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Mesocosm Experiments to Quantify Predation of Mosquito Larvae by Aquatic Predators to Determine Potential of Ecological Control of Malaria Vectors in Ethiopia

Author

Listed:
  • Beekam Kebede Olkeba

    (Department of Animal Sciences and Aquatic Ecology, Ghent University, Coupure Links 653, Building F, 9000 Ghent, Belgium
    Department of Environmental Health Science and Technology, Jimma University, Jimma P.O. Box 378, Ethiopia
    Department of Environmental Health Science, Hawassa University, Hawassa P.O. Box 1560, Ethiopia)

  • Peter L. M. Goethals

    (Department of Animal Sciences and Aquatic Ecology, Ghent University, Coupure Links 653, Building F, 9000 Ghent, Belgium)

  • Pieter Boets

    (Department of Animal Sciences and Aquatic Ecology, Ghent University, Coupure Links 653, Building F, 9000 Ghent, Belgium
    Provincial Centre of Environmental Research, Godshuizenlaan 95, 9000 Ghent, Belgium)

  • Luc Duchateau

    (Biometrics Research Centre, Faculty of Veterinary Medicine, Ghent University, 9820 Merelbeke, Belgium)

  • Teshome Degefa

    (School of Medical Laboratory Sciences, Jimma University, Jimma P.O. Box 378, Ethiopia)

  • Kasahun Eba

    (Department of Environmental Health Science and Technology, Jimma University, Jimma P.O. Box 378, Ethiopia
    Biometrics Research Centre, Faculty of Veterinary Medicine, Ghent University, 9820 Merelbeke, Belgium)

  • Delenasaw Yewhalaw

    (School of Medical Laboratory Sciences, Jimma University, Jimma P.O. Box 378, Ethiopia
    Tropical and Infectious Diseases Research Center, Jimma University, Jimma P.O. Box 378, Ethiopia)

  • Seid Tiku Mereta

    (Department of Environmental Health Science and Technology, Jimma University, Jimma P.O. Box 378, Ethiopia)

Abstract

Malaria parasites are transmitted to humans by infectious female Anopheles mosquitoes. Chemical-insecticide-based mosquito control has been successful in reducing the burden of malaria. However, the emergence of insecticide resistance in malaria vectors and concerns about the effect of the chemicals on the environment, human health, and non-target organisms present a need for new or alternative vector control intervention tools. Biocontrol methods using aquatic invertebrate predators have emerged as a potential alternative and additional tool to control mosquito populations. Ecological control specifically makes use of species insights for improving the physical habitat conditions of competitors and predators of vectors. A first step towards this is to gain knowledge on the predation potential of several typically present macroinvertebrates. Hence, this study aimed at (1) examining the influence of the predation of hemipterans on the number of emerging adult mosquitoes and (2) detecting Anopheles mosquito DNA in the gut of those predators. The prey and predators were collected from a range of water bodies located in the Gilgel Gibe watershed, southwest Ethiopia. A semi-field study was carried out using mesocosms which were constructed using plastic containers mimicking the natural aquatic habitat of immature Anopheles mosquitoes. Adult mosquitoes that emerged from the mesocosms were collected using a mechanical aspirator. At the end of the experiment, predators were withdrawn from the mesocosms and identified to genus level. Polymerase Chain Reaction (PCR) was employed to identify sibling species of Anopheles gambiae s.l. and to detect Anopheles mosquito DNA in the gut of the predators. Data were analysed using R software. Giant water bugs (belostomatids) were the most aggressive predators of Anopheles larvae, followed by backswimmers (notonectids) and water boatmen (corixids). All female Anopheles gambiae s.l. emerged from the mesocosms were identified as Anopheles arabiensis . Anopheles arabiensis DNA was detected in the gut content of hemipteran specimens analysed from the three families. The number of the adult mosquitoes emerging from the mesocosms was affected by the presence of predators. The findings of this study provide evidence of the potential use of aquatic macroinvertebrate predators as biocontrol agents against immature Anopheles mosquitoes and their potential to be considered as a component of integrated vector management for insecticide resistance and the combined restoration of aquatic ecosystems via smart ecological engineering.

Suggested Citation

  • Beekam Kebede Olkeba & Peter L. M. Goethals & Pieter Boets & Luc Duchateau & Teshome Degefa & Kasahun Eba & Delenasaw Yewhalaw & Seid Tiku Mereta, 2021. "Mesocosm Experiments to Quantify Predation of Mosquito Larvae by Aquatic Predators to Determine Potential of Ecological Control of Malaria Vectors in Ethiopia," IJERPH, MDPI, vol. 18(13), pages 1-10, June.
  • Handle: RePEc:gam:jijerp:v:18:y:2021:i:13:p:6904-:d:583371
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    References listed on IDEAS

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    1. Kasahun Eba & Luc Duchateau & Beekam Kebede Olkeba & Pieter Boets & Dechasa Bedada & Peter L. M. Goethals & Seid Tiku Mereta & Delenasaw Yewhalaw, 2021. "Bio-Control of Anopheles Mosquito Larvae Using Invertebrate Predators to Support Human Health Programs in Ethiopia," IJERPH, MDPI, vol. 18(4), pages 1-9, February.
    2. Clare Strode & Sarah Donegan & Paul Garner & Ahmad Ali Enayati & Janet Hemingway, 2014. "The Impact of Pyrethroid Resistance on the Efficacy of Insecticide-Treated Bed Nets against African Anopheline Mosquitoes: Systematic Review and Meta-Analysis," PLOS Medicine, Public Library of Science, vol. 11(3), pages 1-32, March.
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