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Persistence and Behavior of Pesticides in Cotton

BROWSE_DETAIL_TITLE_ALTERNATE: Persistence and Behavior of Pesticides in Cotton

BROWSE_DETAIL_CREATION_DATE: 1999

BROWSE_DETAIL_IDENTIFIER_SECTION

BROWSE_DETAIL_TYPE: Article

BROWSE_DETAIL_PUBLISH_STATE: Published

BROWSE_DETAIL_FORMAT: PDF Document

BROWSE_DETAIL_LANG: English

BROWSE_DETAIL_SUBJECTS: Agriculture (General),

BROWSE_DETAIL_REVISION: 1

BROWSE_DETAIL_ISIWOS: YES

BROWSE_DETAIL_CREATORS:

BROWSE_DETAIL_CONTRIBUTERS: TURGUT, Cafer (Preparer), ERDOGAN, Oktay (Editor),

BROWSE_DETAIL_URL: http://mitos.tagem.gov.tr/browse/14/

BROWSE_DETAIL_IDENTIFIER_OTHER:
Persistence and Behavior of Pesticides in Cotton http://mitos.tagem.gov.tr/browse/14/328.pdf


BROWSE_DETAIL_PUBLISHER: Nazilli Pamuk Araştırma Enstitüsü BROWSE_DETAIL_PUBLICATION_NAME: Environ Monit Assess BROWSE_DETAIL_PUBLICATION_DATE: 1999 BROWSE_DETAIL_PUBLICATION_PAGE: DOI 10.1007/s10


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BROWSE_DETAIL_TAB_KEYWORDS Pesticides · Cotton · Soil · Turkey
BROWSE_DETAIL_TAB_ABSTRACT Turkey is the sixth largest producer ofcotton in the world. Two of the most commonlyapplied pesticides used in cotton production aretrifluralin and endosulfan. Although both are veryeffective at controlling pests, their persistence inthe environment poses risks to human health andthe environment. Four loam soils and one siltyloamsoil were studied to evaluate the persistenceof trifluralin and endosulfan in relation tosoil characteristics. Degradation with trifluralinreached as high as 70% of the applied doses. Soilswith the highest organic matter content had thelowest degradation rate, indicating a tighter sorptionof trifluralin. Endosulfan degradation was a function of soil type and the specific isomer, withß-endosulfan depicting the highest degradation.
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BROWSE_DETAIL_TAB_DESCRIPTION SCI (C)
BROWSE_DETAIL_TAB_RIGHTS Telif hakkı sorunu yoktur
BROWSE_DETAIL_TAB_NOTES Arshad, M., Hussain, S., & Saleem, M. (2008). Optimizationof environmental parameters for the biodegradationof alpha and beta endosulfan in soil slurries byPseudomonas aeruginosa. Journal of Applied Microbiology,104, 364–370.Awasthi, N., Ahuja, R., & Kumar, A. (2000). Factors influencingthe degradation of soil-applied endosulfanisomers. Soil Biology & Biochemistry, 32, 1697–1705.doi:10.1016/S0038-0717(00)00087-0.Boivin, A., Cherrier, R., & Schiavon, M. (2005). Acomparison of five pesticides adsorption anddesorption processes in thirteen contrasting fieldsoils. Chemosphere, 61, 668–676. doi:10.1016/j.chemosphere.2005.03.024.Bhalerao, T., & Puranik, P. R. (2007). Biodegradation oforganochlorine pesticide, endosulfan, by a fungal isolate,Aspergillus niger. International Biodeterioration& Biodegradation, 59, 315–321. doi:10.1016/j.ibiod.2006.09.002.Braunschweiler, H. (1992). The fate of some pesticidesin Finnish cultivated soils. Agricultural Science inFinland, 1, 37–55.Cooke, C. M., Shaw, G., & Collins, C. D. (2004). Determinationf solid-liquid partition coefficients (Kd) forthe herbicides isoproturon and trifluralin in five UKagricultural soils. Environmental Pollution, 132, 541–552. doi:10.1016/j.envpol.2004.04.027.Critter, S. A. M., Freitas, S. S., & Airoldi, C. (2004). Microcalorimetricmeasurements of the metabolic activityby bacteria and fungi in some Brazilian soilsamended with different organic matter. ThermochimicaActa, 417, 275–281. doi:10.1016/j.tca.2003.09.033.Deger, A. B., Gremm, T. J., Frimmel, F. H., & Mendez,L. (2003). Optimization and application of SPME forthe gas chromatographic determination of endosulfanand its major metabolites in the ng/L range in aqueoussoluitons. Analytical and Bioanalytical Chemistry, 376,61–68.Fennell, B. J., Naughton, J. A., Dempsey, E., & Bell, A.(2006). Cellular and molecular actions of dinitroanilineand phosphorothioamidate herbicides on Plasmodiumfalciparum: Tubulin as a specific antimalarialtarget. Molecular and Biochemical Parasitology, 145,226–238. doi:10.1016/j.molbiopara.2005.08.020.Fernandes, T. C. C., Mazzeo, D. E. C., & Marin-Morales,M. A. (2007). Mechanism of micronuclei formation inpolyploidizated cells of Allium cepa exposed to trifluralinherbicide. Pesticide Biochemistry and Physiology,88, 252–259. doi:10.1016/j.pestbp.2006.12.003.Gebel, T., Kevekordes, S., Pav, K., Edenharder, R., &Dunkelberg, H. (1997). In vivo genotoxicity of selectedherbicides in the mouse bone-marrow micronucleustest. Archives of Toxicology, 71, 193–197.doi:10.1007/s002040050375.Ghardiri, H., & Rose, C. W. (2001). Degradation of endosulfanin a clay soil from cotton farms of westernQueensland. Journal of Environmental Management,62, 155–169. doi:10.1006/jema.2001.0428.Hengpraprom, S., Lee, C. M., & Coates, J. T. (2006). Sorptionof humic acids and ?-endosulfan by clay minerals.Environmental Toxicology and Chemistry, 25, 11–17.doi:10.1897/05-119R.1.Hiller, E., Krascsenits, Z., & Cernansky, S. (2008). Sorptionof acetochlor, atrazine, 2,4-D, chorotolluene andtrifluralin in six soils from Slovakia. Bulletin of EnvironmentalContamination and Toxicology, 80, 412–416. doi:10.1007/s00128-008-9430-9.Hussain, S., Arshad, M., Saleem, M., & Khalid, A. (2007).Biodegradatio of ? and ß-endosulfan by soil bacteria.Biodegradation, 18, 731–740. doi:10.1007/s10532-007-9102-1.Ismai, B. S., Enoma, A., Cheah,U., Lum, K. Y.,&Malik, Z.(2002). Adsorption, desorption, and mobility of twoinsecticides in Malaysian agricultural soil. Journal ofEnvironmental Science and Health. Part. B, Pesticides,Food Contaminants, and Agricultural Wastes, 37, 355–364. doi:10.1081/PFC-120004476.Jensen, P. K., & Spliid, N. H. (2003). Deposition of sprayliquid on the soil below cereal crops after applicationsduring the growing season. Weed Research, 43, 362–370. doi:10.1046/j.1365-3180.2003.00354.x.Johnstone, P. K., Jolley, A. V., Code, G. R., Moerkerk,M. R., & Corbett, A. (1998). Degradation of trifluralinin three Victorian soils—Long-term field trials. AustralianJournal of Experimental Agriculture, 38, 363–374. doi:10.1071/EA97076.Jolley, A. V., & Johnstone, P. K. (1994). Degradation oftrifluralin in 3 Victorian soils under field and laboratoryconditions. Australian Journal of ExperimentalAgriculture, 34, 57–65. doi:10.1071/EA9940057.Konen, S., & Cavas, T. (2008). Genotoxicity testing ofthe herbicide trifluralin and its commercial formulationtreflan using the piscine micronucleus test. Environmentaland Molecular Mutagenesis, 49, 434–438.doi:10.1002/em.20401.Kumar, M., & Philip, L. (2006). Adsorption and desorptioncharacteristics of hydrophobic pesticide endosulfanin four Indian soils. Chemosphere, 62, 1064–1077.doi:10.1016/j.chemosphere.2005.05.009.Kumar, M., Lakshmi, V., & Khana, S. (2008). Biodegradatinand bioremediation of endosulfan contaminatedsoil. Bioresource Technology, 99, 3116–3122.doi:10.1016/j.biortech.2007.05.057.Kyriakopoulos, G., Doulia, D., & Anagnostopoulos, E.(2005). Adsorption of pesticides on porous polymericadsorbents. Chemical Engineering Science, 60, 1177–1186. doi:10.1016/j.ces.2004.09.080.Mamy, L., & Barriuso, E. (2007). Desorption and timedependentsorption of herbicides in soils. EuropeanJournal of Soil Science, 58, 174–187. doi:10.1111/j.1365-2389.2006.00822.x.Oldal, B., Maloschik, E., Uzinger, N., Anton, A., &Szekacs, A. (2006). Pesticide residues in Hungariansoils. Geoderma, 135, 163–178. doi:10.1016/j.geoderma.2005.11.011.Pu, X. C., & Cutright, T. J. (2007). Degradation of pentachlorophenolby pure and mixed cultures in twodifferent soils. Environmental Science and PollutionResearch, 14, 244–250. doi:10.1065/espr2006.07.321.Environ Monit AssessSaghir, S., Charles, G. D., Bartels, M. J., Kan, L.,Dryzga, M. D., Brzak, A., et al. (2008). Mechanism oftrifluralin-induced thyroid tumors in rats. ToxicologyLetters, 180, 38–45. doi:10.1016/j.toxlet.2008.05.019.Schweizer, A., Turgut, C., & Hurle, K. (2000). Influenceof temperature and relative humidity on the volatilisationof pesticides. Zeitschrift Fur PflanzenkrankheitenUnd Pflanzenschutz-Journal of Plant Diseases andProtection, 17, 791–798.Singh, R. P., & Kumar, R. (2004). Endosulfan adsorptionon soils in soil–water suspensions containing cationic,non-ionic and anionic surfactants. Journal of theIndian Society of Soil Science, 52, 439–447.Tiryaki, O., Yucel, U., & Sezen, G. (2004). Biodegradationof trifluralin in Harran soil. Journal of EnvironmentalScience and Health. Part. B, Pesticides, FoodContaminants, and Agricultural Wastes, 39, 747–756.doi:10.1081/PFC-200030847.Tomlin, C. (2006). The pesticide manual (14th edn).London: British Crop Protection Council.Trapp, S. (2004). Plant uptake and transport modelsfor neutral and ionic chemicals. Environmental Scienceand Pollution Research, 11, 33–39. doi:10.1065/espr2003.08.169.Turgut, C. (2003). The contamination with organochlorinepesticides and heavy metals in surface waterin Kucuk Menderes River in Turkey, 2000–2002.Environment International, 29, 29–32. doi:10.1016/S0160-4120(02)00127-7.Turgut, C. (2005). Uptake and modeling of pesticidesby roots and shoots of parrotfeather (Myriophyllumaquaticum). Environmental Science and Pollution Research,12, 342–346. doi:10.1065/espr2005.05.256.Turgut, C. (2007). The impact of pesticides towardparrotfeather when applied at the predicted environmentalconcentration. Chemosphere, 66, 469–473.doi:10.1016/j.chemosphere.2006.05.073.Turgut, C., & Fomin, A. (2002). Residues of selectedpesticides in the Kucuk Menderes river inTurkey. Zeitschrift Fur Pflanzenkrankheiten UndPflanzenschutz-Journal of Plant Diseases and Protection,18, 1053–1057.Uludag, A., Uremis, I., Ulger, A. C., Cakir, B., & Aksoy,E. (2006). The use of maize as replacement crop intrifluralin treated fields in Turkey. Crop Protection(Guildford, Surrey), 25, 275–280. doi:10.1016/j.cropro.2005.05.005.Uludag, A., Nemli, Y., Tal, A., & Rubin, B. (2007).Fenoxaprop resistance in sterile wild oat (Avenasterilis) in wheat fields in Turkey. Crop Protection(Guildford, Surrey), 26, 930–935. doi:10.1016/j.cropro.2006.08.012.Unlu, L., & Bilgic, A. (2004). The effects of the infestationration of spiny bollworm and pink bollworm on cottonyield grow in semi-arid region of Turkey. Journal ofApplied Entomology, 128, 652–657.Winkaler, E. U., Santos, T. R. M., Machado-Neto, J. G.,& Martinez, C. B. R. (2007). Acute lethal and sublethaleffects of neem leaf extract on the neotropicalfreshwater fish Prochilodus lineatus. ComparativeBiochemistry and Physiology, 145(Part C), 236–244.Jayashree, R., & Vasudevan, N. (2007). Effect of Tween80 added to the soil on the degradation of endosulfanby Pseudomonas aeruginosa. International Journal ofEnvironmental Science, 4, 203–210.Yilmaz, I., Akcaoz, H., & Ozkan, B. (2005). An analysisof energy use and input costs for cotton productionin Turkey. Renewable Energy, 30, 145–155. doi:10.1016/j.renene.2004.06.001.Ying, G. G., &Williams, B. D. (2000). Mobility and persistenceof four herbicides in soil of a South Australianvineyard. Pest Management Science, 56, 277–283.doi:10.1002/(SICI)1526-4998(200003)56:3<277: :AID -PS132>3.0.CO;2-2.Zaidenberg, A., Marra, C., Luong, T., Gomez, P., Milani,L., Villagra, S., et al. (2007). Trifluralin toxicity ina chagas disease mouse model. Basic Clinical Pharmacology,101, 90–95. doi:10.1111/j.1742-7843.2007.00079.x.

BROWSE_DETAIL_TAB_REFERENCESArshad, M., Hussain, S., & Saleem, M. (2008). Optimizationof environmental parameters for the biodegradationof alpha and beta endosulfan in soil slurries byPseudomonas aeruginosa. Journal of Applied Microbiology,104, 364–370.Awasthi, N., Ahuja, R., & Kumar, A. (2000). Factors influencingthe degradation of soil-applied endosulfanisomers. Soil Biology & Biochemistry, 32, 1697–1705.doi:10.1016/S0038-0717(00)00087-0.Boivin, A., Cherrier, R., & Schiavon, M. (2005). Acomparison of five pesticides adsorption anddesorption processes in thirteen contrasting fieldsoils. Chemosphere, 61, 668–676. doi:10.1016/j.chemosphere.2005.03.024.Bhalerao, T., & Puranik, P. R. (2007). Biodegradation oforganochlorine pesticide, endosulfan, by a fungal isolate,Aspergillus niger. International Biodeterioration& Biodegradation, 59, 315–321. doi:10.1016/j.ibiod.2006.09.002.Braunschweiler, H. (1992). The fate of some pesticidesin Finnish cultivated soils. Agricultural Science inFinland, 1, 37–55.Cooke, C. M., Shaw, G., & Collins, C. D. (2004). Determinationf solid-liquid partition coefficients (Kd) forthe herbicides isoproturon and trifluralin in five UKagricultural soils. Environmental Pollution, 132, 541–552. doi:10.1016/j.envpol.2004.04.027.Critter, S. A. M., Freitas, S. S., & Airoldi, C. (2004). Microcalorimetricmeasurements of the metabolic activityby bacteria and fungi in some Brazilian soilsamended with different organic matter. ThermochimicaActa, 417, 275–281. doi:10.1016/j.tca.2003.09.033.Deger, A. B., Gremm, T. J., Frimmel, F. H., & Mendez,L. (2003). Optimization and application of SPME forthe gas chromatographic determination of endosulfanand its major metabolites in the ng/L range in aqueoussoluitons. Analytical and Bioanalytical Chemistry, 376,61–68.Fennell, B. J., Naughton, J. A., Dempsey, E., & Bell, A.(2006). Cellular and molecular actions of dinitroanilineand phosphorothioamidate herbicides on Plasmodiumfalciparum: Tubulin as a specific antimalarialtarget. Molecular and Biochemical Parasitology, 145,226–238. doi:10.1016/j.molbiopara.2005.08.020.Fernandes, T. C. C., Mazzeo, D. E. C., & Marin-Morales,M. A. (2007). Mechanism of micronuclei formation inpolyploidizated cells of Allium cepa exposed to trifluralinherbicide. Pesticide Biochemistry and Physiology,88, 252–259. doi:10.1016/j.pestbp.2006.12.003.Gebel, T., Kevekordes, S., Pav, K., Edenharder, R., &Dunkelberg, H. (1997). In vivo genotoxicity of selectedherbicides in the mouse bone-marrow micronucleustest. Archives of Toxicology, 71, 193–197.doi:10.1007/s002040050375.Ghardiri, H., & Rose, C. W. (2001). Degradation of endosulfanin a clay soil from cotton farms of westernQueensland. Journal of Environmental Management,62, 155–169. doi:10.1006/jema.2001.0428.Hengpraprom, S., Lee, C. M., & Coates, J. T. (2006). Sorptionof humic acids and ?-endosulfan by clay minerals.Environmental Toxicology and Chemistry, 25, 11–17.doi:10.1897/05-119R.1.Hiller, E., Krascsenits, Z., & Cernansky, S. (2008). Sorptionof acetochlor, atrazine, 2,4-D, chorotolluene andtrifluralin in six soils from Slovakia. Bulletin of EnvironmentalContamination and Toxicology, 80, 412–416. doi:10.1007/s00128-008-9430-9.Hussain, S., Arshad, M., Saleem, M., & Khalid, A. (2007).Biodegradatio of ? and ß-endosulfan by soil bacteria.Biodegradation, 18, 731–740. doi:10.1007/s10532-007-9102-1.Ismai, B. S., Enoma, A., Cheah,U., Lum, K. Y.,&Malik, Z.(2002). Adsorption, desorption, and mobility of twoinsecticides in Malaysian agricultural soil. Journal ofEnvironmental Science and Health. Part. B, Pesticides,Food Contaminants, and Agricultural Wastes, 37, 355–364. doi:10.1081/PFC-120004476.Jensen, P. K., & Spliid, N. H. (2003). Deposition of sprayliquid on the soil below cereal crops after applicationsduring the growing season. Weed Research, 43, 362–370. doi:10.1046/j.1365-3180.2003.00354.x.Johnstone, P. K., Jolley, A. V., Code, G. R., Moerkerk,M. R., & Corbett, A. (1998). Degradation of trifluralinin three Victorian soils—Long-term field trials. AustralianJournal of Experimental Agriculture, 38, 363–374. doi:10.1071/EA97076.Jolley, A. V., & Johnstone, P. K. (1994). Degradation oftrifluralin in 3 Victorian soils under field and laboratoryconditions. Australian Journal of ExperimentalAgriculture, 34, 57–65. doi:10.1071/EA9940057.Konen, S., & Cavas, T. (2008). Genotoxicity testing ofthe herbicide trifluralin and its commercial formulationtreflan using the piscine micronucleus test. Environmentaland Molecular Mutagenesis, 49, 434–438.doi:10.1002/em.20401.Kumar, M., & Philip, L. (2006). Adsorption and desorptioncharacteristics of hydrophobic pesticide endosulfanin four Indian soils. Chemosphere, 62, 1064–1077.doi:10.1016/j.chemosphere.2005.05.009.Kumar, M., Lakshmi, V., & Khana, S. (2008). Biodegradatinand bioremediation of endosulfan contaminatedsoil. Bioresource Technology, 99, 3116–3122.doi:10.1016/j.biortech.2007.05.057.Kyriakopoulos, G., Doulia, D., & Anagnostopoulos, E.(2005). Adsorption of pesticides on porous polymericadsorbents. Chemical Engineering Science, 60, 1177–1186. doi:10.1016/j.ces.2004.09.080.Mamy, L., & Barriuso, E. (2007). Desorption and timedependentsorption of herbicides in soils. EuropeanJournal of Soil Science, 58, 174–187. doi:10.1111/j.1365-2389.2006.00822.x.Oldal, B., Maloschik, E., Uzinger, N., Anton, A., &Szekacs, A. (2006). Pesticide residues in Hungariansoils. Geoderma, 135, 163–178. doi:10.1016/j.geoderma.2005.11.011.Pu, X. C., & Cutright, T. J. (2007). Degradation of pentachlorophenolby pure and mixed cultures in twodifferent soils. Environmental Science and PollutionResearch, 14, 244–250. doi:10.1065/espr2006.07.321.Environ Monit AssessSaghir, S., Charles, G. D., Bartels, M. J., Kan, L.,Dryzga, M. D., Brzak, A., et al. (2008). Mechanism oftrifluralin-induced thyroid tumors in rats. ToxicologyLetters, 180, 38–45. doi:10.1016/j.toxlet.2008.05.019.Schweizer, A., Turgut, C., & Hurle, K. (2000). Influenceof temperature and relative humidity on the volatilisationof pesticides. Zeitschrift Fur PflanzenkrankheitenUnd Pflanzenschutz-Journal of Plant Diseases andProtection, 17, 791–798.Singh, R. P., & Kumar, R. (2004). Endosulfan adsorptionon soils in soil–water suspensions containing cationic,non-ionic and anionic surfactants. Journal of theIndian Society of Soil Science, 52, 439–447.Tiryaki, O., Yucel, U., & Sezen, G. (2004). Biodegradationof trifluralin in Harran soil. Journal of EnvironmentalScience and Health. Part. B, Pesticides, FoodContaminants, and Agricultural Wastes, 39, 747–756.doi:10.1081/PFC-200030847.Tomlin, C. (2006). The pesticide manual (14th edn).London: British Crop Protection Council.Trapp, S. (2004). Plant uptake and transport modelsfor neutral and ionic chemicals. Environmental Scienceand Pollution Research, 11, 33–39. doi:10.1065/espr2003.08.169.Turgut, C. (2003). The contamination with organochlorinepesticides and heavy metals in surface waterin Kucuk Menderes River in Turkey, 2000–2002.Environment International, 29, 29–32. doi:10.1016/S0160-4120(02)00127-7.Turgut, C. (2005). Uptake and modeling of pesticidesby roots and shoots of parrotfeather (Myriophyllumaquaticum). Environmental Science and Pollution Research,12, 342–346. doi:10.1065/espr2005.05.256.Turgut, C. (2007). The impact of pesticides towardparrotfeather when applied at the predicted environmentalconcentration. Chemosphere, 66, 469–473.doi:10.1016/j.chemosphere.2006.05.073.Turgut, C., & Fomin, A. (2002). Residues of selectedpesticides in the Kucuk Menderes river inTurkey. Zeitschrift Fur Pflanzenkrankheiten UndPflanzenschutz-Journal of Plant Diseases and Protection,18, 1053–1057.Uludag, A., Uremis, I., Ulger, A. C., Cakir, B., & Aksoy,E. (2006). The use of maize as replacement crop intrifluralin treated fields in Turkey. Crop Protection(Guildford, Surrey), 25, 275–280. doi:10.1016/j.cropro.2005.05.005.Uludag, A., Nemli, Y., Tal, A., & Rubin, B. (2007).Fenoxaprop resistance in sterile wild oat (Avenasterilis) in wheat fields in Turkey. Crop Protection(Guildford, Surrey), 26, 930–935. doi:10.1016/j.cropro.2006.08.012.Unlu, L., & Bilgic, A. (2004). The effects of the infestationration of spiny bollworm and pink bollworm on cottonyield grow in semi-arid region of Turkey. Journal ofApplied Entomology, 128, 652–657.Winkaler, E. U., Santos, T. R. M., Machado-Neto, J. G.,& Martinez, C. B. R. (2007). Acute lethal and sublethaleffects of neem leaf extract on the neotropicalfreshwater fish Prochilodus lineatus. ComparativeBiochemistry and Physiology, 145(Part C), 236–244.Jayashree, R., & Vasudevan, N. (2007). Effect of Tween80 added to the soil on the degradation of endosulfanby Pseudomonas aeruginosa. International Journal ofEnvironmental Science, 4, 203–210.Yilmaz, I., Akcaoz, H., & Ozkan, B. (2005). An analysisof energy use and input costs for cotton productionin Turkey. Renewable Energy, 30, 145–155. doi:10.1016/j.renene.2004.06.001.Ying, G. G., &Williams, B. D. (2000). Mobility and persistenceof four herbicides in soil of a South Australianvineyard. Pest Management Science, 56, 277–283.doi:10.1002/(SICI)1526-4998(200003)56:3<277: :AID -PS132>3.0.CO;2-2.Zaidenberg, A., Marra, C., Luong, T., Gomez, P., Milani,L., Villagra, S., et al. (2007). Trifluralin toxicity ina chagas disease mouse model. Basic Clinical Pharmacology,101, 90–95. doi:10.1111/j.1742-7843.2007.00079.x.


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