Advancements in Life Sciences

Regarding the increasing growth of the population and importance of food security, Iranian Ministry of Agriculture has prioritized and encouraged greenhouse farming products. One of the developmental challenges of greenhouse farming is the current extensive use of chemical fertilizers. Importantly, as raw agricultural products are the main ingredients on the table of Iranian families  (Iranians generally tend to eat fresh products), the determination of pesticide residues in such products is of utmost importance. The penetration of resistant contaminants into freshwater resources can lead to detrimental effects on humans and the environment. Concerning the importance of environmental protection and the role of chemical pesticides, this study reviews the pesticides used in the agronomic sector and the associated risks of using chemicals to control pests for society, agriculture, freshwater resources, and the environment.

Keywords: Environment; Water resources; Agriculture; Health; Biological method

Gholamin R, Khayatnezhad M. Effect of different levels of manganese fertilizer and drought stress on yield and agronomic use efficiency of fertilizer in durum wheat in Ardabil. Journal of Food, Agriculture & Environment, (2012); 10(2 part 3): 1326-1328.

Gholamin R, Khayatnezhad M. Assessment of the Correlation between Chlorophyll Content and Drought Resistance in Corn Cultivars (Zea Mays). Helix, (2020); 10(05): 93-97.

Khayatnezhad M, Gholamin R. The effect of drought stress on leaf chlorophyll content and stress resistance in maize cultivars (Zea mays). African Journal of Microbiology Research, (2012); 6(12): 2844-2848.

Khayatnezhad M, Gholamin R. Effect of nitrogen fertilizer levels on different planting remobilization of dry matter of durum wheat varieties Seimareh. African Journal of Microbiology Research, (2012); 6(7): 1534-1539.

Lari SZ, Khan NA, Gandhi KN, Meshram TS, Thacker NP. Comparison of pesticide residues in surface water and ground water of agriculture intensive areas. Journal of Environmental Health Science and Engineering, (2014); 12 (1): 11.

Fosu-Mensah BY, Okoffo ED, Mensah M. Synthetic pyrethroids pesticide residues in soils and drinking water sources from cocoa farms in Ghana. Environment and Pollution, (2016); 5(1): 60.

PIRSAHEB M, DARGAHI A. Performance of granular activated carbon to diazinon removal from aqueous solutions. Journal of Environmental Science and Technology, (2016); 18(3): 117-126.

Kim NH, Lee JS, Park KA, Kim YH, Lee SR, Lee JM, et al. Determination of matrix effects occurred during the analysis of organochlorine pesticides in agricultural products using GC-ECD. Food science and biotechnology, (2016); 25(1): 33-40.

Kwon H, Kim TK, Hong SM, Se EK, Cho NJ, Kyung KS. Effect of household processing on pesticide residues in field-sprayed tomatoes. Food Science and Biotechnology, (2015); 24(1): 1-6.

Daesslé L, Ruiz-Montoya L, Tobschall H, Chandrajith R, Camacho-Ibar V, Mendoza-Espinosa L, et al. Fluoride, nitrate and water hardness in groundwater supplied to the rural communities of Ensenada County, Baja California, Mexico. Environmental geology, (2009); 58(2): 419-29.

Alipour A, Alizadeh A. Evaluation of biodegradation of diazinon pesticide by native bacteria isolated from contaminated soils: Biology of microorganisms, Biological Journal of Microorganism, (2018); 7: (26); 73-86.

Biziuk M, Stocka J. Multiresidue methods for determination of currently used pesticides in fruits and vegetables using QuEChERS technique. International Journal of Environmental Science and Development, (2015); 6(1): 18.

Ebadullahi A, GhaziKhansari M. Effect of Comafos pesticide on transaminase activity. Research in medical sciences, (2003); 8(3): 11.

Gholamin R, Khayatnezhad M. Study of Bread Wheat Genotype Physiological and Biochemical Responses to Drought Stress. Helix, (2020); 10(05): 87-92.

Gholamin R, Khayatnezhad M. The Study of Path Analysis for Durum wheat (Triticum durum Desf.) Yield Components. Biosc Biotech Res Comm, (2020); 13(4): 2139-2144.

Derakhshan Z, Ebrahimi A, Faramarzian M, Sedighi S, Ahrampush M. Investigation of new technologies in the removal of atrazine pesticide from the environment with emphasis on biodegradation: a review study. Dawn of Health, (2016); 15(3): 221-46.

Shahrokhi S, Khodabandeh H, Farboudi M. Investigation of the effect of five pesticides on common wheat aphid. Ecology of crops (modern agricultural knowledge), (2009); 5(17): 19-25.

Khayatnezhad M. Evaluation of the reaction of durum wheat genotypes (Triticum durum Desf.) to drought conditions using various stress tolerance indices. African Journal of Microbiology Research, (2012); 6(20): 4315-23.

Khayatnezhad M, Gholamin R. Study of Durum Wheat Genotypes' Response to Drought Stress Conditions. Helix, (2020); 10(05): 98-103.

Khaqani R, Hosseini MM, Fathipur Y. Home measures to reduce the residual pesticides imidacloprid and abamectin in greenhouse crops. International Journal of Agricultural Science and Technology, (2018); 20: 775-86.

Inayati A, Ibrahimnezhad P. Nano Pesticides, Production, Application and Environmental Considerations, (2011); (86): 297-310.

Akan J, Mohammed Z, Jafiya L, Ogugbuaja V. Organochlorine Pesticide Residues in Fish Samples from Alau Dam, Borno State, North Eastern Nigeria. Journal of Environmental & Analytical Toxicology, (2013); 3(3): 1-11.

Shahinfar A, Heydari A, Heydari B. Investigation of pesticide decomposition status based on the type of formulation and their quality control indicators. Environmental sciences, (2015); 13(2): 57-66.

Gholamin R, Khayatnezhad M. The Effect of Dry Season Stretch on Chlorophyll Content and RWC of Wheat Genotypes (Triticum Durum L.). Bioscience Biotechnology Research Communications, (2020); 13(4): 1829-1833.

Khayatnezhad M, Gholamin R. A Modern Equation for Determining the Dry-spell Resistance of Crops to Identify Suitable Seeds for the Breeding Program Using Modified Stress Tolerance Index (MSTI). Bioscience Biotechnology Research Communications, (2020); 13(4): 2114-2117.

Hadian Z, Azizi M. Determination of pesticide residues in fresh and greenhouse vegetables. JWSS-Isfahan University of Technology, (2008); 12(43): 195-204.

Rafiei B, Imani S, Alimoradi M, Shafi'i H, Khaghani S, Bastan S. Investigation of Fan Propatrin Pesticide Residue in Greenhouse Cucumber. Entomological research, (2010); 2(3): 193-201.

Mohammadi S, Emani S. Remaining study of chlorpyrifos and deltamethrin pesticides in greenhouse tomatoes of Karaj city. Entomological research, (2012); 4(2): 181-7.

Hadian Z, Azizi M. Evaluation of residual pesticides by gas chromatography-mass spectrometry in some vegetables offered in the main fruit and vegetable field of Tehran. Iranian Journal of Nutrition Sciences and Food Industry, (2006); 1(2): 13-20.

Yazdanpak A, Estavan H, Hesami H, Gheibi M. Investigation of pesticide residues (acetamide, diazinon, imidacloprid, primicarb) in greenhouse tomato (Izmir variety) in Fars. Animal environment, (2019); 11(4): 289.

Rohani F, Noroozian A. Extraction and measurement of organochlorine pesticides in milk using solid phase extraction and gas chromatography. Research and construction, (2002); 15(1): 60-3.

Koohi M, Hejazi M, Muzaffari M, Paktinat S, Sadeghi G. Determination of residues of organochlorine pesticides in dairy products of Tabriz. Iranian Food Science and Technology, (2011); 8(28): 83-9.

Yazdanpak A, Estavan H, Hesami H, Gheibi M. Evaluation of the effect of washing, peeling and refrigeration on reducing the residual amount of four pesticides (diazinon, imidacloprid, primicarb and acetamide) in greenhouse cucumber. Animal environment, (2020); 12: 427-34.

Nazemi F, Khodadadi I, Heshmati A. Effect of storage type and time and washing methods on dichlorvos residues in tomato. Journal of Mazandaran University of Medical Sciences, (2016); 26(141): 36-44.

Mousavi S, Izadi A. A review of the practical applications of nanotechnology in the remediation of herbicides and pesticides in the environment. Weed Research, (2014); 6(2):87-104.

Davoodi M, Ismaili A, Bahramifar N, Rajaei F. Investigation of Chlorine Organic Pesticides in Shadegan Wetland. Iranian Journal of Marine Science and Technology, (2009); 8(1): 56-64.

Karimi F. Presenting a realistic method to study the ecological risk of pesticides in Shadegan International Wetland. Wetland ecology (2015); 7(26): 18-22.

Javdankherad A, Esmaeili A, Bahramifard N. Investigation of sustainable organic pesticide residues in sediments of Anzali International Wetland, Iran. Environmental sciences, (2011); 37(57): 35-44.

Khodadadi M, Samadi M, Rahmani A, Maleki R, Alahresani A, Shahidi R. Investigation of residual concentrations of organophosphate pesticides and carbamates in drinking water supply sources in Hamadan. Health and the environment, (2009); 2(4): 250-7.

Dargahi A, Samarkandi M, Karami A, Mohammadi M, Waziri Y. Investigation of residual concentration of organic phosphorus pesticides in surface and groundwater sources of drinking water supply in Kermanshah province. Ardabil Health, (2018); 9(2): 133-42.

Ahmadi Y, Khorasani N, Talebi K, Hashemi S, Bahadori F. The effect of agricultural activities on the concentration of diazinon pesticide in Tajan river. Environmental sciences, (2011); 8(4): 107-17.

Si X, Gao L, Song Y, Khayatnezhad M, Minaeifar AA. Understanding population differentiation using geographical, morphological and genetic characterization in Erodium cicunium. Indian Journal of Genetics, (2020); 80(4): 459-67.

Abdollahzadeh G, Sharif Sharifzadeh M, Qadami Amraei Z. Assessing awareness of rice farmers of Sari County about impacts of usage of pesticides and its health risk in cropping year 2015. Iranian Journal of Health and Environment, (2017); 9(4): 545-58.

Jia Y, Khayatnezhad M, Mehri S. Population differentiation and gene flow in Erodium cicutarium: a potential medicinal plant- Genetika, (2020); 52(3): 1127-1144.

Esmaeilzadeh H, Fataei E, Saadati H. NH3 Removal from Sour Water by Clinoptilolite Zeolite: A Case Study of Tabriz Refinery. Chemical Methodologies, (2020); 4(6): 754-73.

Farhadi H, Fataei E, Kharrat Sadeghi M. The Relationship Between Nitrate Distribution in Groundwater and Agricultural Landuse (Case study: Ardabil Plain, Iran). Anthropogenic Pollution Journal, (2020); 4(1): 50-6.

Fataei E, Seiied Safavian ST. Comparative study on efficiency of ANP and PROMETHEE methods in locating MSW landfill sites. Anthropogenic Pollution Journal, (2017); 1(1): 40-5.

Jalili S. Water Quality Assessment Based on HFB I& BMWP Index In Karoon River, Khouzestan Provience,(Northwest of Persian Gulf). Anthropogenic Pollution Journal, (2020); 4(1): 35-49.

Khoshkalam Soleimandarabi SF, Rostami R, Nezhadnaderi M. Application of Nanoscience in Self-cleaning Properties of Concrete Facade for Development of Sustainable Environment. Anthropogenic Pollution Journal, (2020); 4(1): 15-23.

Ebrahimi M, Manian M. Determining the Percentage of Endocrine Disruptor Chemicals in Pesticides used in Fars Province. ENVIRONMENTAL SCIENCES, (2007); 4(3); 41-47.

Fataei E, Varamesh S, Seiied Safavian ST. Effects of afforestation on carbon stocks in Fandoghloo forest area. Pakistan Journal of Agricultural Sciences, (2018); 55(3): 555-562.

Ghomi Avili F, Makaremi M. Predicting Model of Arsenic Transport and Transformation in Soil Columns and Ground Water Contamination (Case study: Gorgan Plain, Iran). Anthropogenic Pollution Journal, (2020); 4(1): 57-64.

Imanzadeh M, Dana A, Fallah Z, Hamzeh Sabzi A, Tatari Hasan Gavyar M. Comparing the Components of Children's Physical Fitness in Relation to the Role of Air Pollution in Tehran, Iran. Anthropogenic Pollution Journal, (2017); 1(1): 34-9.

Mitra A, Chowdhury BL. Identifying Anthropogenic Factors of Groundwater Pollution through Students’ Opinion in Rural West Bengal. Anthropogenic Pollution Journal, (2019); 3(2): 49-58.

Hosseini M, Kharzani Z, Qaneian M, Dehwari M, Momayezi M. Knowledge, attitude and practice of women in Yazd regarding health hazards, correct method of storage and use of pesticides at home. Ardabil Health, (2018); 9(4): 442-52.

Aghilinejad M, Mohammadi S, Farshad A. The effect of pesticide consumption on farmers' health. Research in medicine Research in medicine, (2007); 31(34): 327-31.

Aghili Nezhad M, Farshad A, Naghavi M, Haghani H. Relationship between pesticide consumption and its effects on the health of farmers in different provinces of the country. Journal of Health Work of Iran, (2006); 3(2-1): 81-5.

Seidi M, Rezaei R. Factors Affecting the Safety Behavior of Farmers in Zanjan County in Using Personal Protection Equipment in Work with Pesticides: Application of Health Belief Model. Iranian Agricultural Extension and Education Sciences, (2019); 15(2): 45-63.

Ghanbari R, Shakermi J, Sepahvand F, Asadpourian Z. Analysis of protective behavior of farmers in Khorramabad city in the use of pesticides: application of health belief model. Economic Research and Agricultural Development of Iran, (2018); 49(1): 121-33.

Mohammadi Aloucheh R, Baris O, Asadi A, Gholam Zadeh S, Kharat Sadeghi M. Characterization of Aquatic Beetles Shells (Hydraenidae family) derived chitosan and its application in order to eliminate the environmental pollutant bacterial. Anthropogenic Pollution Journal, (2019); 3(2): 43-8.

Muhibbu-din I. Investigation of Ambient Aromatic Volatile Organic Compounds in Mosimi Petroleum Products Depot, Sagamu, Nigeria. Anthropogenic Pollution Journal, (2020); 4(1): 65-78.

Valiallahi J, Moradi S. Evaluating the Effects of Agricultural Activities on Nitrate Contamination at the Kamfirooz District, Shiraz, Iran. Anthropogenic Pollution Journal, (2020); 4(1): 24-35.

Kumar B, Mukherjee D, Kumar S, Mishra M, Prakash D, Singh S, et al. Bioaccumulation of heavy metals in muscle tissue of fishes from selected aquaculture ponds in east Kolkata wetlands. Annals of Biological research, (2011); 2(5): 125-34.

Mansoori A, SarabiJamab M, Ghorani B, Mohajeri S. Making a molecularly molded film by electrospinning method and investigating its efficiency in removing macroprop pesticide from aqueous medium. Applied research in chemical engineering – polymer, (2018); 2(3): 77-90.

Bazrafshan E, Mohammadi L, Balarak D, Keikhaei S, Mahvi AH. Optimization of diazinon removal from aqueous environments by electrocoagulation process using response surface methodology. Journal of Mazandaran University of Medical Sciences, (2016); 26(138): 118-30.

Samadi MT, Khodadadi M, Rahmani AR, Allahresani A, Saghi MH. Comparison of the efficiency of simultaneous application of UV/O3 for the removal of organophosphorus and carbamat pesticides in aqueous solutions. Water Wastewater, (2010); 73: 69-75.

Dehghani M, Fadaei A. Investigation of the efficiency of zinc oxide and ultraviolet nanoparticles for the removal of diazinon pesticide from aqueous media. Water and Wastewater, (2015); 26(1): 12-8.

Kaushik P, Yadav Y, Dilbaghi N, Garg VK. Enrichment of vermicomposts prepared from cow dung spiked solid textile mill sludge using nitrogen fixing and phosphate solubilizing bacteria. The Environmentalist, (2008); 28(3): 283-7.

Cengiz MF, Certel M, Göçmen H. Residue contents of DDVP (Dichlorvos) and diazinon applied on cucumbers grown in greenhouses and their reduction by duration of a pre-harvest interval and post-harvest culinary applications. Food chemistry, (2006); 98(1): 127-35.

Jallow MF, Awadh DG, Albaho MS, Devi VY, Ahmad N. Monitoring of pesticide residues in commonly used fruits and vegetables in Kuwait. International journal of environmental research and public health, (2017); 14(8): 833.

Rafieian S, Amoozgar M, Shevandi M, Kazemi S, Bamorovvat M. Evaluation of biodegradation of organophosphate pesticides by salt-loving bacteria. Biology of microorganisms, (2018); 7(25): 1-17.

Weng C-Y, Black C. Taiwanese farm workers’ pesticide knowledge, attitudes, behaviors and clothing practices. International journal of environmental health research, (2015); 25(6): 685-96.

Houbraken M, Bauweraerts I, Fevery D, Van Labeke M-C, Spanoghe P. Pesticide knowledge and practice among horticultural workers in the Lâm Đồng region, Vietnam: A case study of chrysanthemum and strawberries. Science of the Total Environment, (2016); 550: 1001-9.

Idowu AA, Sowe A, Bah AK, Kuyateh M, Anthony A, Oyelakin O. Knowledge, attitudes and practices associated with pesticide use among horticultural farmers of Banjulinding and Lamin of the Gambia. African Journal of Chemical Education, (2017); 7(2): 2-17.

Jefferson RD, Goans RE, Blain PG, Thomas SH. Diagnosis and treatment of polonium poisoning. Clinical Toxicology, (2009); 47(5): 379-92.

Rosenkranz P, Aumeier P, Ziegelmann B. Biology and control of Varroa destructor. Journal of invertebrate pathology, (2010); 103: S96-S119.

Paksa A, Bakhtiari H, Fahiminia M, Norouzi M, Shams M. Survey of Optimal Methods for the Control of Cockroaches in Sewers of Qom City. Healt and Environment, (2010); 1: 2-3.

Sarwar M. Indoor risks of pesticide uses are significantly linked to hazards of the family members. Cogent Medicine, (2016); 3(1): 1155373.

Enayati A, Ebrahimnejad P. Nano Pesticides, Production and Application. Journal of Mazandaran University of Medical Sciences (JMUMS), (2012); 22(86): 296-311.

Iram S, Ahmad I, Ahad K, Muhammad A, Anjum S. Analysis of pesticides residues of Rawal and Simly lakes. Pakistan Journal of Botany, (2009); 41(4): 1981-7.

Banaee M, Sureda A, Mirvaghefi A, Ahmadi K. Effects of diazinon on biochemical parameters of blood in rainbow trout (Oncorhynchus mykiss). Pesticide biochemistry and physiology, (2011); 99(1): 1-6.

Dehghani R, Limoi M, Zarqi A. Investigation of harmful effects of pesticides with emphasis on the issue of resistance in arthropods of health importance (review article). Scientific Journal of Kurdistan University of Medical Sciences, (2010); 17(1): 84-100.

Fenner K, Canonica S, Wackett LP, Elsner M. Evaluating pesticide degradation in the environment: blind spots and emerging opportunities. Science, (2013); 341(6147):752-8.

Damari B, AhmadiPishkuhi M, Abdullahi Z. Policy document on reducing pollutants and pesticide residues in agricultural products in Iran. Social health, (2015); 2(4): 256-65.

Wang D, Weston DP, Lydy MJ. Method development for the analysis of organophosphate and pyrethroid insecticides at low parts per trillion levels in water. Talanta, (2009); 78(4-5): 1345-51.

Chowdhury M, Zaman A, Banik S, Uddin B, Moniruzzaman M, Karim N, et al. Organophosphorus and carbamate pesticide residues detected in water samples collected from paddy and vegetable fields of the Savar and Dhamrai Upazilas in Bangladesh. International journal of environmental research and public health, (2012); 9(9): 3318-29.

Khalijian A, Sobhanardakani S, Cheraghi M. Investigation of Diazinon Residue in Groundwater Resources of Hamedan-Bahar Plain in 2014. Journal of Research in Environmental Health, (2016); 2(3): 203-11.

An E-M, Shin H-S. Analytical methods for the determination of pesticide residues using gas chromatograghy with nitrogen-phosphorus detector. Food Science and Biotechnology, (2011); 20(2): 395-401.

Dikshit A, Pachauri D. Persistence and bioefficacy of beta-cyfluthrin and imidacloprid on tomato fruits. Plant Protection Bulletin (Faridabad), (2000); 52(3/4): 1-3.