Magnificent Bio-Management of Pesticides in Agriculture Soil

Authors

  • Namita Ahakey Department of Biotechnology, Barkatullah University, Bhopal-462024, M.P, India
  • Ragini Gothalwal Department of Biotechnology, Barkatullah University, Bhopal-462024, M.P, India

DOI:

https://doi.org/10.55677/ijlsar/V03I9Y2024-04

Keywords:

Pesticides, Pollution, Agrochemical, Degradation, Soil

Abstract

Following World War II, the agrochemical industry burgeoned, introducing diverse chemical agents like pesticides and herbicides to enhance crop production. These compounds, including herbicides, insecticides, and fungicides, are toxic and persist in the environment, causing soil, water, and air pollution and disrupting ecological balance. Farmers, heavily reliant on soil, initially use these chemicals to boost productivity, but over time, they become detrimental, accumulating in organisms and harming trophic levels. Addressing this challenge involves improving soil quality and eco-friendliness for maximum crop production. Indigenous microbial consortia, comprising bacteria and fungi, offer a cost-effective and eco-friendly solution by metabolizing and bio-remediating toxic compounds. This review focuses on their role in removing commercial xenobiotic pesticides that harm soil.

References

Abdel-Mallek, A.Y., Moharram, A.M., Abdel-Kader, M.I. and Omar, S.A. (1994), “Effect of soil treatment with the organophosphorus insecticide profenofos on the fungal flora and some microbial activities”, Microbiological Research, 149(2), 167-171. https://doi.org/10.1016/S0944-5013(11)80114-X.

Abdullah, N.Z., Ishaka A., Samsuddin, N., Mohd Rus, R. and Mohamed, A.H. (2011), “Chronic organophosphate pesticide exposure and coronary artery disease: finding a bridge”, IIUM Research, Invention and Innovation Exhibition (IRIIE), 2011, 223. http://irep.iium.edu.my/13579/

Abian, J., Durand, G. and Barceló, J. (1993), “Analysis of chlorotriazines and their degradation products in environmental samples by selecting various operating modes in thermospray HPLC/MS/MS”, Journal of Agricultural and Food chemistry, 41(8), 1264-1273. https://doi.org/10.1021/jf00032a020

Akashe, M.M., Pawade, V.U. and Nikam, V.A. (2018), “Classification of Pesticides: A Review” International Journal of Research in Ayurveda Pharmacy, 9(4), 144-150. http://dx.doi.org/10.7897/2277-4343.094131.

Aktar, M.W., Sengupta, D. and Chowdhury A. (2009), “Impact of pesticides use in agriculture: their benefits and hazards”. Interdisciplinary toxicology, 2(1), 1–12. https://doi.org/10.2478%2Fv10102-009-0001-7.

Alengebawy, A., Abdelkhalek, S.T., Qureshi, S.R. and Wang, M.Q. (2021), “Heavy Metals and Pesticides Toxicity in Agricultural Soil and Plants: Ecological Risks and Human Health Implications”, Toxics, 9(3), 1-33. https://doi.org/10.3390%2Ftoxics9030042.

Alexander, M. (1994), Biodegradation And Bioremediation, Academic Press. San Diego, California, USA.

Andersen, H.R., Wohlfahrt-Veje, C., Dalgård, C., Christiansen, L., Main, K.M., Nellemann, C., Murata, K., Jensen, T.K., Skakkebaek, N.E. and Grandjean, P. (2012), “Paraoxonase 1 polymorphism and prenatal pesticide exposure associated with adverse cardiovascular risk profiles at school age”, PloS One, 7(5), 1-11. https://doi.org/10.1371/journal.pone.0036830.

Andrea, M.M., Peres, T.B., Luchini, L.C. and Pettinelli, J.A. (2000), “Impact of long-term pesticide application on some soil biological parameters”, Journal of Environmental Science and Health B, 35(3), 297-307. https://doi.org/10.1080/03601230009373271.

Andreu, V. and Pico', Y. (2004), “Determination of pesticides and their degradation products in soil: critical review and comparison of methods”, Trends in Analytical Chemistry, 23(10-11), 772-789. https://doi.org/10.1016/j.trac.2004.07.008.

Ansari, A.A., Naeem, M. and Gill, S.S. (2018), “Contaminants in Agriculture: Threat to Soil Health and Productivity”, Agricultural research and technology, 16(1), 14-15. http://dx.doi.org/10.19080/ARTOAJ.2018.16.555975.

Arias-Estévez, M., López-Periago, E., Martínez-Carballo, E., Simal-Gándara, J., Mejuto, J.C., and García-Río, L. (2008), “The mobility and degradation of pesticides in soils and the pollution of groundwater resources”, Agriculture, Ecosystems and Environment, 123(4), 247-260. https://doi.org/10.1016/j.agee.2007.07.011.

Arinze, A.E., and Yubedee, A.G. (2000), “Effect of fungicides on Fusarium grain rot and enzyme production in maize (Zea mays L.)”, Global Journal of Pure and Applied Sciences, 6(4), 629-634.

Band, P.R., Abanto, Z., Bert, J., Lang, B., Fang, R., Gallagher, R.P. and Le, N.D. (2011), “Prostate cancer risk and exposure to pesticides in British Columbia farmers”, Prostate, 71(2), 168-183. https://doi.org/10.1002/pros.21232

Barh, A., Singh, S., Chandra, D., Pandey, R.K, Chandra, S. and Singh, N.K. (2015), “Enhanced bioremediation techniques for agricultural soils”, International journal of current research and academic review, 3(7), 166-173.

Barupal, T., Chittora, D. and Meena, M. (2019), Advances in waste to energy technologies, (1st Edition), CRC Press, Boca Raton, Florida.

Benardes, M.F.F, Panzin, M., Pererei, L.C. and Dorta, D.J. (2015), Toxicology Studies – Cells, Drugs and Environment, IntechOpen, Toronto, Canada.

Boldt, T.S. and Jacobsen, C.S. (1998), “Different toxic effects of the sulphonylurea herbicides metsulfuron methyl, chlorsulfuron and thifensulfuron methyl on fluorescent pseudomonads isolated from an agricultural soil”, FEMS Microbiology Letters, 161(1), 29-35. https://doi.org/10.1111/j.1574-6968.1998.tb12925.x

Bolognesi, C. (2003), “Genotoxicity of pesticides: a review of human biomonitoring studies”, Mutation Research, 543(3), 251-72. https://doi.org/10.1016/s1383-5742(03)00015-2

Bose, S., Kumar, P.S., Vo, N.V.D., Rajamohan, N. and Saravanan, R. (2021), “Microbial degradation of recalcitrant pesticides: a review”, Environmental Chemistry Letters, 19(1), 3209-3228. https://doi.org/10.1007/s10311-021-01236-5

Carvalho P.F. (2017), “Pesticides, environment and food safety”, Food and Energy Security, 6(2), 48-60. https://doi.org/10.1002/fes3.108

Chakraborty, S., Mukherjee, S., Roychoudhury, S., Siddique, S., Lahiri, T. and Ray, M.R. (2009), “Chronic exposures to cholinesterase-inhibiting pesticides adversely affect respiratory health of agricultural workers in India”, Journal of Occupational Health, 51(6), 488-497. https://doi.org/10.1539/joh.L9070

Chalam, A.V., Sasikala, C., Ramana, C.V. and Rao, P.R. (1996), “Effect of pesticides on hydrogen metabolism of Rhodobacter sphaeroides and Rhodopseudomonas palustris”, FEMS Microbiology Ecology, 19(1), 1-4. https://doi.org/10.1016/0168-6496(95)00065-8

Chen, S.K., Edwards, C.A. and Subler, S. (2001), “Effect of fungicides benomyl, captan and chlorothalonil on soil microbial activity and nitrogen dynamics in laboratory incubations”, Soil Biology and Biochemistry, 33(14), 1971-1980. https://doi.org/10.1016/S0038-0717(01)00131-6

Cocco, P., Satta, G., Dubois, S., Pili, C., Pilleri, M., Zucca, M., Mannetje, A.M., Becker, N., Benavente, Y., Sanjose, S.De., Foretova, L., Staines, A., Maynadie, M., Nieters, A., Brennan, P., Miligi, L., Ennas, M.G. and Boffetta, P. (2013), “Lymphoma risk and occupational exposure to pesticides: results of the Epilymph study”, Occupational and Environmental Medicine, 70(2), 91-98. https://doi.org/10.1136/oemed-2012-100845

Damalas, C.A. and Eleftherohorinos, I.G. (2011), “Pesticide exposure, safety issues, and risk assessment indicators”, International Journal of Environment Research and Public Health, 8(5), 1402-19. https://doi.org/10.3390%2Fijerph8051402

Demanou, J., Monkiedje, A., Njine, T., Foto, S.M., Nola, M., Serges, H., Togouet, Z. and Kemka, N. (2004), “Changes in soil chemical properties and microbial activities in response to the fungicide Ridomil gold plus copper”, International Journal of Environmental Research and Public Health, 1(1), 26-34. https://doi.org/10.3390/ijerph2004010026

Denholm, I., Cahill, M., Dennehy, T.J. and Horowitz, A.R. (1998), “Challenges with Managing Insecticide Resistance in Agricultural Pests Exemplified by the Whitefly Bemisia Tabaci”, Philosophical Transactions: Biological Sciences, 353(1376), 1757–1767.

Dent, D. and Binks, R.H. (2020), Insect pest management (3rd Edition), CABI publishing, Cambridge, England.

Dixit, R., Wasiullah, Malaviya, D., Pandiyan, K., Singh, U.B., Sahu, A., Shukla, R., Bhanu, P., Singh, B.P., Rai, J.P., Sharma, K.P., Lade, H. and Paul D. (2015), “Bioremediation of Heavy Metals from Soil and Aquatic Environment: An Overview of Principles and Criteria of Fundamental Processes”, Sustainability, 7(2), 2189-2212. https://doi.org/10.3390/su7022189

Doran, J.W. and Safley, M. (1997), Biological indicators of Soil Health, CABI Publishing, Wallingford, U.K.

Dua, A., Singh, A., Sethunathan, N. and Johri, A.K. (2002), “Biotechnology and bioremediation: Successes and Limitations”, Applied Microbial Biotechnology, 59(2-3), 143-52. https://doi.org/10.1007/s00253-002-1024-6

Dutta, M., Sardar, D., Pal, R. and Kole, R.K. (2010), “Effect of chlorpyrifos on microbial biomass and activities in tropical clay loam soil”, Environmental Monitoring and Assessment, 160(1-4), 385-391. https://pubmed.ncbi.nlm.nih.gov/19083110/.

Elbaz, A., Clavel, J., Rathouz, P.J., Moisan, F., Galanaud, J.P., Delemotte, B., Alperovitch, A. and Tzourio, C. (2009), “Professional exposure to pesticides and Parkinson disease”, Annals of Neurology, 66(4), 494-504. https://doi.org/10.1002/ana.21717.

Ferrusquía, Ch., Roa, G., García, M., Amaya, A. and Pavón T. (2008), “Evaluación de la degradación de metil paratión en solución usando fotocatálisis heterogénea”, Review Latinoamericana de Recursos Naturales, 4(2), 85-290.

Floch, C., Chevremont, A.C., Joanico, K., Capowiez, Y. and Criquet S. (2011), “Indicators of pesticide contamination: Soil enzyme compared to functional diversity of bacterial communities Ecoplates”, European Journal of Soil Biology, 47(4), 256-263. https://dx.doi.org/10.1016/j.ejsobi.2011.05.007

Gianelli, V.R., Bedmar, F. and Costa, J.L. (2014), “Persistence and sorption of impazapyr in three Argentinean soils”, Environmental Toxicology and Chemistry, 33(1), 29-34. https://doi.org/10.1002/etc.2400.

Gianfreda, L., Sannino, F. and Violante, A. (1995), “Pesticide effects on the activity of free, immobilized and soil invertase”, Soil Biology and Biochemistry, 27(9), 1201-1208. https://doi.org/10.1016/0038-0717(95)00034-C.

Greenlee, A.R., Arbuckle, T.E. and Chyou, P.H. (2003), “Risk factors for female infertility in an agricultural region”, Epidemiology, 14(4), 429-436. https://doi.org/10.1097/01.ede.0000071407.15670.

Handa, S.K., Agnihotri, N.P. and Kulshreshtha, G. (1999), Pesticide Residues: Significance, Management and Analysis, Research Periodicals and Book Publishing House, Houston, Texas.

Hayden, K.M., Norton, M.C., Darcey, D., Østbye, T., Zandi, P.P., Breitner, J.C.S. and Welsh-Bohmer, K.A. (2010), “Occupational exposure to pesticides increases the risk of incident AD The Cache County Study”, Neurology, 74(19), 1524-1530. https://doi.org/10.1212%2FWNL.0b013e3181dd4423.

Heck, J.E., Charbotel, B., Moore, L.E., Karami, S., Zaridze, D.G., Matveev, V., Janout, V., Kollarova, H., Foretova, L., Bencko, V., Szeszenia-Dabrowska, N., Lissowska, J., Mates, D., Ferro, G., Chow, W.H., Rothman, N., Stewart, P., Brennan, P. and Boffetta, P. (2010), “Occupation and renal cell cancer in Central and Eastern Europe”, Occupational and Environmental Medicine, 67(1), 47-53. https://doi.org/10.1136%2Foem.2009.046250.

Hoppin, J.A., Umbach, D.M., London, S.J., Henneberger, P.K., Kullman, G.J., Coble, J., Alavanja, M.C.R., Freeman, L.E.B. and Sandler, D.P. (2009), “Pesticide use and adult-onset asthma among male farmers in the agricultural health study”, European Respiratory Journal, 34(6), 1296-1303. https://doi.org/10.1183/09031936.00005509.

Hussain, S., Arshad, M., Shaharoona, B., Saleem, M. and Khalid, A. (2009), “Concentration dependent growth/non-growth linked kinetics of endosulfan biodegradation by Pseudomonas aeruginosa”, World Journal of Microbiology and Biotechnology, 25(5), 853–858. http://dx.doi.org/10.1007/s11274-009-9958-9.

Ingram, C.W., Coyne, M.S. and Williams D.W. (2005), “Effects of commercial diazinon and imidacloprid on microbial urease activity in soil”, Journal of Environmental Quality, 34(5), 1573-1580. https://doi.org/10.2134/jeq2004.0433.

Karigar, C.S. and Rao S.S. (2011), “Role of Microbial Enzymes in the Bioremediation of Pollutants: A Review”, Enzyme Research, 2011(1), 1-11. https://doi.org/10.4061/2011/805187.

Kim, H., Kim, D.U., Lee, H., Yun, J. and Ka, J.O. (2017), “Syntrophic biodegradation of propoxur by Pseudaminobacter sp. SP1a and Nocardioides sp. SP1b isolated from agricultural soil”, International Biodeterioration and Biodegradation, 118(1), 1–9. https://doi.org/10.1016/j.ibiod.2017.01.024.

Kim, K.H., Kabir, E. and Jahan, S.A. (2017), “Exposure to pesticides and the associated human health effects”, Science of the Total Environment, 575(1), 525–535. https://doi.org/10.1016/j.scitotenv.2016.09.009.

Kizilkaya, R., Akça, İ., Aşkın, T., Yılmaz, R., Olekhov, V., Samofalovaf, I. and Mudrykh, N. (2012), “Effect of soil contamination with azadirachtin on dehydrogenase and catalase activity of soil”, Eurasian Journal of Soil Science, 1(2), 98-103.

Laabs, V., Amelung, W., Fent, G., Zech, W. and Kubiak, R. (2002), “Fate of 14 C-Labeled Soybean and Corn Pesticides in Tropical Soils of Brazil under Laboratory Conditions”, Journal of agricultural and food chemistry, 50(2), 4619-27. https://doi.org/10.1021/jf0115443.

Lamichhane, J.R., Durr, C., Schwanck, A.A., Rabin, M.H., Sarthou, J.P., Cellier, V., Messean, A. and Aubertot, J.N. (2017), “Integrated management of dumping-off diseases: A review”, Agronomy Sustainable Development, 37(1), 417-23. https://doi.org/10.1007/s13593-017-0417-y.

Larson, W.E. and Pierce F.J. (1994), Defining Soil Quality for a Sustainable Environment, SSSA, and Madison, WI.

Lee, D.H., Lind, P.M., Jacobs, D.R., Salihovic, S., van Bavel, B. and Lind, L. (2011), “Polychlorinated biphenyls and organochlorine pesticides in plasma predict development of type 2 diabetes in the elderly. The Prospective Investigation of the Vasculature in Uppsala Seniors (PIVUS) study”, Diabetes Care, 34(8), 1778-1784. https://doi.org/10.2337/dc10-2116.

Liu, Y., Mo, R., Tang, F., Fu, Y. and Guo, Y. (2015), “Influence of different formulations on chlorpyrifos behavior and risk assessment in bamboo forest of China”, Environmental Science and Pollution Research, 22(24), 20245–20254. https://doi.org/10.1007/s11356-015-5272-2.

Luo, C., Huang, Y., Huang, D., Liu, M., Xiong, W., Guo, Q. and Yang, T. (2018), “Migration and Transformation Characteristics of Niclosamide in a Soil–Plant System”, ACS Omega, 3(2), 2312–2321. https://doi.org/10.1021/acsomega.8b00071.

Lupwayi, N.Z., Harker, K.N., Clayton, G.W., O’Donovan, J.T. and Blackshaw, R.E. (2009), “Soil microbial response to herbicides applied to glyphosate-resistant canola”, Agriculture Ecosystem and Environment, 129(1-2), 171-176. https://doi.org/10.1016/j.agee.2008.08.007.

Madhuri, R.J. and Rangaswamy, V. (2002), “Influence of selected insecticides on phosphatase activity in groundnut (Arachis hypogeae L.) soil”, Journal of Environmental Biology, 23(4), 393-397. PMID: 12674380.

Maksymiv, I. (2015), “Pesticides: Benefits and Hazards”, Journal of vasyl Stefanyk Precarpathian National University, 2(1), 70-76. https:// doi: 10.15330/jpnu.2.1.70-76.

Marie, L., Payraudeau, S., Benoit, G., Maurice, M. and Gwenaël, I. (2017), “Degradation and Transport of the Chiral Herbicide S-Metolachlor at the Catchment Scale: Combining Observation Scales and Analytical Approaches”, Environmental Science and Technology, 51(22), 13231–13240. https://doi.org/10.1021/acs.est.7b02297.

Martinez-Toledo, M.V., Salermon, V., Rodelas, B., Pozo, C. and Gonzalez-Lopez, J. (1998), “Effects of the fungicide captan on some functional groups of soil microflora”, Applied Soil Ecology, 7(3), 245-255. https://doi.org/10.1016/S0929-1393(97)00026-7.

Mayanglambam, T., Vig, K. and Singh D.K. (2005), “Quinalphos persistence and leaching under field conditions and effects of residues on dehydrogenase and alkaline phosphomonoesterases activities in soil”, Bulletin of Environmental Contamination and Toxicology, 75(6), 1067-1076. https://doi.org/10.1007/s00128-005-0858-x.

Mesnage, R., Clair, E., de Vendômois, J.S. and Seralini G.E. (2010), “Two cases of birth defects overlapping Stratton-Parker syndrome after multiple pesticide exposure”, Occupational and Environmental Medicine, 67(5), 359-359. https://doi.org/10.1136/oem.2009.052969.

Mosa, K.A., Saadoun, I., Kumar, K., Helmy, M. and Dhankher, O.P. (2016), “Potential Biotechnological Strategies for the Cleanup of Heavy Metals and Metalloids”, Frontiers in plant science, 7(1), 1-14. https://doi.org/10.3389%2Ffpls.2016.00303.

Mostafalou, S. and Abdollahi, M. (2013), “Concerns of environmental persistence of pesticides and human chronic diseases”, Clinical and Experimental Pharmacology, 5(1), 157-177. http://dx.doi.org/10.1016/j.taap.2013.01.025.

Muñoz-Leoz, B., Ruiz-Romera, E., Antigüedad, I. and Garbisu, C. (2011), “Tebuconazole application decreases soil microbial biomass and activity”, Soil Biology Biochemistry, 43(10), 2176–83. https://doi.org/10.1016/j.soilbio.2011.07.001.

Nandhini, R.A., Harshiny, M. and Gummadi, N.S. (2021), “Chlorpyrifos in environment and food: a critical review of detection methods and degradation pathways”, Environment Science: Processes and Impacts, 23(1), 1255-77. https://doi.org/10.1039/D1EM00178G.

Niewiadomska, A. (2004), “Effect of carbendazim, imazetapir and thiram on nitrogenase activity, the number of microorganisms in soil and yield of red clover (Trifolium pretense L)”, Polish Journal of Environmental Studies, 13(4), 403-410.

Niewiadomska, A. and Klama, J. (2005), “Pesticide side effect on the symbiotic efficiency and nitrogenase activity of Rhizobiaceae bacteria family”, Polish Journal of Microbiology, 54(1), 43-48. PMID: 16209094.

Nowak, A., Nowak, J., Klodka, D., Pryzbulewska, K., Telesinski, A. and Szopa E. (2004), “Changes in the microflora and biological activity of the soil during the degradation of isoproturon”, Journal of Plant Diseases and Protection, 19(1), 1003-1016.

Omar, S.A. and Abdel-Sater, M.A. (2001), “Microbial populations and enzyme activities in soil, treated with pesticides”, Water, Air, and Soil Pollution, 127, 49-63.

Pathak, M.V., Verma, K.V., Rawat, S.B., Kaur, B., Babu, N., Sharma, A., Dewali, S., Yadav, M., Kumari, R., Singh, S., Mohapatra, A., Pandey, V., Rana, N. and Cunil M. J. (2022), “Current status of pesticide effects on environment, human health and its eco-friendly management as bioremediation: A comprehensive review”, Frontier Microbiology, 13, 1-29.

Patnaik, G.K., Kanungo, P.K., Moorthy, B.T.S., Mahana, P.K., Adhya, T.K. and Rao, V.R. (1995), “Effect of herbicides on nitrogen-fixation (C2H2 reduction) associated with rice rhizosphere”, Chemosphere, 30, 339-343.

Paz-Ferreiro, J. and Fu, S. (2016), “Biological indices for soil quality evaluation: perspectives and limitations”, Land Degradation and Development, 27, 14–25.

Peng, Y., Cheng, X., Liu, D., Liu, X., Ma, G., Li, S., Yang, Y., Zhang, Y. and Bai, L. (2021), “Quintrione: A new selective herbicide for weed control in rice (Oryza sativa L.)”, Crop Protection, 141, 1- 35.

Petrelli, G. and Mantovani, A. (2002), “Environmental risk factors and male fertility and reproduction”, Contraception, 65, 297-300.

Prasad, S.M., Zeeshan, M. and Kumar, D. (2011), “Toxicity of endosulfan on growth, photosynthesis, and nitrogenase activity in two species of Nostoc (Nostoc muscorum and Nostoc calcicola)”, Toxicological and Environmental Chemistry, 93, 513-525.

Preety, J. and Bharucha, Z.P. (2015), “Integrated pest management fo sustainable intensification of Agriculture in Asia and Africa”, Insects, 6, 152- 182.

Raffa, C.M. and Chiampo, F. (2021), “Bioremediation of Agricultural Soils Polluted with Pesticides: A Review”, Bioengineering, 8, 92.

Robinson, D.E., Mansingh, A. and Dasgupta, T.P. (1999), “Fate and transport of ethoprophos in the Jamaican environment”, Science Total Environment, 238, 373–378.

Rodriguez- Eugenio, N., McLaughlin, M. and Pennock D. (2018), “Soil Pollution: a hidden reality”, Pp.142-150. In: Pennock, L., Sala, M., Verbeke, I. and Stanco G. (Eds) FAO, Rome.

Ross, G. (2005), “Risks and benefits of DDT”, The Lancet, 366, 1771-2.

Saeedi Saravi, S.S. and Shokrzadeh, M. (2011), “Role of pesticides in human life in the modern age: A review”, Pp 4-12. In: Stoytcheva, M. (Ed), “Pesticides in the modern world- risks and benefits”, InTech.

Sannino, F. and Gianfreda, L. (2001), “Pesticide influence on soil enzymatic activities”, Chemosphere, 45, 417-25.

Shah, M.P. (2017), “Soil Bioremediation”, International Journal of Biotechnology and Bioengineering, 3, 8-9.

Sharma, A., Kumar, V., Thukral, A.K. and Bhardwaj, R. (2019), “Responses of plants to pesticide toxicity: an overview”, Plant daninha, 37, 1-19.

Singh, B.K. and Walker, A. (2006), “Microbial degradation of organophosphorus compounds”, FEMS Microbiology Review, 30, 428–471.

Singh, D.K. (2012), “Toxicology: Agriculture and Environment”, In “Pesticides Chemistry and Toxicology”, Bentham science publishers.

Singh, D.K. and Kumar, S. (2008), “Nitrate reductase, arginine deaminase, urease and dehydrogenase activities in natural soil (ridges with forest) and in cotton soil after acetamiprid treatments”, Chemosphere, 71, 412-418.

Singhal, M., Jadhav, V.S., Sonone, S.S. and Sankhla S.M. (2021), “Microalgae based sustainable bioremediation of water contaminated by pesticides”, Biointerface Research in Applied Chemistry, 12, 149-169.

Sofo, A., Scopa, A., Dumontet, S., Mazzatura, A. and Pasquale, V. (2012), “Toxic effects of four sulpho‐nylureas herbicides on soil microbial biomass”, Journal of Environmental Science and Health B, 47, 653-9.

Son, H.K., Kim, S.A., Kang, J.H, Chang, Y.S., Park, S.K., Lee, S.K., Jacobs, Jr.D.R. and Lee, D.H. (2010), “Strong associations between low-dose organochlorine pesticides and type 2 diabetes in Korea”, Environment International, 36, 410-414.

Srinivasulu, M., Mohiddin, G.J., Subramanyam, K. and Rangaswamy, V. (2012), “Effect of insecticides alone and in combination with fungicides on nitrification and phosphatase activity in two groundnut (Arachis hypogeae L.) soils”, 34, 365-374.

Strong, P.J. and Burgess, J.E. (2008), “Treatment methods for wine-related and distillery wastewaters review”, Bioremedy Journal, 12, 70-87.

Sukul, P. (2006), “Enzymes activities and microbial biomass in soil as influenced by metalaxyl residues”, Soil Biology Biochemistry, 38, 320-326.

Sun, W., Chen, Y., Liu, L., Tang, J., Chen, J. and Liu, P. (2010), “Conidia immobilization of T-DNA inserted Trichoderma atroviride mutant AMT-28 with dichlorvos degradation ability and exploration of biodegradation mechanism”, Bioresource Technology, 101, 9197-9203.

Talat, P., Sumira, J., Sumira, M., Tasneem, F. and Zahid, H.S. (2016), “Selective effect of pesticides on plant: a review”, Critical reviews in food science and nutrition, 56, 160-79.

Tanner, C.M., Kamel, F., Ross, G.W., Hoppin, J.A., Goldman, S.M., Korell, M., Marras, C., Bhudhikanok, G.S., Kasten, M., Chade, A.R., Comyns, K., Richards, M.B., Meng, C., Priestley, B., Fernandez, H.H., Cambi, F., Umbach, D.M., Blair, A., Sandler, D.P. and Langston J.W. (2011), “Rotenone, paraquat, and Parkinson's disease”, Environmental Health Perspectives, 119, 866-872.

Tariq, S.R. and Nisar, L. (2018), “Reductive transformation of profenofos with nanoscale Fe/Ni particles”, Environment Monitoring Assessment, 190, 123-146.

Tarla, D.N., Erickson, L.E., Hettiarachchi, G.M., Amadi, S.I., Galkaduwa, M., Davis, L.C., Nurzhanova, A. and Pidlisnyuk, V. (2020), “Phytoremediation and bioremediation of pesticide-contaminated soil”, Applied Science, 10, 1-25.

Tcaciuc, A.P., Borrelli, R., Zaninetta, L.M., Gschwend, P.M. and Tcaciuc, P. (2018), “Passive sampling of DDT, DDE and DDD in sediments:Accounting for degradation processes with reaction–diffusion modeling”, Environmental Science Processes Impact, 20, 220-231.

Tu, C.M. (1981), “Effects of some pesticides on enzyme activities in an organic soil”, Bulletin of Environmental Contamination and Toxicology, 27, 109-114.

Tudi, M., Daniel, Ruan, H., Wang, L., Lyu, J., Sadler, R., Connell, D., Chu, C. and Phung, D.T. (2021), “Agriculture Development, Pesticide Application and Its Impact on the Environment”, International Journal of Environmental Research and Public Health, 18, 1112- 134.

Uqab, B., Mudasir, S. and Nazir, R. (2016), “Review on Bioremediation of Pesticides”, Journal of Bioremediation and Biodegradation, 7, 1-5.

Vidali, M. (2001), “Bioremediation: An overview”, Journal of Applied Chemistry, 73, 1163-1172.

Weber, J.B., Wilkerson, G.G. and Reinhardt, F.C. (2004), “Calculating pesticides sorption coefficients (Kd) using selected soil properties”, Chemosphere, 55, 157–166.

Winchester, P.D., Huskins, J. and Ying, J. (2009), “Agrichemicals in surface water and birth defects in the United States”, Acta Paediatrica, 98, 664-669.

Wu, D., Yun, Y., Jiang, L. and Wu, C. (2018), “Influence of dissolved organic matter on sorption and desorption of MCPA in ferralsol”, Science of the Total Environment, 616–617, 1449-1456.

Wu, L.P., Chládková, B., Lechtenfeld, O.J., Lian, S., Schindelka, J., Herrmann, H. and Richnow, H.H. (2018), “Characterizing chemical transformation of organophosphorus compounds by 13C and 2H stable isotope analysis”, Science of the Total Environment, 615, 20–28.

Xavier, R., Rekha. K. and Bairy, K.L. (2004), “Health perspective of pesticide exposure and dietary management”, Malaysian Journal of Nutrition, 10, 39-51.

Xie, H., Gao, F., Tan, W. and Wang, S.G. (2011), “A short-term study on the interaction of bacteria, fungi and endosulfan in soil microcosm”, Science of the Total Environment, 412, 375-379.

Xu, X., Dailey, A.B., Talbott, E.O., Ilacqua, V.A., Kearney, G. and Asal, N.R. (2010), “Associations of serum concentrations of organochlorine pesticides with breast cancer and prostate cancer in US adults”, Environmental Health Perspectives, 118, 60-66.

Yue, L., Ge, C., Feng, D., Yu, H., Deng, H. and Fu, B. (2017), “Adsorption–desorption behavior of atrazine on agricultural soils in China”, Journal of Environment Science, 57, 180–189.

Zhao, Y., Wendling, L.A., Wang, C. and Pei, Y. (2016), “Behavior of chlorpyrifos and its major metabolite TCP (3,5,6-trichloro-2-pyridinol) in agricultural soils amended with drinking water treatment residuals”, Journal of Soils Sediments, 17, 889–900.

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2024-09-14

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Ahakey, N. ., & Gothalwal, R. . (2024). Magnificent Bio-Management of Pesticides in Agriculture Soil. International Journal of Life Science and Agriculture Research, 3(9), 746–760. https://doi.org/10.55677/ijlsar/V03I9Y2024-04

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Vol. 3 No. 9 (2024): Volume 03 Issue 09 September 2024

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