Removal of Pesticide Residues from Okra Vegetable through Traditional Processing
PDF

Keywords

Okra, Pesticides, Traditional processing

How to Cite

Sheikh, S. A., Nizamani, S. M., Jamali, A. A., Panhwar, A. A., Channa, M. J., & Mirani, B. N. (2012). Removal of Pesticide Residues from Okra Vegetable through Traditional Processing . Journal of Basic & Applied Sciences, 8(1), 79–84. https://doi.org/10.6000/1927‐5129.2012.08.01.23

Abstract

Demand for vegetables in Pakistan is constantly increasing to feed growing population. Pakistan is the second largest producer of okra and in Sindh okra is produced throughout the year. Okra crop is attacked by variety of insect pests and commercial okra production relies heavily on the pesticides belonging to organochlorine, organophosphate, carbamate, pyrethroid and neo-nicotinoid groups for pest control. Moreover, growers do not observe safety interval for okra harvest. Hence the okra sold in Pakistani markets is highly contaminated with pesticide residues. Aim of this research study was to determine the extent of pesticide residue decontamination in okra vegetable through traditional processing. Okra crop was sprayed with bifenthrin, profenofos and endosulfan, and different processing were applied on okra such as washing, detergent washing, sun-drying and cooking, etc. Bifenthrin, profenofos and endosulfan pesticide residues were extracted from okra by solvent partitioning and cleaned up through Florisil column using organic solvents for elusion as described by EPA and FDA procedures. Cleaned up residues were analyzed through GC-µECD. The results revealed that endosulfan levels were reduced to MRL by detergent washing (from 2.01 ppm in unwashed samples to 1.03ppm). Profenofos residues (3.21ppm) were reduced to MRL (2.0ppm) by detergent washing and by combination of plain water washing and frying. Bifenthrin MRL is very low (0.04ppm) and only combination of detergent washing and frying reduced residues from 0.311 ppm to 0.042 ppm.

https://doi.org/10.6000/1927‐5129.2012.08.01.23
PDF

References

Singh SP, Kumar KS, Tanwar RS. Dissipation anddecontamination of cypermethrin and fluvalinate residues inokra. Pestic Res J 2004; 16(2): 65-7.

Sinha SR, Sharma RK. Efficacy of neonicotinoids againstokra insect pest. Pestic Res J 2007; 19(1): 42-4.

Sardana HR. Integrated pest management in vegetables. In:Training manual-2, Training on IPM for Zonal AgriculturalResearch Stations 2001; May 21-26. pp. 105-118.

Hussain S, Masud T, Ahad K. Determination of pesticidesresidues in selected varieties of mango. Pak J Nutr 2002; 1:41-2.http://dx.doi.org/10.3923/pjn.2002.41.42

USAID, I-LED. 2006-2009. Pesticide Evaluation Report andSafer Use Action Plan: Page-49.

Subhani A, Liano M, Huang CY, Xie ZM.. Impact of someagronomics practices on paddy field soil health under variedecological condition: Influence of soil moisture. Pedosphere2001; 11: 38-8.

Sattler C, Kächele H, Verch G. Assessing the intensity ofpesticide use in agriculture. Agriculture, Ecosystems andEnvironment 2007; 119: 99–304.http://dx.doi.org/10.1016/j.agee.2006.07.017

Kumari B, Madan VK, Kumar R, Kathpal TS. Monitoring ofseasonal vegetables for pesticide residues. Environ MonitAssess 2002; 74: 263-70.http://dx.doi.org/10.1023/A:1014248827898

Kumari B, Kumar R, Madan VK, Rajvir S, Jagdeep S, KathpalTS. Magnitude of pesticidal contamination in wintervegetables from Hisar, Haryana. Environ Monit Assess 2003;87: 311-18.http://dx.doi.org/10.1023/A:1024869505573

Buriro AS, Khaskheli AM, Jarwar AD. Handbook of safe andefficient used of pesticides. Directorate General of AgricultureResearch Sindh Tandojam. Department of Agriculture,Government of Sindh 2006.

Toan VD, Thao VD, Walder J, Schmutz HR, Ha CT.Contamination by selected organochlorine pesticide (OCPs)in surface soil in Hanoi, Vietnam. Bull Environ ContaminatToxicol 2007; 78: 195-200.http://dx.doi.org/10.1007/s00128-007-9149-z

Torres RL, Torres ILS, Gamaro GD, Fontella FU, Silveira PP,Moreira JSR. Lipid peroxidation and total radical-trappingpotential of the lungs of rats submitted to chronic andsubchronic stress. Brazil J Med Biol Res 2004; 37: 185-92.http://dx.doi.org/10.1590/S0100-879X2004000200004

Kumari B. Effects of household processing on reduction ofpesticide residues in vegetables. J Agricul Biol Sci 2008;3(4): 1990-45.

Srivastava LP, Gupta KP, Raizada RB. Organochlorinepesticide residues in herbal preparation. Bull EnvironContaminat Toxicol 2000; 64: 502-7.http://dx.doi.org/10.1007/s001280000032

Srivastava LP, Buuhar R, Raizada RB. Organochlorinepesticide residues in Indian spices. Bull Environ ContaminatToxicol 2001; 67: 856-62.http://dx.doi.org/10.1007/s001280201

Srivastava LP, Kumar N, Gupta KP, Raizada RB. Status ofHCH residues in Indian medicinal plant materials. BullEnviron Contaminat Toxicol 2006; 76: 782-90.http://dx.doi.org/10.1007/s00128-006-0988-9

Wang L, Yongchao L, Xin J. Analysis of eightorganphosphorus pesticide residues in fresh vegetablesretailed in agrictural product market of Nanjing, China. BullEnviron Contaminat Toxicol 2008; 81: 377-82.http://dx.doi.org/10.1007/s00128-008-9498-2

Elkins ER. Effect of commercial processing on pesticideresidues in selected fruits and vegetables. J Assoc OfficialAgricul Chemists 1989; 72(3): 533-35.

Geisman JR, Gunther FA, Gunther JD, Eds. Reduction ofpesticide residues in food crops by processing. Residuereviews. Residues of pesticides and other contaminants inthe total environment 1975; Vol. 54: pp. 43-54.

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.