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Статті в журналах з теми "Chlordecol"

Автор: Grafiati
Опубліковано: 19 жовтня 2024

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1

Delannoy, Matthieu, Jean-Michel Girardet, Fathia Djelti, Frances T. Yen, and Céline Cakir-Kiefer. "Affinity of chlordecone and chlordecol for human serum lipoproteins." Environmental Toxicology and Pharmacology 80 (November 2020): 103486. http://dx.doi.org/10.1016/j.etap.2020.103486.

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2

Léger, T., S. Alilat, L. Dec, K. Hogeveen, P. J. Ferron, S. Huet, Y. Devriendt-Renault, J. Parinet, V. Fessard, and L. Le Hégarat. "P1-03: A multi-omics strategy to depict and compare the hepatotoxic mechanisms of chlordecone and its metabolite chlordecol." Toxicology Letters 384 (September 2023): S293. http://dx.doi.org/10.1016/s0378-4274(23)00953-0.

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3

Devriendt-Renault, Yoann, Félix Massat, Thierry Guérin, and Julien Parinet. "Impact of classical home cooking processes on chlordecone and chlordecol concentrations in animal products originated from French West Indies." Food Control 152 (October 2023): 109871. http://dx.doi.org/10.1016/j.foodcont.2023.109871.

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4

Saint-Hilaire, Maïlie, Chanthadary Inthavong, Thomas Bertin, Gwenaëlle Lavison-Bompard, Thierry Guérin, Agnès Fournier, Cyril Feidt, Guido Rychen, and Julien Parinet. "Development and validation of an HPLC-MS/MS method with QuEChERS extraction using isotopic dilution to simultaneously analyze chlordecone and chlordecol in animal livers." Food Chemistry 252 (June 2018): 147–53. http://dx.doi.org/10.1016/j.foodchem.2018.01.092.

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5

Asifa, Kunimmal Poothaadammal, and Kumari Chidambaran Chitra. "Evidence for Chlordecone-Stimulated Oxidative Stress in Different Tissues of the Cichlid Fish, Pseudetroplus Maculatus (Bloch, 1795)." Croatian Journal of Fisheries 75, no. 2 (June 27, 2017): 67–75. http://dx.doi.org/10.1515/cjf-2017-0010.

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Abstract The present study was designed to assess the effect of chlordecone on the stimulation of oxidative stress in gill, liver and brain tissues of the cichlid fish, Pseudetroplus maculatus. Fishes were exposed to chlordecone at two sublethal concentrations, 3.5 and 7 μg/L, for 24, 72 and 96 h, maintaining ten animals in each group. Chlordecone treatment did not alter the body weight of the animal. However, significant increase in the secretion of mucous and decrease in the weights of gill, brain and hepatosomatic index were observed at 7 μg/L of chlordecone treatment only after 96 h. Gill tissue showed significant increase in the activities of superoxide dismutase, catalase and glutathione reductase along with elevated levels of hydrogen peroxide and lipid peroxidation in concentration and timedependent manner. This could be the defensive mechanism of gill tissue to escape the toxic effects of chlordecone. In the liver tissue, superoxide dismutase activity was increased by 39% at 3.5 μg/L and by 73% at 7 μg/L of chlordecone treatment. Activities of catalase and glutathione reductase were decreased 3 to 9 times at 3.5 and 7 μg/L concentrations, respectively, with concomitant increase in hydrogen peroxide generation (17 to 28 times) and lipid peroxidation (3 to 7 times) at the end of 96 h, which reveals the failure of hepatic antioxidant system to prevent free radical generation owing to chlordecone exposure. Activities of all antioxidant enzymes in the brain were inhibited by 29 to 80% along with the induction of hydrogen peroxide (13 to 20 times) and lipid peroxidation (6 to 11 times), thereby indicating imbalance in the antioxidant status. Activities of gill and liver marker enzyme - alkaline phosphatase - and acetylcholinesterase in brain were decreased. Therefore, imbalance in the antioxidant defence system as a result of chlordecone toxicity could lead to susceptible oxidative stress in various tissues of the fish.
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6

Multigner, Luc, Jean Rodrigue Ndong, Arnaud Giusti, Marc Romana, Helene Delacroix-Maillard, Sylvaine Cordier, Bernard Jégou, Jean Pierre Thome, and Pascal Blanchet. "Chlordecone Exposure and Risk of Prostate Cancer." Journal of Clinical Oncology 28, no. 21 (July 20, 2010): 3457–62. http://dx.doi.org/10.1200/jco.2009.27.2153.

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Purpose Determining whether environmental estrogens are associated with the risk of prostate cancer may have important implications for our general understanding of this disease. The estrogenic insecticide chlordecone was used extensively in the French West Indies, contaminating the population for more than 30 years. We analyzed the relationship between exposure to chlordecone and the risk of prostate cancer. Patients and Methods We investigated 623 men with prostate cancer and 671 controls. Exposure was analyzed according to case-control status, using either current plasma concentration or a cumulative exposure index based on years of exposure. We genotyped two single-nucleotide polymorphisms (rs3829125 and rs17134592) in the gene encoding chlordecone reductase. Results We found a significant increase in the risk of prostate cancer with increasing plasma chlordecone concentration (odds ratio [OR], 1.77; 95% CI, 1.21 to 2.58 for the highest tertile of values above the limit of detection [LD]; P trend = .002) and for cumulative exposure index (OR, 1.73; 95% CI, 1.04 to 2.88 for the highest quartile; P trend = .004). Stronger associations were observed among those with a positive family history of prostate cancer and among those who had lived in a Western country. The rs3829125 and rs17134592 allele variants were in complete linkage disequilibrium and were found at low frequency (0.04). Among subjects with plasma chlordecone concentrations above the LD, carriers of the allele variants had a higher risk of prostate cancer (OR, 5.23; 95% CI, 0.82 to 33.32). Conclusion These findings support the hypothesis that exposure to environmental estrogens increases the risk of prostate cancer.
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7

Flouriot, G., F. Pakdel, B. Ducouret, and Y. Valotaire. "Influence of xenobiotics on rainbow trout liver estrogen receptor and vitellogenin gene expression." Journal of Molecular Endocrinology 15, no. 2 (October 1995): 143–51. http://dx.doi.org/10.1677/jme.0.0150143.

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ABSTRACT Rainbow trout hepatocyte primary culture was used to test the influence of some xenobiotics on the expression of two genes implicated in reproduction, those for the estrogen receptor (ER) and vitellogenin (Vg). We showed that chlordecone, nonylphenol, a polychlorobiphenol (PCB) mixture (Aroclor 1245) and lindane were able to induce ER and Vg mRNA accumulation. Antiestrogens, 4-hydroxytamoxifen and ICI 164,384, prevented the effects of the xenobiotics, indicating that the induction of gene expression is mediated by the ER. Among these four xenobiotics, only chlordecone and nonylphenol were able to displace the binding of [3H]estradiol to ER-enriched COS-1 extracts, and to activate an estrogen-dependent reporter gene (ERE-TK-CAT) cotransfected with an expression vector containing ER cDNA. The results suggest that chlordecone and nonylphenol are direct inducers of rainbow trout ER and Vg gene expression, whereas PCBs and lindane act through their hepatic metabolites. Moreover, pentachlorophenol acts as an antagonist of the induction by estradiol of rainbow trout ER and Vg gene expression.
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8

Hewitt, L. Arthur, Gilles Caillé, and Gabriel L. Plaa. "Temporal relationships between biotransformation, detoxication, and chlordecone potentiation of chloroform-induced hepatotoxicity." Canadian Journal of Physiology and Pharmacology 64, no. 4 (April 1, 1986): 477–82. http://dx.doi.org/10.1139/y86-077.

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Exposure to chlordecone (CD, Kepone) is known to increase the hepatotoxicity of chloroform (CHCl3) in rats. A time-course analysis was conducted relating several indices of biotransformation capacity with the ability of CD to potentiate CHCl3-induced hepatotoxicity. Male Sprague–Dawley rats were given a single administration of corn oil alone or CD (50 mg/kg, po) dissolved in corn oil. At 2, 4, 8, 16, 20, 24, or 32 days posttreatment, groups of rats were killed and their livers were analyzed for (i) cytochrome P-450, NADPH-dependent cytochrome c reductase, cytochrome b5 and glutathione content or (ii) in vitro irreversible binding of 14CHCl3-derived radiolabel to microsomal protein. Similarly treated rats were challenged (2–32 days posttreatment) with CHCl3 (0.5 mL/kg po); 24 h later, liver damage was assessed by plasma alanine aminotransferase (ALT), plasma ornithine carbamyl transferase (OCT), plasma bilirubin, and hepatic glucose-6-phosphatase. CD potentiation was maximal 2 days posttreatment; and enhanced susceptibility to CHCl3 persisted up to 20–24 days post-CD treatment. In a parallel study animals treated with chlordecone were killed 8, 16, 20, 24, or 32 days later. Blood, kidney, liver, and adipose tissue samples were taken and analyzed for chlordecone content. The results suggest that a general temporal correlation exists between biotransformation rate (microsomal 14C binding), chlordecone content, and the severity of liver injury; the other parameters monitored do not appear to relate directly to the potentiation.
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9

Long, Augustin, Sara Lefevre, Laure Guy, Vincent Robert, Jean-Pierre Dutasta, Marion L. Chevallier, Oriane Della-Negra, Pierre-Loïc Saaidi, and Alexandre Martinez. "Recognition of the persistent organic pollutant chlordecone by a hemicryptophane cage." New Journal of Chemistry 43, no. 26 (2019): 10222–26. http://dx.doi.org/10.1039/c9nj01674k.

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10

Soileau, Stephen D., and Donald E. Moreland. "Effects of chlordecone and chlordecone alcohol on isolated ovine erythrocytes." Journal of Toxicology and Environmental Health 24, no. 2 (June 1988): 237–49. http://dx.doi.org/10.1080/15287398809531157.

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11

Pascal Villard, Alain Ferchal, Philippe Feldmann, Claudie Pavis, and Christophe Bonenfant. "Habitat selection by the Ringed Kingfisher (<em>Megaceryle torquata stictipennis</em>) on Basse-Terre, Guadeloupe: possible negative association with chlordecone pollution." Journal of Caribbean Ornithology 34 (May 10, 2021): 32–40. http://dx.doi.org/10.55431/jco.2021.34.32-40.

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Abstract In the Lesser Antilles, the Ringed Kingfisher (Megaceryle torquata stictipennis) is only found in Martinique, Dominica, and Guadeloupe. In Martinique and Guadeloupe, farmers growing bananas used the insecticide chlordecone extensively from 1973 until 1993. Chlordecone is a remnant organochlorine insecticide that bioaccumulates in organisms easily. In 2009, we conducted a survey of the Ringed Kingfisher on Basse-Terre, Guadeloupe, traveling 270 km along 44 rivers to assess the effects of chlordecone on habitat selection behavior. During our survey, we encountered 47 Ringed Kingfishers, which we estimated to be 16 different individuals. A habitat selection analysis revealed that the Ringed Kingfishers were located mainly in sections of rivers flowing through the ombrophilous forest but were absent on the ocean shoreline and in the lower parts of rivers. The Ringed Kingfisher’s distribution in Guadeloupe could be negatively associated with areas heavily polluted by chlordecone. We propose that the widespread use of chlordecone in banana plantations in Guadeloupe had adverse ecological consequences and may be responsible for the absence of Ringed Kingfishers in lowland habitats on the island. Keywords Antilles, bioindicator, chlordecone, habitat selection, Megaceryle torquata, Ringed Kingfisher, soil pollution Resumen Selección de hábitat por Megaceryle torquata stictipennis en Basse-Terre, Guadalupe: posible asociación negativa con la contaminación por clordecona • En las Antillas Menores, Megaceryle torquata stictipennis solamente se encuentra en Martinica, Dominica y Guadalupe. En Martinica y Guadalupe, los agricultores que cultivaban plátanos utilizaron ampliamente el insecticida clordecona desde 1973 hasta 1993. La clordecona es un insecticida organoclorado remanente que se bioacumula fácilmente en los organismos. En 2009, realizamos un muestreo de M. torquata en Basse-Terre, Guadalupe, recorriendo 270 km a lo largo de 44 ríos para evaluar los efectos de la clordecona en la conducta de selección del hábitat. Durante nuestro muestreo tuvimos 47 avistamientos de esta especie, de los cuales, estimamos que eran 16 individuos diferentes. Un análisis de selección de hábitat reveló que estos individuos fueron encontrados principalmente en secciones de ríos que fluían a través de bosques ombrófilos, pero estaban ausentes en la costa del océano y en las partes bajas de los ríos. La distribución de M. torquata en Guadalupe podría estar asociada negativamente con áreas muy contaminadas por la clordecona. Proponemos que, el uso generalizado de clordecona en plantaciones de plátanos en Guadalupe tuvo consecuencias ecológicas adversas y puede ser responsable de la ausencia de M. torquata en los hábitats de las tierras bajas de la isla. Palabras clave Antillas, bioindicador, clordecona, contaminación del suelo, Megaceryle torquata, selección de hábitat Résumé Sélection de l’habitat par le Martin-pêcheur à ventre roux (Megaceryle torquata stictipennis) sur la Basse-Terre en Guadeloupe : potentielle relation négative avec la pollution au chlordécone • Dans les Petites Antilles, le Martin-pêcheur à ventre roux (Megaceryle torquata stictipennis) ne vit que sur trois îles : Martinique, Dominique et Guadeloupe. De 1973 à 1993, les cultivateurs de bananes de Martinique et de Guadeloupe ont utilisé de manière intensive un insecticide appelé chlordécone. Il s’agit d’un insecticide organochloré rémanent qui s’accumule facilement dans les organismes. En 2009, nous avons réalisé un recensement du Martin-pêcheur à ventre roux sur la Basse-Terre, en Guadeloupe, en parcourant 270 km le long de 44 cours d’eau afin d’évaluer les effets du chlordécone sur le comportement de sélection de l’habitat de l’espèce. Durant notre étude, nous avons rencontré 47 Martins-pêcheurs à ventre roux que nous estimons correspondre à 16 individus différents. Une analyse de la sélection de l’habitat montre que le Martin-pêcheur à ventre roux se trouvait principalement sur les sections de rivières traversant la forêt ombrophile et était absent des rivages océaniques et de la partie basse des cours d’eau. La répartition du Martin-pêcheur à ventre roux en Guadeloupe pourrait être négativement corrélée aux zones hautement polluées par le chlordécone. Nous suggérons que l’épandage massif de chlordécone dans les bananeraies de Guadeloupe a eu des conséquences écologiques néfastes et pourrait être responsable de l’absence du Martin-pêcheur à ventre roux dans les habitats de plaine de l’île. Mots clés Antilles, bioindicateur, chlordécone, Martin-pêcheur à ventre roux, Megaceryle torquata, pollution du sol, sélection de l’habitat
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12

Faroon, Obaid, Steven Kueberuwa, Lester Smith, and Christopher Derosa. "Atsdr Evaluation of Health Effects of Chemicals." Toxicology and Industrial Health 11, no. 6 (November 1995): 1–195. http://dx.doi.org/10.1177/074823379501100601.

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This document provides public health officials, physicians, toxicologists, and other interested individuals and groups with an overall perspective of the toxicology of mirex and chlordecone. It contains descriptions and evaluations of toxicological studies and epidemiological investigations and provides conclusions, where possible, on the relevance of toxicity and toxicokinetic data to public health. Additional substances will be profiled in a series of manuscripts to follow.
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13

GILROY, DUNCAN J., HILLARY M. CARPENTER, and LAWRENCE R. CURTIS. "Chlordecone Pretreatment Alters [14C]Chlordecone and [14C]Cholesterol Transport Kinetics in the Perfused Rat Liver." Toxicological Sciences 22, no. 2 (1994): 286–92. http://dx.doi.org/10.1093/toxsci/22.2.286.

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14

Gilroy, D. "Chlordecone Pretreatment Alters [14C]Chlordecone and [14C]Cholesterol Transport Kinetics in the Perfused Rat Liver." Fundamental and Applied Toxicology 22, no. 2 (February 1994): 286–92. http://dx.doi.org/10.1006/faat.1994.1032.

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15

Bonde, Jens Peter, and Aleksander Giwercman. "Occupational hazards to male fecundity." Reproductive Medicine Review 4, no. 1 (March 1995): 59–73. http://dx.doi.org/10.1017/s096227990000106x.

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Research methods and knowledge in the field of male reproductive toxicology have gradually improved since reports in the late 1970s on severe impairment of spermatogenesis in workers with occupational exposure to certain chlorinated hydrocarbon pesticides (the nematocide 1,2-dibromochloropropan and the insecticide and fungicide chlordecone, but still we have only vague answers to basic questions about the overall significance of the environmental and occupational impact of these compounds on male reproductive capability.
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16

George, Susan E., and Larry D. Claxton. "Biotransformation of chlordecone by Pseudomonas species." Xenobiotica 18, no. 4 (January 1988): 407–16. http://dx.doi.org/10.3109/00498258809041677.

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17

Florence, Clostre, Letourmy Philippe, and Lesueur-Jannoyer Magalie. "Organochlorine (chlordecone) uptake by root vegetables." Chemosphere 118 (January 2015): 96–102. http://dx.doi.org/10.1016/j.chemosphere.2014.06.076.

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18

Clostre, Florence, Philippe Cattan, Jean-Marie Gaude, Céline Carles, Philippe Letourmy, and Magalie Lesueur-Jannoyer. "Comparative fate of an organochlorine, chlordecone, and a related compound, chlordecone-5b-hydro, in soils and plants." Science of The Total Environment 532 (November 2015): 292–300. http://dx.doi.org/10.1016/j.scitotenv.2015.06.026.

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19

Costet, Nathalie, Fabienne Pelé, Emmanuelle Comets, Florence Rouget, Christine Monfort, Florence Bodeau-Livinec, Elsie M. Linganiza, et al. "Perinatal exposure to chlordecone and infant growth." Environmental Research 142 (October 2015): 123–34. http://dx.doi.org/10.1016/j.envres.2015.06.023.

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20

Swartz, William J., and Roy L. Schutzmann. "Liver weight response to extended chlordecone exposure." Bulletin of Environmental Contamination and Toxicology 39, no. 4 (October 1987): 615–21. http://dx.doi.org/10.1007/bf01698453.

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21

Pascal-Lorber, Sophie, Clarisse Létondor, Yohan Liber, Emilien L. Jamin, and François Laurent. "Chlordecone Transfer and Distribution in Maize Shoots." Journal of Agricultural and Food Chemistry 64, no. 2 (January 7, 2016): 409–15. http://dx.doi.org/10.1021/acs.jafc.5b05115.

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22

Swartz, William J., and Gary M. Mall. "Chlordecone-induced follicular toxicity in mouse ovaries." Reproductive Toxicology 3, no. 3 (January 1989): 203–6. http://dx.doi.org/10.1016/0890-6238(89)90008-7.

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23

Saint-Hilaire, Maïlie, Guido Rychen, Jean-Pierre Thomé, Célia Joaquim-Justo, Yves Le Roux, Cyril Feidt, and Agnès Fournier. "Linear toxicokinetic of chlordecone in ewe’s serum." Environmental Science and Pollution Research 27, no. 33 (June 29, 2019): 40963–70. http://dx.doi.org/10.1007/s11356-019-05800-z.

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24

Vig, P. J. S., D. Desaiah, and B. D. Mehrotra. "Chlordecone interaction of calmodulin binding with phosphodiesterase." Journal of Applied Toxicology 10, no. 1 (February 1990): 55–57. http://dx.doi.org/10.1002/jat.2550100110.

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25

Naudillon, Françoise. "Chronique d’une écologie décoloniale dans C’est ma terre de Fabrice Bouckat." International Journal of Francophone Studies 23, no. 3 (December 1, 2020): 189–205. http://dx.doi.org/10.1386/ijfs_00017_1.

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The documentary film C’est ma terre by Fabrice Bouckat screened during the 2019 edition of Terrafestival is one of the first large-scale films produced locally on the crisis of the chlordecone molecule. This article will examine from a decolonial perspective, how its director, a Martinican with Gabonese origins who lives and works in Guadeloupe, develops a synthetic and universal vision of environmental crises, and thus demonstrates that destruction of ecosystems crosses time and space, cultures and lands, languages and peoples by bringing ecological crisis in the West Indies closer to the one experienced by the Vietnamese victims of Agent Orange.
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26

Saint-Hilaire, Maïlie, Aurore Fourcot, Alain Bousquet-Mélou, Guido Rychen, Jean-Pierre Thomé, Julien Parinet, Cyril Feidt, and Agnès Fournier. "Characterization and quantification of chlordecone elimination in ewes." Environmental Toxicology and Pharmacology 87 (October 2021): 103698. http://dx.doi.org/10.1016/j.etap.2021.103698.

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27

Hubas, Cédric, Dominique Monti, Jean-Michel Mortillaro, Sylvie Augagneur, Anne Carbon, Robert Duran, Solange Karama, et al. "Chlordecone-contaminated epilithic biofilms show increased adsorption capacities." Science of The Total Environment 825 (June 2022): 153942. http://dx.doi.org/10.1016/j.scitotenv.2022.153942.

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28

Amalric, Laurence, Benoît Henry, and Anne Berrehouc. "Determination of chlordecone in soils by GC/MS." International Journal of Environmental Analytical Chemistry 86, no. 1-2 (January 15, 2006): 15–24. http://dx.doi.org/10.1080/03067310500247637.

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29

Williams, Judy, Kris Eckols, and Lynda Uphouse. "Estradiol and chlordecone interactions with the estradiol receptor." Toxicology and Applied Pharmacology 98, no. 3 (May 1989): 413–21. http://dx.doi.org/10.1016/0041-008x(89)90170-1.

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30

Lastel, Marie-Laure, Sylvain Lerch, Agnès Fournier, Stefan Jurjanz, Maurice Mahieu, Harry Archimède, Cyril Feidt, and Guido Rychen. "Chlordecone disappearance in tissues of growing goats after a one month decontamination period—effect of body fatness on chlordecone retention." Environmental Science and Pollution Research 23, no. 4 (November 21, 2015): 3176–83. http://dx.doi.org/10.1007/s11356-015-5833-4.

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31

Cattan, Philippe, Jean-Baptiste Charlier, Florence Clostre, Philippe Letourmy, Luc Arnaud, Julie Gresser, and Magalie Jannoyer. "A conceptual model of organochlorine fate from a combined analysis of spatial and mid- to long-term trends of surface and ground water contamination in tropical areas (FWI)." Hydrology and Earth System Sciences 23, no. 2 (February 7, 2019): 691–709. http://dx.doi.org/10.5194/hess-23-691-2019.

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Abstract. In this study, we investigated the management of long-term environmental pollution by organic pollutants such as organochlorine pesticides. We set out to identify conditions that are conducive to reducing pollution levels for these persistent molecules and then propose a conceptual model of organochlorine fate in water. Our approach looked at spatio-temporal changes in pollutant contents in surface water (SW) and groundwater (GW) on a large scale, in order to decipher the respective roles of soil, geology, hydrology and past treatment practices. The case of chlordecone (CLD) on the island of Martinique (1100 km2) was selected given the sampling campaigns carried out since 2007 over more than 150 sites. CLD, its metabolite chlordecone-5b-hydro (5bCLD) and the metabolite-to-parent-compound ratio were compared. As regards the spatial variability of water contamination, our results showed that banana cropping areas explained the location of contaminated SW and GW, whereas the combination of soil and geology factors explained the main spatial variability in the 5bCLD∕CLD ratio. For temporal variability, these conditions defined a high diversity of situations in terms of the duration of pollution, highlighting two groups: water draining old geological formations and ferralsols or vertisols vs. recent geology and andosols. A conceptual leaching model provided some key information to help interpret downward trends in CLD and 5bCLD observed in water. Lastly, a conceptual model of organochlorine fate is proposed to explain the diversity of the 5bCLD∕CLD ratio in water. Our conclusions highlight the combined role of soil and groundwater residence time for differentiating between conditions that are more conducive, or not, to the disappearance of CLD from the environment. This paper presents a model that provides an overall perception of organochlorine pesticide fate in the environment.
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32

Liber, Yohan, Clarisse Létondor, Sophie Pascal-Lorber, and François Laurent. "Growth parameters influencing uptake of chlordecone by Miscanthus species." Science of The Total Environment 624 (May 2018): 831–37. http://dx.doi.org/10.1016/j.scitotenv.2017.12.071.

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33

Molowa, D. T., A. G. Shayne, and P. S. Guzelian. "Purification and characterization of chlordecone reductase from human liver." Journal of Biological Chemistry 261, no. 27 (September 1986): 12624–27. http://dx.doi.org/10.1016/s0021-9258(18)67136-4.

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34

Rao, Shrinivas B. "Chlordecone-CCl4 interactive hepatotoxicity-suppression of hormesis and recovery." Indian Journal of Clinical Biochemistry 9, no. 2 (December 1994): 60–63. http://dx.doi.org/10.1007/bf02869572.

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35

Hsu, Y. N., M. T. Lin, J. S. Hong, and M. C. Tsai. "Effect of Chlordecone Exposure on Thermoregulation in the Rat." Pharmacology 32, no. 5 (1986): 292–300. http://dx.doi.org/10.1159/000138182.

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36

Pinkston, Glenda, and Lynda Uphouse. "Postovulatory reduction of fertility in chlordecone treated female rats." Reproductive Toxicology 1, no. 2 (January 1987): 105–9. http://dx.doi.org/10.1016/0890-6238(87)90004-9.

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37

Jurjanz, S., C. Jondreville, M. Mahieu, A. Fournier, H. Archimède, G. Rychen, and C. Feidt. "Relative bioavailability of soil-bound chlordecone in growing lambs." Environmental Geochemistry and Health 36, no. 5 (April 13, 2014): 911–17. http://dx.doi.org/10.1007/s10653-014-9608-5.

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38

Dai, Shuhao, Ying Zhang, Yan Miao, Ran Liu, Yuepu Pu, and Lihong Yin. "Intergenerational reproductive toxicity of chlordecone in male Caenorhabditis elegans." Environmental Science and Pollution Research 26, no. 11 (February 22, 2019): 11279–87. http://dx.doi.org/10.1007/s11356-019-04519-1.

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39

Cook, Larry L., Christopher J. Gordon, Hugh A. Tilson, and Frank W. Edens. "Chlordecone-induced effects on thermoregulatory processes in the rat." Toxicology and Applied Pharmacology 90, no. 1 (August 1987): 126–34. http://dx.doi.org/10.1016/0041-008x(87)90313-9.

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40

Lewandowski, Margaret, Patricia Levi, and Ernest Hodgson. "Induction of cytochromep-450 isozymes by mirex and chlordecone." Journal of Biochemical Toxicology 4, no. 3 (1989): 195–99. http://dx.doi.org/10.1002/jbt.2570040309.

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41

Woignier, Thierry, Florence Clostre, Hervé Macarie, and Magalie Jannoyer. "Chlordecone retention in the fractal structure of volcanic clay." Journal of Hazardous Materials 241-242 (November 2012): 224–30. http://dx.doi.org/10.1016/j.jhazmat.2012.09.034.

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42

Woignier, T., P. Fernandes, A. Soler, F. Clostre, C. Carles, L. Rangon, and M. Lesueur-Jannoyer. "Soil microstructure and organic matter: Keys for chlordecone sequestration." Journal of Hazardous Materials 262 (November 2013): 357–64. http://dx.doi.org/10.1016/j.jhazmat.2013.08.070.

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43

KC, Chitra. "Effect of Chlordecone on the Reproductive Potential of the Cichlid Fish, Pseudetroplus Maculatus (Bloch, 1795)." Journal of Aquatic Research and Marine Sciences 2, no. 2 (May 17, 2019): 163–77. http://dx.doi.org/10.29199/2637-9309/arms-202033.

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44

KC, Chitra. "Effect of Chlordecone on the Reproductive Potential of the Cichlid Fish, Pseudetroplus Maculatus (Bloch, 1795)." Journal of Aquatic Research and Marine Sciences 2, no. 2 (May 17, 2019): 163–77. http://dx.doi.org/10.29199/2637-9309/arms.202033.

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45

KC, Chitra. "Effect of Chlordecone on the Reproductive Potential of the Cichlid Fish, Pseudetroplus Maculatus (Bloch, 1795)." Journal of Aquatic Research and Marine Sciences 2, no. 2 (May 17, 2019): 163–77. http://dx.doi.org/10.29199/arms/arms-202033.

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46

Glende, Eric A., and Paul Y. Lee. "Isopropanol and chlordecone potentiation of carbon tetrachloride liver injury: Retention of potentiating action in hepatocyte suspensions prepared from rats given isopropanol or chlordecone." Experimental and Molecular Pathology 42, no. 2 (April 1985): 167–74. http://dx.doi.org/10.1016/0014-4800(85)90025-5.

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47

Sabatier, Pierre, Charles Mottes, Nathalie Cottin, Olivier Evrard, Irina Comte, Christine Piot, Bastien Gay, et al. "Evidence of Chlordecone Resurrection by Glyphosate in French West Indies." Environmental Science & Technology 55, no. 4 (January 28, 2021): 2296–306. http://dx.doi.org/10.1021/acs.est.0c05207.

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48

Fernández-Bayo, Jesús D., Carine Saison, Chantal Geniez, Marc Voltz, Harry Vereecken, and Anne Berns. "Sorption Characteristics of Chlordecone and Cadusafos in Tropical Agricultural Soils." Current Organic Chemistry 17, no. 24 (December 31, 2013): 2976–84. http://dx.doi.org/10.2174/13852728113179990121.

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49

Bouveret, Cécile, Guido Rychen, Sylvain Lerch, Catherine Jondreville, and Cyril Feidt. "Relative Bioavailability of Tropical Volcanic Soil-Bound Chlordecone in Piglets." Journal of Agricultural and Food Chemistry 61, no. 38 (September 12, 2013): 9269–74. http://dx.doi.org/10.1021/jf400697r.

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50

Benoit, Pierre, Laure Mamy, Rémi Servien, Ziang Li, Eric Latrille, Virginie Rossard, Fabienne Bessac, Dominique Patureau, and Fabrice Martin-Laurent. "Categorizing chlordecone potential degradation products to explore their environmental fate." Science of The Total Environment 574 (January 2017): 781–95. http://dx.doi.org/10.1016/j.scitotenv.2016.09.094.

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