publication . Article . 2017

Insights from agriculture for the management of insecticide resistance in disease vectors

Sternberg, Eleanore D.; Thomas, Matthew B.;
Open Access English
  • Published: 29 Jun 2017 Journal: Evolutionary Applications (issn: 1752-4571, Copyright policy)
  • Publisher: Wiley
Abstract
Key to contemporary management of disease such as malaria, dengue, and filariasis is control of the insect vectors responsible for transmission. Insecticide-based interventions have contributed to declines in disease burdens in many areas but this progress could be threatened by the emergence of insecticide resistance in vector populations. Insecticide resistance is likewise a major concern in agriculture, where insect pests can cause substantial yield losses. Here we explore overlaps between understanding and managing insecticide resistance in agriculture and in public health. We have used the Global Plan for Insecticide Resistance Management in malaria vectors...
Subjects
free text keywords: global plan for insecticide resistance management in malaria vectors, insecticide resistance, insecticide resistance management, integrated vector management, malaria, vector‐borne diseases, Evolution, QH359-425, Perspective, Biotechnology, business.industry, business, Environmental planning, Psychological intervention, Ecology, Disease, Biology, Agriculture, Public health, medicine.medical_specialty, medicine, medicine.disease, Threatened species, Vector (epidemiology)
Funded by
NIH| Quantifying insecticide impact on malaria transmission: does resistance matter?
Project
  • Funder: National Institutes of Health (NIH)
  • Project Code: 1R21AI113609-01A1
  • Funding stream: NATIONAL INSTITUTE OF ALLERGY AND INFECTIOUS DISEASES
93 references, page 1 of 7

Achee, N. L., Bangs, M. J., Farlow, R., Killeen, G. F., Lindsay, S., Logan, J. G., … Grieco, J. P. (2012). Spatial repellents: from discovery and development to evidence‐based validation. Malaria Journal, 11, 164 https://doi.org/10.1186/1475-2875-11-164.22583679 [OpenAIRE] [PubMed]

Akogbéto, M. C., Djouaka, R. F., & Kindé‐Gazard, D. A. (2006). Screening of pesticide residues in soil and water samples from agricultural settings. Malaria Journal, 5, 22 https://doi.org/10.1186/1475-2875-5-22.16563153 [OpenAIRE] [PubMed]

Alout, H., Djègbè, I., Chandre, F., Djogbénou, L. S., Dabiré, R. K., Corbel, V., & Cohuet, A. (2014). Insecticide exposure impacts vector‐parasite interactions in insecticide‐resistant malaria vectors. Proceedings of the Royal Society of London B: Biological Sciences, 281(1786), 20140389 https://doi.org/10.1098/rspb.2014.0389.

Alyokhin, A., Mota‐Sanchez, D., Baker, M., Snyder, W. E., Menasha, S., Whalon, M., … Moarsi, W. F. (2015). The Red Queen in a potato field: Integrated pest management versus chemical dependency in Colorado potato beetle control. Pest Management Science, 71(3), 343–35 6. https://doi.org/10.1002/ps.3826.24817433 [PubMed]

Badolo, A., Traore, A., Jones, C. M., Sanou, A., Flood, L., Guelbeogo, W. M., … Sagnon, N. (2012). Three years of insecticide resistance monitoring in Anopheles gambiae in Burkina Faso: Resistance on the rise? Malaria Journal, 11, 232 https://doi.org/10.1186/1475-2875-11-232.22799568 [OpenAIRE] [PubMed]

Bagi, J., Grisales, N., Corkill, R., Morgan, J. C., N'Falé, S., Brogdon, W. G., & Ranson, H. (2015). When a discriminating dose assay is not enough: Measuring the intensity of insecticide resistance in malaria vectors. Malaria Journal, 14, 210 https://doi.org/10.1186/s12936-015-0721-4.25985896 [OpenAIRE] [PubMed]

Bates, S. L., Zhao, J.‐Z., Roush, R. T., & Shelton, A. M. (2005). Insect resistance management in GM crops: Past, present and future. Nature Biotechnology, 23(1), 57–62. https://doi.org/10.1038/nbt1056.

Bhatt, S., Weiss, D. J., Cameron, E., Bisanzio, D., Mappin, B., Dalrymple, U., … Gething, P. W. (2015). The effect of malaria control on Plasmodium falciparum in Africa between 2000 and 2015. Nature, 526(7572), 207–211. https://doi.org/10.1038/nature15535.26375008 [OpenAIRE] [PubMed]

Birget, P. L. G., & Koella, J. C. (2015). An epidemiological model of the effects of insecticide‐treated bed nets on malaria transmission. PLoS One, 10(12), e0144173 https://doi.org/10.1371/journal.pone.0144173.26636568 [OpenAIRE] [PubMed]

Bourguet, D., Desquilbet, M., & Lemarié, S. (2005). Regulating insect resistance management: The case of non‐Bt corn refuges in the US. Journal of Environmental Management, 76(3), 210–220. https://doi.org/10.1016/j.jenvman.2 005.01.019.15922504 [PubMed]

Bradley, J., Ogouyèmi‐Hounto, A., Cornélie, S., Fassinou, J., de Tove, Y. S. S., Adéothy, A. A., … Kleinschmidt, I. (2017). Insecticide‐treated nets provide protection against malaria to children in an area of insecticide resistance in Southern Benin. Malaria Journal, 16, 225 https://doi.org/10.1186/s12936-017-1873-1.28549431 [OpenAIRE] [PubMed]

Chaccour, C. J., Rabinovich, N. R., Slater, H., Canavati, S. E., Bousema, T., Lacerda, M., … Kobylinski, K. (2015). Establishment of the Ivermectin research for malaria elimination network: Updating the research agenda. Malaria Journal, 14, 243 https://doi.org/10.1186/s12936-015-0691-6.26068560 [OpenAIRE] [PubMed]

Chanda, E., Ameneshewa, B., Bagayoko, M., Govere, J. M., & Macdonald, M. B. (2017). Harnessing integrated vector management for enhanced disease prevention. Trends in Parasitology, 33(1), 30–41. https://doi.org/10.1016/j.pt.2016.09.006.27720141 [PubMed]

Chouaïbou, M. S., Fodjo, B. K., Fokou, G., Allassane, O. F., Koudou, B. G., David, J.‐P., … Bonfoh, B. (2016). Influence of the agrochemicals used for rice and vegetable cultivation on insecticide resistance in malaria vectors in southern Côte d'Ivoire. Malaria Journal, 15, 426 https://doi.org/10.1186/s12936-016-1481-5.27553959 [OpenAIRE] [PubMed]

Curtis, C. F. (1985). Theoretical models of the use of insecticide mixtures for the management of resistance. Bulletin of Entomological Research, 75(2), 259–266. https://doi.org/10.1017/S0007485300014346.

93 references, page 1 of 7
Abstract
Key to contemporary management of disease such as malaria, dengue, and filariasis is control of the insect vectors responsible for transmission. Insecticide-based interventions have contributed to declines in disease burdens in many areas but this progress could be threatened by the emergence of insecticide resistance in vector populations. Insecticide resistance is likewise a major concern in agriculture, where insect pests can cause substantial yield losses. Here we explore overlaps between understanding and managing insecticide resistance in agriculture and in public health. We have used the Global Plan for Insecticide Resistance Management in malaria vectors...
Subjects
free text keywords: global plan for insecticide resistance management in malaria vectors, insecticide resistance, insecticide resistance management, integrated vector management, malaria, vector‐borne diseases, Evolution, QH359-425, Perspective, Biotechnology, business.industry, business, Environmental planning, Psychological intervention, Ecology, Disease, Biology, Agriculture, Public health, medicine.medical_specialty, medicine, medicine.disease, Threatened species, Vector (epidemiology)
Funded by
NIH| Quantifying insecticide impact on malaria transmission: does resistance matter?
Project
  • Funder: National Institutes of Health (NIH)
  • Project Code: 1R21AI113609-01A1
  • Funding stream: NATIONAL INSTITUTE OF ALLERGY AND INFECTIOUS DISEASES
93 references, page 1 of 7

Achee, N. L., Bangs, M. J., Farlow, R., Killeen, G. F., Lindsay, S., Logan, J. G., … Grieco, J. P. (2012). Spatial repellents: from discovery and development to evidence‐based validation. Malaria Journal, 11, 164 https://doi.org/10.1186/1475-2875-11-164.22583679 [OpenAIRE] [PubMed]

Akogbéto, M. C., Djouaka, R. F., & Kindé‐Gazard, D. A. (2006). Screening of pesticide residues in soil and water samples from agricultural settings. Malaria Journal, 5, 22 https://doi.org/10.1186/1475-2875-5-22.16563153 [OpenAIRE] [PubMed]

Alout, H., Djègbè, I., Chandre, F., Djogbénou, L. S., Dabiré, R. K., Corbel, V., & Cohuet, A. (2014). Insecticide exposure impacts vector‐parasite interactions in insecticide‐resistant malaria vectors. Proceedings of the Royal Society of London B: Biological Sciences, 281(1786), 20140389 https://doi.org/10.1098/rspb.2014.0389.

Alyokhin, A., Mota‐Sanchez, D., Baker, M., Snyder, W. E., Menasha, S., Whalon, M., … Moarsi, W. F. (2015). The Red Queen in a potato field: Integrated pest management versus chemical dependency in Colorado potato beetle control. Pest Management Science, 71(3), 343–35 6. https://doi.org/10.1002/ps.3826.24817433 [PubMed]

Badolo, A., Traore, A., Jones, C. M., Sanou, A., Flood, L., Guelbeogo, W. M., … Sagnon, N. (2012). Three years of insecticide resistance monitoring in Anopheles gambiae in Burkina Faso: Resistance on the rise? Malaria Journal, 11, 232 https://doi.org/10.1186/1475-2875-11-232.22799568 [OpenAIRE] [PubMed]

Bagi, J., Grisales, N., Corkill, R., Morgan, J. C., N'Falé, S., Brogdon, W. G., & Ranson, H. (2015). When a discriminating dose assay is not enough: Measuring the intensity of insecticide resistance in malaria vectors. Malaria Journal, 14, 210 https://doi.org/10.1186/s12936-015-0721-4.25985896 [OpenAIRE] [PubMed]

Bates, S. L., Zhao, J.‐Z., Roush, R. T., & Shelton, A. M. (2005). Insect resistance management in GM crops: Past, present and future. Nature Biotechnology, 23(1), 57–62. https://doi.org/10.1038/nbt1056.

Bhatt, S., Weiss, D. J., Cameron, E., Bisanzio, D., Mappin, B., Dalrymple, U., … Gething, P. W. (2015). The effect of malaria control on Plasmodium falciparum in Africa between 2000 and 2015. Nature, 526(7572), 207–211. https://doi.org/10.1038/nature15535.26375008 [OpenAIRE] [PubMed]

Birget, P. L. G., & Koella, J. C. (2015). An epidemiological model of the effects of insecticide‐treated bed nets on malaria transmission. PLoS One, 10(12), e0144173 https://doi.org/10.1371/journal.pone.0144173.26636568 [OpenAIRE] [PubMed]

Bourguet, D., Desquilbet, M., & Lemarié, S. (2005). Regulating insect resistance management: The case of non‐Bt corn refuges in the US. Journal of Environmental Management, 76(3), 210–220. https://doi.org/10.1016/j.jenvman.2 005.01.019.15922504 [PubMed]

Bradley, J., Ogouyèmi‐Hounto, A., Cornélie, S., Fassinou, J., de Tove, Y. S. S., Adéothy, A. A., … Kleinschmidt, I. (2017). Insecticide‐treated nets provide protection against malaria to children in an area of insecticide resistance in Southern Benin. Malaria Journal, 16, 225 https://doi.org/10.1186/s12936-017-1873-1.28549431 [OpenAIRE] [PubMed]

Chaccour, C. J., Rabinovich, N. R., Slater, H., Canavati, S. E., Bousema, T., Lacerda, M., … Kobylinski, K. (2015). Establishment of the Ivermectin research for malaria elimination network: Updating the research agenda. Malaria Journal, 14, 243 https://doi.org/10.1186/s12936-015-0691-6.26068560 [OpenAIRE] [PubMed]

Chanda, E., Ameneshewa, B., Bagayoko, M., Govere, J. M., & Macdonald, M. B. (2017). Harnessing integrated vector management for enhanced disease prevention. Trends in Parasitology, 33(1), 30–41. https://doi.org/10.1016/j.pt.2016.09.006.27720141 [PubMed]

Chouaïbou, M. S., Fodjo, B. K., Fokou, G., Allassane, O. F., Koudou, B. G., David, J.‐P., … Bonfoh, B. (2016). Influence of the agrochemicals used for rice and vegetable cultivation on insecticide resistance in malaria vectors in southern Côte d'Ivoire. Malaria Journal, 15, 426 https://doi.org/10.1186/s12936-016-1481-5.27553959 [OpenAIRE] [PubMed]

Curtis, C. F. (1985). Theoretical models of the use of insecticide mixtures for the management of resistance. Bulletin of Entomological Research, 75(2), 259–266. https://doi.org/10.1017/S0007485300014346.

93 references, page 1 of 7
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publication . Article . 2017

Insights from agriculture for the management of insecticide resistance in disease vectors

Sternberg, Eleanore D.; Thomas, Matthew B.;