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Longevity toxicity after chronic α -endosulfan exposure in wild population of Drosophila melanogaster Oregon-R (Diptera: Drosophilidae)

Yıl 2023, Cilt: 6 Sayı: 1, 41 - 47, 27.06.2023

Handan Uysal

https://doi.org/10.46239/ejbcs.1271311

Öz

The rapid increase in the world population causes different problems such as nutrition and shelter. In this case, people brutally destroy arable land to shelter, and concretization is rapidly spreading. In addition, it is necessary to increase the amount of products to be taken from the limited agricultural areas for the food needs of the increasing population. The decrease in agricultural areas appears as a factor that reduces the amount of product taken from the unit area. In addition, weeds and especially insects reduce the yield, storage, and marketing quality of products obtained from restricted areas. This type of plant products can also be considered a disease carrier vector in the food chain. To increase the yield, various insecticides have been developed against target organisms such as insects and one of these insecticides is α-endosulfan. However, non-target organisms living in the same ecosystem can also be affected by all these insecticides.
In the present study, it was researched whether the chronic α-endosulfan application has an effect on longevity in non-target organisms. According to the data obtained, α-endosulfan shortened the maximum and mean lifespan in both male and female populations of the Oregon-R wild strain of Drosophila melanogaster based on dose-time interaction. The shortening observed in life span for both populations was statistically significant (p<0.05) compared to the control group. This situation can be considered as “population aging”.

Anahtar Kelimeler

Model organism insecticide lifespan aging

Kaynakça

  • Affum AO, Acquaah SO, Osae SD. 2018. Kwaansa-Ansah EE. Distribution and risk assessment of banned and other current-use pesticides in surface and groundwaters consumed in an agricultural catchment dominated by cocoa crops in the Ankobra Basin, Ghana. Sci Total Environ. 15(633): 630-640
  • Aksglaede L, Juul A, Leffers H, Skakkebaek NE, Andersson A M. 2006. The sensitivity of the child to sex steroids: possible impact of exogenous estrogens. Hum Reprod Update. 12(4): 341-349
  • Altıkat A, Turan T, Torun FE. 2009. Türkiye’de pestisit kullanımı ve çevreye olan etkileri. Atatürk Üniv Ziraat Fak Derg. 40(2): 87-92
  • Arıkan Fİ, Özkan F, Dallar BY. 2014. Fark edilemeyen zehir: endosulfan. Bakırköy Tıp Derg, 10: 179-181
  • Bajpayee M, Pandey AK, Zaidi S, Musarrat J, Parmar D, Mathur N. 2006. DNA damage and mutagenicity induced by endosulfan and its metabolites. Environ Mol Mutagen 47(9): 682-692
  • Berntssen MHG, Maage A, Lundebye A. 2017. Chemical contaminants and residues in food (Second Edn) Woodhead Publishing Series in Food Science, Technology and Nutrition U.S.A. pp. 517-551
  • Bozlaker A, Müezzinoğlu A, Odabaşı M. 2013. Processes affecting the movement of organochlorine pesticides (OCPs) between soil and air in an industrial site in Turkey. Chemosphere. 77(9): 1168-1176
  • Cone M. 2010. EPA bans pesticide found on cucumbers, zucchini, green beans and other vegetables. The Daily Green.
  • Darbre PD. 2006. Environmental oestrogens, cosmetics and breast cancer. Best Pract Res Clin Endocrinol Metab. 20(1): 121-43
  • Della Seta D, Farabollini F, Dessì-Fulgheri F, Fusani L. 2008. Environmental-like exposure to low levels of estrogen affects sexual behavior and physiology of female rats. Endocrinol. 149(11): 5592-8
  • Golfinopoulos SK, Nikolaou AD, Kostopoulou MN, Xilourgidis NK, Vagi MC, Lekkas DT. 2003. Organochlorine pesticides in the surface waters of Northern Greece. Chemosphere. 50: 507-516
  • Güven E, Koç I. 2020. Diversity of non-targeted nematode, bacteria and microfungi populations in soil after some pesticide treatment. Yuzuncu Yil Univ Journal of Agric Sci. 30(2): 252-65
  • Herman-Giddens ME, Slora EJ, Wasserman RC, Bourdony CJ, Bhapkar MV, Koch GG, Hasemeier CM. 1997. Secondary sexual characteristics and menses in young girls seen in office practice: a study from the pediatric research in office settings network. Pediatr. 99(4): 505-12
  • Hotchkiss AK, Rider CV, Blystone CR, Wilson VS, Hartig PC, Ankley GT, Foster PM, Gray CL, Gray LE. 2008. Fifteen years after “wingspread”-environmental endocrine disrupters and human and wildlife health: where we are today and where we need to go. Toxicol Sci. 105(2): 235-259
  • Howland MA. 1998. Insecticides: chlorinated, hydrocarbons, pyrethrins, and DEET. In: Goldfrank LR, Flomenbaum NE, Lewin NA, Weissman RS, Howland MA (eds). Goldfrank's Toxicologic Emergencies, 6th edn. Mcgraw-Hill, NewYork, NY, 1451-8
  • IFCS, 2003. Acutely toxic pesticides: initial input on extent of problem and guidance for risk management, intergovernmental forum on chemical safety. Forum IV, Bangkok, Thailand, 1-5
  • Jayaraj R, Megha P, Sreedev P. 2016. Organochlorine pesticides, their toxic effects on living organisms and their fate in the environment. Interdiscip Toxicol. 9(3-4): 90-100. doi: 10.1515/intox-2016-0012
  • Jiang YF, Wang XT, Jia Y, Wang F, Wu MH, Sheng GY, Fu JM. 2009. Occurrence, distribution and possible sources of organochlorine pesticides in agricultural soil of Shanghai. J Hazard Mater. 170(2-3): 989-97
  • Özyurt E, Kızılet H, Uysal H. 2018. Hedef olmayan organizmalarda klordanın biyo-etkileşimi. Commagene J Biol. 2(1): 48-54
  • Kızılet H, Uysal H. 2019. Induced somatic mutation during chronic exposure of chlorfenson on Drosophila melanogaster Oregon-R (wild type). Drosoph Inf Serv. 102: 4-8
  • Kızılet H, Uysal H. 2022. Genoprotective role of purslane methanol extract against somatic mutations induced by bifenthrin, a third generation prethyroid insecticide. J Agric Sci. 28(4): 583-591.
  • Kızılet H, Yılmaz B, Uysal H. 2019. Herbal medicine against genotoxicity of dimethoate, an insecticide, in mammalian somatic cells. Heliyon, 5(3): e01337. doi:10.1016/j.heliyon. e01337
  • Kristy R. 2008. Harmful elements in Sahara dust. Trinidad and Tobago Express. Retrieved, 05-14
  • Kurutaş BE, Kılınç M. 2003. Pestisitlerin biyolojik sistemler üzerine etkisi. Arşiv. 12: 215-228
  • Massart F, Meucci V, Saggese G, Soldani G. 2008. High growth rate of girls with precocious puberty exposed to estrogenic mycotoxins. J Pediatr. 152(5): 690-5
  • Mathew R. 2011. Stockholm Convention approves recommendation for ban on endosulfan
  • Mersie W, Seybold CA, Mcnamee C, Lawson MA. 2003. Abating endosulfan from run off using vegetative filter strips: the importance of plant species and flow rate. Agric Ecosyst Environ. 97: 215-223
  • Mossler M, Aerts MJ, Nesheim ON. 2006. Florida Crop/Pest Management Profiles: Tomatoes: CIR 1238/PI039, Rev. 3/2006. EDIS
  • Robin S, Raghavan SC. 2016. Induction of DNA damage and erroneous repair can explain genomic instability caused by endosulfan. Carcinogenesis. 37(10): 929-940
  • Sanlı G, Taşdemir Y. 2020. Seasonal variations of organochlorine pesticides (OCPs) in air samples during day and night periods in Bursa, Turkey. Atmos Pollut Res. 11: 2142-2153
  • Satoh T, Gupta C. 2011. Anticholinesterase pesticides: metabolism, neurotoxicity, and epidemiology. 1st Edition, Kindle Edition pp.1-9
  • Serttaş A, Ayaz T, Yurdakul S, Doğan G, Göktaş RK, Civan M. 2021. Sera zirai toprağında toplam pestisit seviyeleri ve sera özellikleri ile pestisit seviyeleri arasındaki ilişkinin değerlendirilmesi. J Engr Sci Desig. 9(3): 900-910
  • Şık B, Küçükçetin İÖ, Erkaymaz T, Yıldız G. 2012. Gıda güvenliği açışından endokrin sistem bozucu pestisitler. Akademik Gıda. 10(2): 89-95
  • Tiryaki O. 2016. Türkiye’de yapılan pestisit kalıntı analiz ve çalışmaları. Erciyes Univ J Inst Sci Technol. 32(1): 72-82
  • Türkyılmaz M, Küçükçongar S. 2021. Endosülfan ve metabolitlerinin su örneklerinde vorteks destekli sıvı-sıvı mikro ekstraksiyon ve yüksek performanslı sıvı kromatografi kullanılarak analizi. Bitlis Eren Univ J Sci. 10(4): 1404-1415
  • Uysal H, Şişman T, Aşkın H. 2006. Drosophila Biology and Crossover Methods (Extended 2nd Edition). Atatürk University Publications, ISBN: 975-442-111-0, Erzurum, Türkiye
  • Vajda AM, Barber LB, Gray JL, Lopez EM, Woodling JD, Norris DO. 2008. Reproductive disruption in fish downstream from an estrogenic wastewater effluent. Environ Sci Technol. 42(9): 3407-3414
  • Watts M. 2009. Endosulfan 2nd Edition, PANAP (Pesticide Action Network Asia and the Pacific), Germany, 1-43
  • Xu X, Dailey AB, Talbott EO, Ilacqua VA, Kearney G, Asal AR. 2010. Associations of serum concentrations of organochlorine pesticides with breast cancer and prostate cancer in U.S. adults. Environ Health Perspect. 118: 60–66
  • Yu HY, Li FB, Yu WM, Li YT, Yang GY, Zhou SG, Zhang TB, Gao YX, Wan HF, 2013. Assessment of organochlorine pesticide contamination in relation to soil properties in the Pearl River Delta, China. Sci Total Environ. 447:160-68
  • Zacharia JT. 2011. Identity, Pesticides In The Modern World-Trends In Pesticides Analysis, Margarita Stoytcheva, In Tech, Croatia, 3-10. ISBN 978-953-307-437-5
  • Zhang A, Luo W, Sun J, Xiao H, Liu W. 2015. Supplementary material for distribution and uptake pathways of organochlorine pesticides in greenhouse and conventional vegetables. Environ Sci Eng. 505: 1142-1147
  • Zhang J, Zhang J, Liu R, Gan J, Liu J, Liu W. 2016. Endocrine-disrupting effects of pesticides through interference with human glucocorticoid receptor. Environ Sci Technol. 50(1): 435-443

Yıl 2023, Cilt: 6 Sayı: 1, 41 - 47, 27.06.2023

Handan Uysal

https://doi.org/10.46239/ejbcs.1271311

Öz

Kaynakça

  • Affum AO, Acquaah SO, Osae SD. 2018. Kwaansa-Ansah EE. Distribution and risk assessment of banned and other current-use pesticides in surface and groundwaters consumed in an agricultural catchment dominated by cocoa crops in the Ankobra Basin, Ghana. Sci Total Environ. 15(633): 630-640
  • Aksglaede L, Juul A, Leffers H, Skakkebaek NE, Andersson A M. 2006. The sensitivity of the child to sex steroids: possible impact of exogenous estrogens. Hum Reprod Update. 12(4): 341-349
  • Altıkat A, Turan T, Torun FE. 2009. Türkiye’de pestisit kullanımı ve çevreye olan etkileri. Atatürk Üniv Ziraat Fak Derg. 40(2): 87-92
  • Arıkan Fİ, Özkan F, Dallar BY. 2014. Fark edilemeyen zehir: endosulfan. Bakırköy Tıp Derg, 10: 179-181
  • Bajpayee M, Pandey AK, Zaidi S, Musarrat J, Parmar D, Mathur N. 2006. DNA damage and mutagenicity induced by endosulfan and its metabolites. Environ Mol Mutagen 47(9): 682-692
  • Berntssen MHG, Maage A, Lundebye A. 2017. Chemical contaminants and residues in food (Second Edn) Woodhead Publishing Series in Food Science, Technology and Nutrition U.S.A. pp. 517-551
  • Bozlaker A, Müezzinoğlu A, Odabaşı M. 2013. Processes affecting the movement of organochlorine pesticides (OCPs) between soil and air in an industrial site in Turkey. Chemosphere. 77(9): 1168-1176
  • Cone M. 2010. EPA bans pesticide found on cucumbers, zucchini, green beans and other vegetables. The Daily Green.
  • Darbre PD. 2006. Environmental oestrogens, cosmetics and breast cancer. Best Pract Res Clin Endocrinol Metab. 20(1): 121-43
  • Della Seta D, Farabollini F, Dessì-Fulgheri F, Fusani L. 2008. Environmental-like exposure to low levels of estrogen affects sexual behavior and physiology of female rats. Endocrinol. 149(11): 5592-8
  • Golfinopoulos SK, Nikolaou AD, Kostopoulou MN, Xilourgidis NK, Vagi MC, Lekkas DT. 2003. Organochlorine pesticides in the surface waters of Northern Greece. Chemosphere. 50: 507-516
  • Güven E, Koç I. 2020. Diversity of non-targeted nematode, bacteria and microfungi populations in soil after some pesticide treatment. Yuzuncu Yil Univ Journal of Agric Sci. 30(2): 252-65
  • Herman-Giddens ME, Slora EJ, Wasserman RC, Bourdony CJ, Bhapkar MV, Koch GG, Hasemeier CM. 1997. Secondary sexual characteristics and menses in young girls seen in office practice: a study from the pediatric research in office settings network. Pediatr. 99(4): 505-12
  • Hotchkiss AK, Rider CV, Blystone CR, Wilson VS, Hartig PC, Ankley GT, Foster PM, Gray CL, Gray LE. 2008. Fifteen years after “wingspread”-environmental endocrine disrupters and human and wildlife health: where we are today and where we need to go. Toxicol Sci. 105(2): 235-259
  • Howland MA. 1998. Insecticides: chlorinated, hydrocarbons, pyrethrins, and DEET. In: Goldfrank LR, Flomenbaum NE, Lewin NA, Weissman RS, Howland MA (eds). Goldfrank's Toxicologic Emergencies, 6th edn. Mcgraw-Hill, NewYork, NY, 1451-8
  • IFCS, 2003. Acutely toxic pesticides: initial input on extent of problem and guidance for risk management, intergovernmental forum on chemical safety. Forum IV, Bangkok, Thailand, 1-5
  • Jayaraj R, Megha P, Sreedev P. 2016. Organochlorine pesticides, their toxic effects on living organisms and their fate in the environment. Interdiscip Toxicol. 9(3-4): 90-100. doi: 10.1515/intox-2016-0012
  • Jiang YF, Wang XT, Jia Y, Wang F, Wu MH, Sheng GY, Fu JM. 2009. Occurrence, distribution and possible sources of organochlorine pesticides in agricultural soil of Shanghai. J Hazard Mater. 170(2-3): 989-97
  • Özyurt E, Kızılet H, Uysal H. 2018. Hedef olmayan organizmalarda klordanın biyo-etkileşimi. Commagene J Biol. 2(1): 48-54
  • Kızılet H, Uysal H. 2019. Induced somatic mutation during chronic exposure of chlorfenson on Drosophila melanogaster Oregon-R (wild type). Drosoph Inf Serv. 102: 4-8
  • Kızılet H, Uysal H. 2022. Genoprotective role of purslane methanol extract against somatic mutations induced by bifenthrin, a third generation prethyroid insecticide. J Agric Sci. 28(4): 583-591.
  • Kızılet H, Yılmaz B, Uysal H. 2019. Herbal medicine against genotoxicity of dimethoate, an insecticide, in mammalian somatic cells. Heliyon, 5(3): e01337. doi:10.1016/j.heliyon. e01337
  • Kristy R. 2008. Harmful elements in Sahara dust. Trinidad and Tobago Express. Retrieved, 05-14
  • Kurutaş BE, Kılınç M. 2003. Pestisitlerin biyolojik sistemler üzerine etkisi. Arşiv. 12: 215-228
  • Massart F, Meucci V, Saggese G, Soldani G. 2008. High growth rate of girls with precocious puberty exposed to estrogenic mycotoxins. J Pediatr. 152(5): 690-5
  • Mathew R. 2011. Stockholm Convention approves recommendation for ban on endosulfan
  • Mersie W, Seybold CA, Mcnamee C, Lawson MA. 2003. Abating endosulfan from run off using vegetative filter strips: the importance of plant species and flow rate. Agric Ecosyst Environ. 97: 215-223
  • Mossler M, Aerts MJ, Nesheim ON. 2006. Florida Crop/Pest Management Profiles: Tomatoes: CIR 1238/PI039, Rev. 3/2006. EDIS
  • Robin S, Raghavan SC. 2016. Induction of DNA damage and erroneous repair can explain genomic instability caused by endosulfan. Carcinogenesis. 37(10): 929-940
  • Sanlı G, Taşdemir Y. 2020. Seasonal variations of organochlorine pesticides (OCPs) in air samples during day and night periods in Bursa, Turkey. Atmos Pollut Res. 11: 2142-2153
  • Satoh T, Gupta C. 2011. Anticholinesterase pesticides: metabolism, neurotoxicity, and epidemiology. 1st Edition, Kindle Edition pp.1-9
  • Serttaş A, Ayaz T, Yurdakul S, Doğan G, Göktaş RK, Civan M. 2021. Sera zirai toprağında toplam pestisit seviyeleri ve sera özellikleri ile pestisit seviyeleri arasındaki ilişkinin değerlendirilmesi. J Engr Sci Desig. 9(3): 900-910
  • Şık B, Küçükçetin İÖ, Erkaymaz T, Yıldız G. 2012. Gıda güvenliği açışından endokrin sistem bozucu pestisitler. Akademik Gıda. 10(2): 89-95
  • Tiryaki O. 2016. Türkiye’de yapılan pestisit kalıntı analiz ve çalışmaları. Erciyes Univ J Inst Sci Technol. 32(1): 72-82
  • Türkyılmaz M, Küçükçongar S. 2021. Endosülfan ve metabolitlerinin su örneklerinde vorteks destekli sıvı-sıvı mikro ekstraksiyon ve yüksek performanslı sıvı kromatografi kullanılarak analizi. Bitlis Eren Univ J Sci. 10(4): 1404-1415
  • Uysal H, Şişman T, Aşkın H. 2006. Drosophila Biology and Crossover Methods (Extended 2nd Edition). Atatürk University Publications, ISBN: 975-442-111-0, Erzurum, Türkiye
  • Vajda AM, Barber LB, Gray JL, Lopez EM, Woodling JD, Norris DO. 2008. Reproductive disruption in fish downstream from an estrogenic wastewater effluent. Environ Sci Technol. 42(9): 3407-3414
  • Watts M. 2009. Endosulfan 2nd Edition, PANAP (Pesticide Action Network Asia and the Pacific), Germany, 1-43
  • Xu X, Dailey AB, Talbott EO, Ilacqua VA, Kearney G, Asal AR. 2010. Associations of serum concentrations of organochlorine pesticides with breast cancer and prostate cancer in U.S. adults. Environ Health Perspect. 118: 60–66
  • Yu HY, Li FB, Yu WM, Li YT, Yang GY, Zhou SG, Zhang TB, Gao YX, Wan HF, 2013. Assessment of organochlorine pesticide contamination in relation to soil properties in the Pearl River Delta, China. Sci Total Environ. 447:160-68
  • Zacharia JT. 2011. Identity, Pesticides In The Modern World-Trends In Pesticides Analysis, Margarita Stoytcheva, In Tech, Croatia, 3-10. ISBN 978-953-307-437-5
  • Zhang A, Luo W, Sun J, Xiao H, Liu W. 2015. Supplementary material for distribution and uptake pathways of organochlorine pesticides in greenhouse and conventional vegetables. Environ Sci Eng. 505: 1142-1147
  • Zhang J, Zhang J, Liu R, Gan J, Liu J, Liu W. 2016. Endocrine-disrupting effects of pesticides through interference with human glucocorticoid receptor. Environ Sci Technol. 50(1): 435-443
Toplam 43 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Yapısal Biyoloji
Bölüm Araştırma Makaleleri
Yazarlar

Handan Uysal

Yayımlanma Tarihi 27 Haziran 2023
Kabul Tarihi 16 Haziran 2023
Yayımlandığı Sayı Yıl 2023 Cilt: 6 Sayı: 1

Kaynak Göster

APA Uysal, H. (2023). Longevity toxicity after chronic α -endosulfan exposure in wild population of Drosophila melanogaster Oregon-R (Diptera: Drosophilidae). Eurasian Journal of Biological and Chemical Sciences, 6(1), 41-47. https://doi.org/10.46239/ejbcs.1271311
AMA Uysal H. Longevity toxicity after chronic α -endosulfan exposure in wild population of Drosophila melanogaster Oregon-R (Diptera: Drosophilidae). Eurasian J. Bio. Chem. Sci. Haziran 2023;6(1):41-47. doi:10.46239/ejbcs.1271311
Chicago Uysal, Handan. “Longevity Toxicity After Chronic α -Endosulfan Exposure in Wild Population of Drosophila Melanogaster Oregon-R (Diptera: Drosophilidae)”. Eurasian Journal of Biological and Chemical Sciences 6, sy. 1 (Haziran 2023): 41-47. https://doi.org/10.46239/ejbcs.1271311.
EndNote Uysal H (01 Haziran 2023) Longevity toxicity after chronic α -endosulfan exposure in wild population of Drosophila melanogaster Oregon-R (Diptera: Drosophilidae). Eurasian Journal of Biological and Chemical Sciences 6 1 41–47.
IEEE H. Uysal, “Longevity toxicity after chronic α -endosulfan exposure in wild population of Drosophila melanogaster Oregon-R (Diptera: Drosophilidae)”, Eurasian J. Bio. Chem. Sci., c. 6, sy. 1, ss. 41–47, 2023, doi: 10.46239/ejbcs.1271311.
ISNAD Uysal, Handan. “Longevity Toxicity After Chronic α -Endosulfan Exposure in Wild Population of Drosophila Melanogaster Oregon-R (Diptera: Drosophilidae)”. Eurasian Journal of Biological and Chemical Sciences 6/1 (Haziran 2023), 41-47. https://doi.org/10.46239/ejbcs.1271311.
JAMA Uysal H. Longevity toxicity after chronic α -endosulfan exposure in wild population of Drosophila melanogaster Oregon-R (Diptera: Drosophilidae). Eurasian J. Bio. Chem. Sci. 2023;6:41–47.
MLA Uysal, Handan. “Longevity Toxicity After Chronic α -Endosulfan Exposure in Wild Population of Drosophila Melanogaster Oregon-R (Diptera: Drosophilidae)”. Eurasian Journal of Biological and Chemical Sciences, c. 6, sy. 1, 2023, ss. 41-47, doi:10.46239/ejbcs.1271311.
Vancouver Uysal H. Longevity toxicity after chronic α -endosulfan exposure in wild population of Drosophila melanogaster Oregon-R (Diptera: Drosophilidae). Eurasian J. Bio. Chem. Sci. 2023;6(1):41-7.
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