publication . Article . 2016

Influence of the agrochemicals used for rice and vegetable cultivation on insecticide resistance in malaria vectors in southern Côte d’Ivoire

Chouaïbou, Mouhamadou S.; Fodjo, Behi K.; Fokou, Gilbert; Allassane, Ouattara F.; Koudou, Benjamin G.; David, Jean-Philippe; Antonio-Nkondjio, Christophe; Ranson, Hilary; Bonfoh, Bassirou;
Open Access
  • Published: 24 Aug 2016 Journal: Malaria Journal, volume 15 (eissn: 1475-2875, Copyright policy)
  • Publisher: Springer Science and Business Media LLC
Abstract
Background Vector control can contribute to the development of resistance to insecticides in malaria vectors. As the swamps and wetlands used for some agricultural activities constitute productive breeding sites for many mosquito species, agricultural pest control may increase the selection pressure for insecticide resistance in mosquitoes. Understanding the use of agrochemicals by farmers is important to plan and initiate effective integrated pest and vector management interventions. Methods A knowledge–attitude–practice study, using questionnaires, was undertaken with 102 rice farmers in Tiassalé and 106 vegetable farmers in Dabou (South Côte d’Ivoire) in orde...
Subjects
Medical Subject Headings: food and beverages
free text keywords: Parasitology, Infectious Diseases, Agrochemical, business.industry, business, Vector (epidemiology), Malaria, medicine.disease, medicine, Biology, Agriculture, Biotechnology, Malathion, chemistry.chemical_compound, chemistry, Wetland, geography.geographical_feature_category, geography, PEST analysis, Swamp, Research, qx_510, wa_240, wa_30
31 references, page 1 of 3

1. Hemingway J. The role of vector control in stopping the transmission of malaria: threats and opportunities. Phil Trans R Soc Lond B Biol Sci. 2014;369:20130431. [OpenAIRE]

2. WHO. Global plan for insecticide resistance management in malaria vectors (GPIRM). Geneva: World Health Organization, 2012.

3. Diabaté A, Baldet T, Chandre F, Akogbeto M, Guiguemde R, Darriet F, et al. role of agricultural use of insecticides in resistance to pyrethroids in Anopheles gambiae s.l. in Burkina Faso. Am J Trop Med Hyg. 2002;67:617-22. [OpenAIRE]

4. Chouaïbou MS, Etang J, Brévault T, Nwane P, Kérah‑Hinzoumbé C, Mimpfoundi R, et al. The dynamics of insecticide resistance in the malaria vector Anopheles gambiae s.l. from an area of extensive cotton cultivation in Northern Cameroon. Trop Med Int Health. 2008;13:1-11. [OpenAIRE]

5. Yadouleton AW, Asidi A, Rousseau FD, Braïma J, Agossou CD, Akogbeto MC. Development of vegetable farming: a cause of the emergence of insecticide resistance in populations of Anopheles gambiae in urban areas of Benin. Malar J. 2009;8:103. [OpenAIRE]

6. Nkya TE, Akhouayri I, Kisinza W, David JP. Impact of environment on mosquito response to pyrethroid insecticides: facts, evidences and prospects. Insect Biochem Mol Biol. 2013;43:407-16.

7. Nkya TE, Akhouayri I, Poupardin R, Batengana B, Mosha F, Kisinza W, David JP. Insecticide resistance mechanisms associated with diefrent environments in the malaria vector Anopheles gambiae: a case study in Tanzania. Malar J. 2014;13:28. [OpenAIRE]

8. Nkya TE, Poupardin R, Laporte F, Akhouayri I, Mosha F, Magesa S, et al. Impact of agriculture on the selection of insecticide resistance in the malaria vector Anopheles gambiae: a multigenerational study in controlled conditions. Parasit Vectors. 2014;7:480. [OpenAIRE]

9. NEPAD. African agriculture, transformation and outlook. NEPAD, November 2013.

10. Robert V, Gazin P, Boudin C, Molez JP, Ouedraogo V, Carnevale P. La transmission du paludisme en zone de savane arborée et en zone rizicole des environs de Bobo‑Dioulasso (Burkina Faso). Ann Soc Belg Med Trop. 1985;65(suppl 2):201-14.

11. Konan YL, Koné AB, Doannio JM, Fofana D, Odehouri‑Koudou P. Malaria transmission in Tiassalékro, an irrigated rice growing village situated in the South forest of Côte d'Ivoire. Bull Soc Pathol Exot. 2008;102:26-30.

12. WHO. 6ème journée mondiale de lutte contre le paludisme en Côte d'Ivoire. Bulletin d'information du bureau de la Représentation de l'OMS en Côte d'Ivoire. 2013; 348.

13. WHO. Test procedures for insecticide resistance monitoring in malaria vector mosquitoes. Geneva: World Health Organization; 2013.

14. Guan HT, Mee‑Kin C. Sample preparation in the analysis of pesticides residue in food by chromatographic techniques. In: Stoytcheva M (ed.) Pesticides-strategies for pesticides analysis. ISBN: 978‑953‑307‑460‑3. 2011

15. Epi Info™ Version 3.5.1/2008. http://www.cdc.gov/ Epi Info. Accessed Dec 2008.

31 references, page 1 of 3
Abstract
Background Vector control can contribute to the development of resistance to insecticides in malaria vectors. As the swamps and wetlands used for some agricultural activities constitute productive breeding sites for many mosquito species, agricultural pest control may increase the selection pressure for insecticide resistance in mosquitoes. Understanding the use of agrochemicals by farmers is important to plan and initiate effective integrated pest and vector management interventions. Methods A knowledge–attitude–practice study, using questionnaires, was undertaken with 102 rice farmers in Tiassalé and 106 vegetable farmers in Dabou (South Côte d’Ivoire) in orde...
Subjects
Medical Subject Headings: food and beverages
free text keywords: Parasitology, Infectious Diseases, Agrochemical, business.industry, business, Vector (epidemiology), Malaria, medicine.disease, medicine, Biology, Agriculture, Biotechnology, Malathion, chemistry.chemical_compound, chemistry, Wetland, geography.geographical_feature_category, geography, PEST analysis, Swamp, Research, qx_510, wa_240, wa_30
31 references, page 1 of 3

1. Hemingway J. The role of vector control in stopping the transmission of malaria: threats and opportunities. Phil Trans R Soc Lond B Biol Sci. 2014;369:20130431. [OpenAIRE]

2. WHO. Global plan for insecticide resistance management in malaria vectors (GPIRM). Geneva: World Health Organization, 2012.

3. Diabaté A, Baldet T, Chandre F, Akogbeto M, Guiguemde R, Darriet F, et al. role of agricultural use of insecticides in resistance to pyrethroids in Anopheles gambiae s.l. in Burkina Faso. Am J Trop Med Hyg. 2002;67:617-22. [OpenAIRE]

4. Chouaïbou MS, Etang J, Brévault T, Nwane P, Kérah‑Hinzoumbé C, Mimpfoundi R, et al. The dynamics of insecticide resistance in the malaria vector Anopheles gambiae s.l. from an area of extensive cotton cultivation in Northern Cameroon. Trop Med Int Health. 2008;13:1-11. [OpenAIRE]

5. Yadouleton AW, Asidi A, Rousseau FD, Braïma J, Agossou CD, Akogbeto MC. Development of vegetable farming: a cause of the emergence of insecticide resistance in populations of Anopheles gambiae in urban areas of Benin. Malar J. 2009;8:103. [OpenAIRE]

6. Nkya TE, Akhouayri I, Kisinza W, David JP. Impact of environment on mosquito response to pyrethroid insecticides: facts, evidences and prospects. Insect Biochem Mol Biol. 2013;43:407-16.

7. Nkya TE, Akhouayri I, Poupardin R, Batengana B, Mosha F, Kisinza W, David JP. Insecticide resistance mechanisms associated with diefrent environments in the malaria vector Anopheles gambiae: a case study in Tanzania. Malar J. 2014;13:28. [OpenAIRE]

8. Nkya TE, Poupardin R, Laporte F, Akhouayri I, Mosha F, Magesa S, et al. Impact of agriculture on the selection of insecticide resistance in the malaria vector Anopheles gambiae: a multigenerational study in controlled conditions. Parasit Vectors. 2014;7:480. [OpenAIRE]

9. NEPAD. African agriculture, transformation and outlook. NEPAD, November 2013.

10. Robert V, Gazin P, Boudin C, Molez JP, Ouedraogo V, Carnevale P. La transmission du paludisme en zone de savane arborée et en zone rizicole des environs de Bobo‑Dioulasso (Burkina Faso). Ann Soc Belg Med Trop. 1985;65(suppl 2):201-14.

11. Konan YL, Koné AB, Doannio JM, Fofana D, Odehouri‑Koudou P. Malaria transmission in Tiassalékro, an irrigated rice growing village situated in the South forest of Côte d'Ivoire. Bull Soc Pathol Exot. 2008;102:26-30.

12. WHO. 6ème journée mondiale de lutte contre le paludisme en Côte d'Ivoire. Bulletin d'information du bureau de la Représentation de l'OMS en Côte d'Ivoire. 2013; 348.

13. WHO. Test procedures for insecticide resistance monitoring in malaria vector mosquitoes. Geneva: World Health Organization; 2013.

14. Guan HT, Mee‑Kin C. Sample preparation in the analysis of pesticides residue in food by chromatographic techniques. In: Stoytcheva M (ed.) Pesticides-strategies for pesticides analysis. ISBN: 978‑953‑307‑460‑3. 2011

15. Epi Info™ Version 3.5.1/2008. http://www.cdc.gov/ Epi Info. Accessed Dec 2008.

31 references, page 1 of 3
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publication . Article . 2016

Influence of the agrochemicals used for rice and vegetable cultivation on insecticide resistance in malaria vectors in southern Côte d’Ivoire

Chouaïbou, Mouhamadou S.; Fodjo, Behi K.; Fokou, Gilbert; Allassane, Ouattara F.; Koudou, Benjamin G.; David, Jean-Philippe; Antonio-Nkondjio, Christophe; Ranson, Hilary; Bonfoh, Bassirou;