Abstract
In the present study, gas chromatographic analysis of pesticide residues in bovine milk (n = 312) from Punjab, India, showed chlorpyrifos, DDT, and γ-HCH as the predominant contaminants. In addition, the presence of β-endosulfan, endosulfan suphate, cypermethrin, cyhalothrin, fenvalerate, deltamethrin, malathion, profenofos, and ethion was reported in milk samples. In this study, it was observed that 12 milk samples exceeded the maximum residue limits (MRLs) for γ-HCH (lindane), 18 for DDT and chlorpyrifos, and 1 sample each for endosulfan, cypermethrin, and profenophos. In India, DDT is still permitted for a malaria control program, which may be the plausible reason for its occurrence in milk samples. The spatial variation for presence of pesticide residues in milk indicated greater levels in cotton-growing areas of Punjab. At current levels of pesticide residues in bovine milk, the human health risk assessment in terms of noncancer and cancer hazard was calculated based on both lower-bound [LB (mean residue levels)] and upper-bound [UP (95th percentile level)] limits. It was noticed that cancer and noncancer risk were within United States Environmental Protection Agency prescribed limits for both adults and children at the LB, but children were being exposed to greater risk for DDT and HCH at the 95th-percentile UB level.
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References
Agnihotri NP (2000) Pesticide consumption in agriculture in India: an update. Pesti Res J 12:150–155
Ahmed MT, Loutfy N, El Shieke E (2002) Residue levels of DDE and PCBs in blood serum of women in Port Said in Egypt. J Hazard Mat 89:41–48
AOAC (1999) Guidelines for single-laboratory validation of analytical methods for trace level concentrations of organic chemicals. http://www.iaea.org/trc/pest-qa. Accessed 25 Jan 2012
Battu RS, Singh B, Kang BK (2004) Contamination of liquid milk and butter with pesticide residues in the Ludhiana district of Punjab state, India. Ecol Environ Saf 59:324–331
Bedi JS, Gill JPS, Aulakh RS, Joia BS, Sharma JK (2006) Contamination levels of DDT and HCH residues in different goat tissues. Indian J Anim Sci 75:11–13
Bedi JS, Gill JPS, Aulakh RS, Kaur P, Sharma A, Pooni PA (2013) Pesticide residues in human breast milk: risk assessment for infants from Punjab, India. Sci Total Environ 463:720–726
Bhanti M, Taneja A (2007) Contamination of vegetables of different seasons with organophosphorous pesticides and related health risk assessment in Northern India. Chemosphere 69:63–68
Blossom B, Singh G (2004) Monitoring of insecticide residues in cotton seed in Punjab, India. Bull Environ Contam Toxicol 73:707–712
Cajka T, Hajslova J (2003) Polychlorinated biphenyls and OCPs in human milk from the locality Prague, Czec Republic: a comparative study. Bull Environ Contam Toxicol 70:913–919
Central Insecticide Board and Registration Committee (2012) Major uses of pesticdes. Registered under the Insecticides Act, 1968 Department of Agriculture & Cooperation Committee, Ministry of Agriculture, Government of India. http://cibrc.nic.in/. Accessed 04 Mar 2013
Chandra S, Mahindrakar AN, Shinde LP (2010) Determination of cypermethrin and chlorpyrifos in vegetables by GC-ECD. Inter J ChemTech Res 2:908–911
Cheema HK, Kang BK, Singh B (2004) Monitoring of HCH residues in bovine milk in Punjab, India. Indian J Environ Toxicol 14:54–58
Colborn T, VomSaal FS, Soto AM (1993) Developmental effects of endocrine-disrupting chemicals in wildlife and humans. Environ Health Perspect 101:378–384
Corcellas C, Feo ML, Torres JP, Malm O, Ocampo-Duque W, Eljarrat E, Barcelo D (2012) Pyrethroids in human breast milk: occurrence and nursing daily intake estimation. Environ Int 47:17–22
Deiana P, Fatichenti F (1992) Pesticide residues in milk processing. Ital J Food Sci 4:229–245
Deka SC, Barman N, Baruah AALH (2004) Monitoring of pesticide residues in feed, fodder and butter in Assam. Pestic Res J 16:86–89
Dougherty CP, Henricks H, Reinert JC, Panyacosit L, Axelrad DA, Woodruff TJ (2000) Dietary exposures to food contaminants across the United States. Environ Res 84:170–185
Faouder JL, Bichon E, Brunschwig P, Landelle R, Andre F, Bizec BL (2007) Transfer assessment of fipronil residues from feed to cow milk. Talanta 73:710–717
Feo ML, Ginebreda A, Eljarrat E, Barcelo D (2010) Presence of pyrethroid pesticides in water and sediments of Ebro River Delta. J Hydrol 393:156–162
Feo ML, Eljarrat E, Manaca MN, Dobano C, Barcelo D, Sunyer J (2012) Pyrethroid use malaria control and individual applications by households for other pests and home garden use. Environ Int 38:67–72
Food and Agriculture Organization and World Health Organization (1997) Guidelines for Predicting Dietary Intake of Pesticide Residues (revised). Global Environment Monitoring System – Food Contamination Monitoring and Assessment Programme (GEMS/Food) in collaboration with the Codex Committee on Pesticide Residues WHO/FSF/FOS/97.7. Rome, Italy. http://who.int. Accessed 05 Mar 2012
Food and Agriculture Organization and World Health Organization (2009) Pesticide residues in food. Joint FAO/WHO Meeting on Pesticide Residues. Report of the Joint Meeting of the FAO Panel of Experts on Pesticide Residues in Food and the Environment and the WHO Core Assessment Group on Pesticide Residues. World Health Organization, Food and Agriculture Organization of the United Nations, Rome
Gill HK, Garg H (2014) Pesticides: Environmental impacts and management strategies. In: Marcelo L (ed) Pesticides–Toxic aspects. CC BY, pp 187–230
Gill JPS, Sharma JK, Aulakh RS (2009) Studies on organochlorine pesticide residues in butter in Punjab. Toxicol Int 16:133–136
Goulart S, De Queiroz M, Neves AA, De Queiros JH (2008) Low-temperature clean-up method for the determination of pyrethroids in milk using gas chromatography with electron capture detection. Talanta 75:1320–1323
Government of India (2010) Ministry of statistics and programme implementation, New Delhi. www.indiastat.com. Accessed 25 Jan 2012
Jiang QT, Lee TKM, Chen K, Wong HL, Zheng JS, Giesy JP et al (2005) Human health risk assessment of organochlorines associated with fish consumption in a coastal city in China. Environ Pollut 136:155–165
Kalra RL, Kaur H, Sharma S, Kapoor SK, Chakraborty SS, Kshirasagar RB et al (1999) DDT and HCH residues in dairy milk samples collected from different geographical regions of India: a multicentre study. Food Add Contam 16:411–417
Kannan K, Tanabe S, Gieraj JP, Tatsukawa R (1997) Organochlorine pesticides and polychlorinated biphenyls in food stuffs from Asian and Oceanic countries: review. Rev Environ Contam Toxicol 152:1–55
Karmaus W, Davis S, Chen Q, Kuehr J, Kruse H (2003) Atopic manifestations, breast-feeding protection and the adverse effect of DDE. Paediatr Perinat Epidemiol 17:212–220
Kathpal TS, Kumari B, Singh S, Singh J (2001) Multiresidue analysis of bovine and human milk in cotton growing belt of Haryana. Proceedings of International Conference on Pesticides, Environment, Food Security. International Agency for Research on Cancer, New Delhi, Inda, 19–23 November
Kumari B, Singh J, Singh S, Kathpal TS (2005) Monitoring of butter and ghee (clarified butter fat) for pesticidal contamination from cotton belt of Haryana, India. Environ Monit Assess 105:111–120
Misra U, Singh SP, Ahmad AH, Hore SK, Sharma LD (2005) Synthetic pyrethroid residues in foods of animal origin in Kumaon. Toxicol Int 12:83–86
Nag SK, Raikwar MK (2008) Organochloride pesticide residues in bovine milk. Bull Environ Contam Toxicol 80:5–9
Nag SK, Raikwar MK (2011) Persistent organochlorine pesticide residues in animal feed. Environ Monit Assess 174:327–335
Pagliuca G, Serraino A, Gazzotti T, Zironi E, Borsari A, Rosmini R (2006) Organophosphorus pesticides residues in Italian raw milk. J Dairy Res 73:340–344
Pandit GG, Sahu SK (2002) Assessment of risk to public health posed by persistent organochlorine pesticide residues in milk and milk products in Mumbai, India. J Environ Monit 4:182–185
Peres F, Moreire CJ, Rodrigues MK, Claudio L (2006) Risk perception and communication regarding pesticide use in rural work: a case study in Rio de Janeiro State, Brazil. Int J Occup Environl Health 12:400–407
Salas JH, Gonzaalez MM, Noa M, Pearez NA, Diaaz G, Rrez RG et al (2003) Organophosphorus pesticide residues in Mexican commercial pasteurized milk. J Agric Food Chem 51:4468–4471
Sereda B, Bouwman H, Kylin H (2009) Comparing water, bovine milk, and indoor residual spraying as possible sources of DDT and pyrethroid residues in breast milk. J Toxicol Environ Health A 72:842–851
Sharma HR, Kaushik A, Kaushik CP (2007) Pesticide residues in bovine milk from a predominantly agricultural state of Haryana, India. Environ Monit Assess 129:349–357
Singh A, Kaur MI (2012) A health surveillance of pesticide sprayers in Talwandi Sabo area of Punjab, North-West India. Human Ecol 37:133–137
Sinha SN, Rao M, Vasudev K (2012) Distribution of pesticides in different commonly used vegetables from Hyderabad. India. Food Res Int. 45:161–169
Sondhia S, Singh VP, Yaduraju NT (2006) Persistence of butachlor in sandy clay loam soil and its residues in rice grains and straw. Ann Plant Prot Sci 14:206–209
States/UTs, Zonal Conference on Inputs (2010) Pesticide and Documentation Unit: Directorate of Plant Protection, Quarantine & Storage. ppqs.gov.in/IpmPesticides.htm. Accessed 6 Apr 2014
Sun JF, Liu P, Li CY, Li JX, Wang CN, Min J et al (2011) Probabilistic acute dietary exposure assessment of the Chinese population to cypermethrin residues. Food Addit Contam Part A Chem Anal Control Expo Risk Assess 28:869–876
Thakur JS, Rao BT, Rajwanshi A, Parwana HK, Kuma R (2008) Epidemiological study of high cancer among rural agricultural community of Punjab in Northern India. Int J Environ Res Public Health 5:399–407
United Nations Industrial Development Organization (2006) Primary assessment report on pesticidal POPs in India. India, pp 1–208
United States Environmental Protection Agency (2009) www.epa.gov. Accessed 12 May 2013
Vettorazzi G (1975) State of the toxicological evaluation carried out by the Joint FAO/WHO Expert Committee on Pesticide Residues. Organohalogenated pesticides used in public health and agriculture. Residue Rev 56:107–134
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This work was supported by research grants from Guru Angad Dev Veterinary and Animal Sciences University, Ludhiana (Punjab), India. We thank dairy farmers and milk vendors who made the arrangements for collecting the samples.
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Bedi, J.S., Gill, J.P.S., Aulakh, R.S. et al. Pesticide Residues in Bovine Milk in Punjab, India: Spatial Variation and Risk Assessment to Human Health. Arch Environ Contam Toxicol 69, 230–240 (2015). https://doi.org/10.1007/s00244-015-0163-6
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DOI: https://doi.org/10.1007/s00244-015-0163-6