Yoshida T (1978) Microbial metabolism in rice soils. In: Soils and Rice, International Rice Research Institute, Philippines. Pp. 445–463
Barua AS, Saha J, Chaudhuri S, Chowdhury A and Adityachaudhury N (1990) Degradation of Pendimethalin by Soil. Fungi Pestic Sci 29(4):419–425
Chakraborty SK, Chowdhury A, Bhattacharyya A, Ghosh S, Pan S, Waters R and Adityachaudhury N (1995) Microbial Degradation of Oxidiazon by Soil Fungus Fusarium. J Agric Food Chem 43:2964–2969
Chakraborty SK, Bhattacharyya A and Chowdhury A (2002) Degradation of Oxyflurfen by Azotobacter chroococcum(Beijerink). Bull Environ Contam Toxicol 69:203–209
Adhya TK, Wahid PA and Sethunathan N (1987) Persistence and biodegradation of selected organophosphorus insecticides in flooded versus non-flood soils. Biol Fertil Soils 4:36–40
Banerjee A, Padhi S and Adhya TK (1999) Persistence and biodegradation of vinclozolin in tropical rice soils. Pestic Sci 55:1177–1181
Karpouzas DG, Walker A, Williams RJF and Drennan DS (1999) Evidence for the enhanced biodegradation of ethoprophos and carbofuran in soils from Greece and the UK. Pest Sci 55:301–311
Sukul P and Spiteller M (2001) Influence of biotic and abiotic factors on dissipating metalaxyl in soil. Chemosphere 45:941–947
Bailey AM and Coffey MD (1985) Biodegradation of Metalaxyl in avocado soils. Phytopathology 74:135–137
Droby S and Coffey MD (1991) Biodegradation processes and the nature of metabolism of metalaxyl in soil. Ann Appl Biol 118:543–553
Burns RG and Edwards JA (1980) Pesticide breakdown by soil enzymes. Pest Sci 11:506–512
Powlson DS (1994) The soil microbial biomass: before, beyond and back. In: Ritz K, Dighton J, Giller KE (eds) Beyond the biomass, Wiley, Chichester(UK), pp 3–20
Sparling GP (1985) The Soil Biomass, In: Soil Organic matter and biological activity. Vaughan D and Malcolm RE (eds.). Martinus Nijoff. / Dr. W. Junk. Dordrecht. Boston. Lanchester. Pp. 223–239
Doran JW and Parkin TB (1994) Defining and assessing soil quality. In: Defining soil quality for sustainable environment. Special Pub. 35. Doran JW, Coleman DC, Bezdicek DF and Stewart BA (eds.). Social Science Society of America, Inc., Madison, WI. Pp. 3–21
Anderson JPE (1981) Methods to evaluate pesticide damage to the biomass of the soil microflora. Soil Biol Biochem 13:149–153
Duah-Yentumi S and Johnson DB (1986) Changes in soil microflora in response to repeated applications of some pesticides. Soil Biol Biochem 18:629–635
Wardle DA and Parkinson D (1990b) Influence of the herbicide glyphosate on soil microbial community structure. Pl Soil 122:29–37
Wardle DA and Parkinson D (1992) Influence of the herbicides, 2, 4-D and glyphosate on soil microbial biomass and activity: A field experiment. Soil Biol Biochem 24:185–186
Perucci P and Scarponi L (1994) Effects of the herbicide imazethapyr on soil microbial biomass and various soil enzyme activities. Biol Fertil Soils 17:237–240
Rath AK, Ramakrishnan B, Kumaraswamy S, Bharati K, Singla P and Sethunathan N (1998) Effect of pesticides on microbial biomass of flooded soil. Chemosphere 37:661–671
Vischetti C, Perucci P and Scarponi L (2000) Relationship between rimusulfuron degradation and microbial biomass content in a clay loam soil. Biol Fertil Soils 31:310–314
Haney RL, Senseman SA and Hons FM (2002) Effect of Roundup Ultra on microbial activity and biomass from selected soils. J Environ Qual 31:730–735
Pal R, Chakrabarti K, Chakraborty A and Chowdhury A (2005) Degradation of pencycuron in soil: effect of application rate and soil conditions. Pest Manag Sci 61:1220–1223
Gray TRG (1990) Methods for studying the microbial ecology of soil. In: Methods in microbiology. Grigorova, R. and Norris, J. R. (eds.). Academic Press, London. Pp. 309–342
Anderson JPE and Domsch KH (1978) A physiological method for the quantitative measurement of microbial biomass in soils. Soils Biol Biochem 10:215–221
Cheng W, Zhang Q, Coleman DC, Caroll CR and Hoffman CA (1996) Is available carbon limiting microbial respiration in the rhizosphere? Soil Biol Biochem 28:1283–1288
Pankhurst CE, Hawke BA, McDonald HJ, Kirby CA, Buckerfield JC, Michelsen P, Ú Brien KA, Gupta VVSR and Doube BM (1995) Evaluation of soil biological properties as potential bioindicators of soil health. Aust J Exp Agr 35:1015–1028
Alef K (1995a) Estimation of soils respiration. In: Methods in applied soil microbiology and biochemistry. Alef, K. and Nannipieri, P. (eds.) Academic Press. London. Pp 215–216
Zelles L, Scheunert I. and Korte F (1985) Side effects of some pesticides on non-target soil microorganisms. J Environ Sci Health 20:457–488
Wardle DA and Parkinson D (1990a) Effects of three herbicides on soil microbial biomass and activity. Pl Soil 122:21–28
Tu CM (1992) Effect of some herbicides on activities of microorganisms and enzymes in soil. J Environ Sci Health 27:695–709
Haney RL and Senseman SA (2000) Effect of glyphosate on soil microbial activity and biomass. Weed Sci 48:89–93
Powlson DS, Brookes PC and Christensen BT (1987) Measurement of soil microbial biomass provides an early indication of changes in total soil organic matter due to straw incorporation. Soil Biol Biochem 19:159–164
Wardle DA (1992) A comparative assessment of factors which influence microbial biomass carbon and nitrogen levels in soil. Biol Rev 67:321–358
Wardle DA and Ghani A (1995) A critique of the microbial metabolic quotient (qCO2) as a bioindicator of disturbance and ecosystem development. Soil Biol Biochem 27:1601–1610
Anderson TH and Domsch KH (1990) Application of ecophysiological quotients (qCO2 and qD) on microbial biomass from soils of different cropping histories. Soil Biol Biochem 22:251–255
Perucci P, Dumontet S, Bufo SA, Mazzatura A and Casucci C (2000) Effects of organic amendments and herbicide treatment on soil microbial biomass. Biol Fertil Soils 32:17–23
Adam G and Duncan H (2001) Development of a sensitive and rapid method for the measurement of total microbial activity using fluorescein diacetate (FDA) in a range of soils. Soil Biol Biochem 33:943–951
Dumontet S, Perucci P and Bufo AS (1997) Soil organic amendments and herbicidal treatments: effect on soil microbial biomass. Actes du XXVII Congres du Groupe Francais des Pesticides, Orleans, France. Pp. 211
Perucci P, Vischetti C and Battistoni F (1999) Rimsulfuron in a silty clay loam soil: effects upon microbiological and biochemical properties under varying microcosm conditions. Soil Biol Biochem 31:195–204
Alexander M (1994) Biodegradation and bioremediation. Academic Press, New York
Moorman TB and Harper SS (1989) Transformation and mineralization of metribuzin in surface and subsurface horizons of a Mississippi Delta soil. J Environ Qual 18:302–306
Walker A, Moon YH and Welch SJ (1992) Influence of temperature, soil moisture and soil characteristics on persistence of Alachlor. Pest Sci 35:109–116
Entry JA, Donelly PK and Emmingham WH (1994) Microbial mineralization of atrazine and 2, 4-dichlorophenoxyacetic acid in riparian pasture and forest soils. Biol Fertil Soils 18:89–94
Ghani A, Wardle DA, Rahman A and Lauren DR (1996) Interactions between 14C labeled atrazine and the soil microbial biomass in relation to herbicide degradation. Biol Fertil Soils 21:17–22
Vischetti C, Casucci C and Perucci P (2002) Relationship between changes of soil microbial biomass content and benfluralin degradation. Biol Fertil Soils 35:13–17
Mulbry W, Kearney PC (1991) Degradation of pesticides by microorganisms and the potential for genetic manipulation. Crop Protection 10:334–346
Chaudhry MQ, Schroeder P, Werck-Reichhart D, Grajek W and Marecik R (2002) Prospects and limitations of phytoremediation for the removal of persistent pesticides in the environment. Environmental Science and Pollution Research 9(1):4–17
Hance RJ (1973) The effects of nutrients on the decomposition of the herbicides atrazine and linuronincubated with soil. Pestic Sci 4:817–822
Simonich SL, Hites RA (1995) Organic pollutant accumulation in vegetation. Environmental Science and Technology 29:2905–2914
Wackett LP, Sadwosky MJ, Newman LM, Hur HG and Li S (1994) Metabolism of polyhalogenated compounds by a genetically engineered bacterium. Nature 368:627–629
Evans CS and Bucke C (1998) Bioremediation by fungi, Chemistry and Industry 4:134–137
Hamby DM (1996) Site remediation techniques supporting environmental restoration activities-a review. The Science of the Total Environment 191:203–224
Lejeune KE, Wild JR and Russell AJ (1998) Nerve agents degraded by enzymatic foams. Nature 395:27–28
Hatzinger PB and Alexander M (1995) Effect of ageing of chemicals in soil in their biodegradability and extractability. Environmental Science and Technology 29:537–545
Allard A and Neilson AH (1997) Bioremediation of organic waste sites: A critical review of microbiological aspects. International Biodeterioration and Biodegradation 39(4):253–285
Romantschuk M, Sarand I, Petänen T, Peltola R, Jonsson-Vihanne M, Koivula T, Yrjälä K and Haahtela K (2000) Means to improve the effect of in-situ bioremediation of contaminated soil: an overview of novel approaches. Environmental Pollution 107:179–185
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Chowdhury, A., Pradhan, S., Saha, M. et al. Impact of pesticides on soil microbiological parameters and possible bioremediation strategies. Indian J Microbiol 48, 114–127 (2008). https://doi.org/10.1007/s12088-008-0011-8
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s12088-008-0011-8