J. De-cock, D. Heederik, and H. Kromhout, Determinants of exposure to captan in fruit growing, Am Ind Hyg Assoc J, vol.59, pp.166-72, 1998.

C. Aprea, L. Centi, L. Lunghini, B. Banchi, M. A. Forti et al., Evaluation of respiratory and cutaneous doses of chlorothalonil during re-entry in greenhouses, J Chromatogr B Analyt Technol Biomed Life Sci, vol.778, pp.131-176, 2002.

M. C. Aprea, A. Bosi, and M. Manara, Assessment of exposure to pesticides during mixing/loading and spraying of tomatoes in the open field, J Occup Environ Hyg, vol.13, pp.476-89, 2016.

I. Baldi, P. Lebailly, and V. Rondeau, Levels and determinants of pesticide exposure in operators involved in treatment of vineyards: results of the PESTEXPO Study, J Expo Sci Environ Epidemiol, vol.22, pp.593-600, 2012.

P. Lebailly, V. Bouchart, and I. Baldi, Exposure to pesticides in open-field farming in France, Ann Occup Hyg, vol.53, pp.69-81, 2009.

B. Negatu, R. Vermeulen, Y. Mekonnen, and H. Kromhout, A method for semi-quantitative assessment of exposure to pesticides of applicators and re-entry workers: an application in three farming systems in Ethiopia, Ann Occup Hyg, vol.60, pp.669-83, 2016.

M. T. Smith, K. Z. Guyton, and C. F. Gibbons, Key characteristics of carcinogens as a basis for organizing data on mechanisms of carcinogenesis, Environ Health Perspect, vol.124, pp.713-734, 2016.

K. Z. Guyton, D. Loomis, and Y. Grosse, Carcinogenicity of pentachlorophenol and some related compounds, Lancet Oncol, vol.17, pp.1637-1675, 2016.

R. Stiller-winkler, W. Hadnagy, G. Leng, E. Straube, and H. Idel, Immunological parameters in humans exposed to pesticides in the agricultural environment, Toxicol Lett, vol.107, pp.219-243, 1999.

S. Roulland, P. Lebailly, Y. Lecluse, M. Briand, D. Pottier et al., Characterization of the t(14; 18) BCL2-IGH translocation in farmers occupationally exposed to pesticides, Cancer Res, vol.64, pp.2264-69, 2004.

V. Garaj-vrhovac and D. Zeljezic, Cytogenetic monitoring of Croatian population occupationally exposed to a complex mixture of pesticides, Toxicology, vol.165, pp.153-62, 2001.

A. Blair, S. H. Zahm, N. E. Pearce, E. F. Heineman, and J. F. Fraumeni, Clues to cancer etiology from studies of farmers, Scand J Work Environ Health, vol.18, pp.209-224, 1992.

A. Blair and L. B. Freeman, Epidemiologic studies in agricultural populations: observations and future directions, J Agromedicine, vol.14, pp.125-156, 2009.

L. M. Morton, S. L. Slager, and J. R. Cerhan, Etiologic heterogeneity among non-Hodgkin lymphoma subtypes: the InterLymph NonHodgkin Lymphoma Subtypes Project, J Natl Cancer Inst Monogr, vol.2014, pp.130-174, 2014.

D. D. Alexander, P. J. Mink, and A. Ho, The non-Hodgkin lymphomas: a review of the epidemiologic literature, Int J Cancer, vol.120, issue.12, pp.1-39, 2007.

L. Orsi, L. Delabre, and A. Monnereau, Occupational exposure to pesticides and lymphoid neoplasms among men: results of a French case-control study, Occup Environ Med, vol.66, pp.291-98, 2009.
URL : https://hal.archives-ouvertes.fr/inserm-00342613

P. Cocco, G. Satta, and S. Dubois, Lymphoma risk and occupational exposure to pesticides: results of the Epilymph study, Occup Environ Med, vol.70, pp.91-98, 2013.

B. L. Waddell, S. H. Zahm, and D. Baris, Agricultural use of organophosphate pesticides and the risk of non-Hodgkin's lymphoma among male farmers (United States), Cancer Causes Control, vol.12, pp.509-526, 2001.

T. Zheng, S. H. Zahm, K. P. Cantor, D. D. Weisenburger, Y. Zhang et al., Agricultural exposure to carbamate pesticides and risk of non-Hodgkin lymphoma, J Occup Environ Med, vol.43, pp.641-690, 2001.

M. E. Leon, L. E. Beane-freeman, and J. Douwes, AGRICOH: a consortium of agricultural cohorts, Int J Environ Res Public Health, vol.8, pp.1341-57, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00644129

M. Brouwer, L. Schinasi, and L. E. Beane-freeman, Assessment of occupational exposure to pesticides in a pooled analysis of agricultural cohorts within the AGRICOH consortium, Occup Environ Med, vol.73, pp.359-67, 2016.

N. Leveque-morlais, S. Tual, B. Clin, A. Adjemian, I. Baldi et al., The AGRIculture and CANcer (AGRICAN) cohort study: enrollment and causes of death for the 2005-2009 period, Int Arch Occup Environ Health, vol.88, pp.61-73, 2015.

P. Kristensen, A. Andersen, L. M. Irgens, P. Laake, and A. S. Bye, Incidence and risk factors of cancer among men and women in Norwegian agriculture, Scand J Work Environ Health, vol.22, pp.14-26, 1996.

M. C. Alavanja, D. P. Sandler, and S. B. Mcmaster, The agricultural health study, Environ Health Perspect, vol.104, pp.362-69, 1996.

L. Schinasi and M. E. Leon, Non-Hodgkin lymphoma and occupational exposure to agricultural pesticide chemical groups and active ingredients: a systematic review and meta-analysis, Int J Environ Res Public Health, vol.11, pp.4449-527, 2014.

I. Baldi, C. Carles, and A. Blanc-lapierre, A French crop-exposure matrix for use in epidemiological studies on pesticides: PESTIMAT, J Expo Sci Environ Epidemiol, vol.27, pp.56-63, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01908711

L. M. Morton, J. J. Turner, and J. R. Cerhan, Proposed classification of lymphoid neoplasms for epidemiologic research from the Pathology Working Group of the International Lymphoma Epidemiology Consortium (InterLymph), Blood, vol.110, pp.695-708, 2007.

I. R. White, P. Royston, and A. M. Wood, Multiple imputation using chained equations: Issues and guidance for practice, Stat Med, vol.30, pp.377-99, 2011.

S. L. Heltshe, J. H. Lubin, and S. Koutros, Using multiple imputation to assign pesticide use for non-responders in the follow-up questionnaire in the Agricultural Health Study, J Expo Sci Environ Epidemiol, vol.22, pp.409-425, 2012.

D. Rubin, Multiple Imputation for Non-Response in Surveys, 1987.

L. K. Wilson, J. E. Elliott, R. S. Vernon, B. D. Smith, and S. Y. Szeto, Persistence and retention of active ingredients in four granular cholinesterase-inhibiting insecticides in agricultural soils of the lower Fraser River valley, British Columbia, Canada, with implications for wildlife poisoning, Environ Toxicol Chem, vol.21, pp.260-68, 2002.

M. Alavanja, J. Hofmann, and C. Lynch, Non-Hodgkin lymphoma risk and insecticide, fungicide and fumigant use in the agricultural health study, PLoS One, vol.9, p.109332, 2014.

L. Hu, D. Luo, T. Zhou, Y. Tao, J. Feng et al., The association between non-Hodgkin lymphoma and organophosphate pesticides exposure: a meta-analysis, Environ Pollut, vol.231, pp.319-347, 2017.

, World Health Organization. IARC Monographs on the Evaluation of Carcinogenic Risks to Humans Some Organophosphate Insecticides and Herbicides: Diazinon, Glyphosate, Malathion, Parathion, and Tetrachlorvinphos, 2015.

G. Andreotti, S. Koutros, and J. N. Hofmann, Glyphosate use and cancer incidence in the agricultural health study, J Natl Cancer Inst, vol.110, pp.509-525, 2018.

A. J. De-roos, A. Blair, and J. A. Rusiecki, Cancer incidence among glyphosate-exposed pesticide applicators in the Agricultural Health Study, Environ Health Perspect, vol.113, pp.49-54, 2005.

E. T. Chang and E. Delzell, Systematic review and meta-analysis of glyphosate exposure and risk of lymphohematopoietic cancers, J Environ Sci Health B, vol.51, pp.402-436, 2016.

K. P. Cantor, A. Blair, and G. Everett, Pesticides and other agricultural risk factors for non-Hodgkin's lymphoma among men in Iowa and Minnesota, Cancer Res, vol.52, pp.2447-55, 1992.

M. Pahwa, S. A. Harris, and K. Hohenadel, Pesticide use, immunologic conditions, and risk of non-Hodgkin lymphoma in Canadian men in six provinces, Int J Cancer, vol.131, pp.2650-59, 2012.

D. Loomis, K. Guyton, and Y. Grosse, Carcinogenicity of lindane, DDT, and 2, 4-dichlorophenoxyacetic acid, Lancet Oncol, vol.16, pp.891-92, 2015.

, World Health Organization. IARC Monographs on the Evaluation of Carcinogenic Risks to Humans: DDT, Lindane, and 2,4-D, 2017.

D. Luo, T. Zhou, Y. Tao, Y. Feng, X. Shen et al., Exposure to organochlorine pesticides and non-Hodgkin lymphoma: a metaanalysis of observational studies, Sci Rep, vol.6, p.25768, 2016.

J. S. Woods, L. Polissar, R. K. Severson, L. S. Heuser, and B. G. Kulander, Soft tissue sarcoma and non-Hodgkin's lymphoma in relation to phenoxyherbicide and chlorinated phenol exposure in western Washington, J Natl Cancer Inst, vol.78, pp.899-910, 1987.

M. Eriksson, L. Hardell, M. Carlberg, and M. Akerman, Pesticide exposure as risk factor for non-Hodgkin lymphoma including histopathological subgroup analysis, Int J Cancer, vol.123, pp.1657-63, 2008.

L. Hardell, M. Eriksson, and A. Degerman, Exposure to phenoxyacetic acids, chlorophenols, or organic solvents in relation to histopathology, stage, and anatomical localization of non-Hodgkin's lymphoma, Cancer Res, vol.54, pp.2386-89, 1994.

, International Agency for Research on Cancer, World Health Organization. IARC Monographs on the Evaluation of Carcinogenic Risks to Humans: Chemical Agents and Related Occupations, 2012.

J. E. Goodman, C. T. Loftus, and K. Zu, 4-Dichlorophenoxyacetic acid and non-Hodgkin's lymphoma, gastric cancer, and prostate cancer: meta-analyses of the published literature, Ann Epidemiol, vol.2, pp.626-662, 2015.

I. Baldi, L. Filleul, and B. Mohammed-brahim, Neuropsychologic effects of long-term exposure to pesticides: results from the French Phytoner study, Environ Health Perspect, vol.109, pp.839-883, 2001.

A. M. Jurek, S. Greenland, G. Maldonado, and T. R. Church, Proper interpretation of non-differential misclassification effects: expectations vs observations, Int J Epidemiol, vol.34, pp.680-87, 2005.

S. A. Khuder, E. A. Schaub, and J. E. Keller-byrne, Meta-analyses of nonHodgkin's lymphoma and farming, Scand J Work Environ Health, vol.24, pp.255-61, 1998.

M. Merhi, H. Raynal, E. Cahuzac, F. Vinson, J. P. Cravedi et al., Occupational exposure to pesticides and risk of hematopoietic cancers: meta-analysis of case-control studies, Cancer Causes Control, vol.18, pp.1209-1235, 2007.

K. M. Flegal, C. Brownie, and J. D. Haas, The effects of exposure misclassification on estimates of relative risk, Am J Epidemiol, vol.123, pp.736-51, 1986.