Fipronil and ivermectin treatment of cattle reduced the survival and ovarian development of field-collected Anopheles albimanus in a pilot trial conducted in northern Belize

Fipronil and ivermectin treatment of cattle reduced the survival and ovarian development of field-collected Anopheles albimanus in a pilot trial conducted in northern Belize

Abstract Background Most malaria vector control programmes rely on indoor residual spraying of insecticides and insecticide-treated bed nets. This is effective against vector species that feed indoors at night and rest inside the house afterwards. In Central America, malaria vectors have different b...

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Main Authors: Staci M. Dreyer, Donovan Leiva, Marla Magaña, Marie Pott, Jonathan Kay, Alvaro Cruz, Nicole L. Achee, John P. Grieco, Jefferson A. Vaughan
Format: Article
Language:English
Published: BMC 2019-08-01
Series:Malaria Journal
Subjects:
Malaria
Anopheles albimanus
Belize
Ivermectin
Fipronil
Cattle
Online Access:http://link.springer.com/article/10.1186/s12936-019-2932-6
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spelling doaj-74b1016662344b0b92cf36cc3021b4152020-11-25T03:54:23ZengBMCMalaria Journal1475-28752019-08-011811910.1186/s12936-019-2932-6Fipronil and ivermectin treatment of cattle reduced the survival and ovarian development of field-collected Anopheles albimanus in a pilot trial conducted in northern BelizeStaci M. Dreyer0Donovan Leiva1Marla Magaña2Marie Pott3Jonathan Kay4Alvaro Cruz5Nicole L. Achee6John P. Grieco7Jefferson A. Vaughan8Biology Department, University of North DakotaBelize Vector and Ecology CenterBelize Vector and Ecology CenterBelize Vector and Ecology CenterBelize Vector and Ecology CenterBelize Vector and Ecology CenterUniversity of Notre DameUniversity of Notre DameBiology Department, University of North DakotaAbstract Background Most malaria vector control programmes rely on indoor residual spraying of insecticides and insecticide-treated bed nets. This is effective against vector species that feed indoors at night and rest inside the house afterwards. In Central America, malaria vectors have different behaviours and are typically exophagic (i.e., bite outdoors), exophilic (i.e., remain outdoors after feeding), and zoophagic (i.e., as likely to feed on non-humans as humans). Thus, malaria elimination in Central America may require additional tactics. This pilot study investigated whether commercially-available products used to treat livestock for ticks could also be used to kill and/or sterilize zoophagic malaria vectors that feed on treated cattle in Belize. Methods Cattle were treated with either a pour-on formulation of 1% fipronil (3 heifers) or injection of 1% ivemectin (1 heifer). Control heifers (n = 2) were left untreated. Field-collected Anopheles albimanus contained in screen-top cages were strapped onto cattle at 2, 5, 7, and 14 days after treatment. Mosquito mortality was monitored once a day for 4 successive days. Surviving mosquitoes were dissected to assess blood meal digestion and ovarian development. Results A total of 1078 female An. albimanus mosquitoes were fed and monitored for mortality. Both fipronil and ivermectin significantly reduced survivorship of An. albimanus for up to 7 days after treatment. By 14 days, efficacy had declined. The ivermectin treatment completely lost its effectiveness and even though the fipronil-treated heifers were still killing significantly more mosquitoes than the untreated heifers, the amount of mosquito killing had diminished greatly. Both treatments significantly reduced ovary development in mosquitoes fed on treated cattle for the duration of the 2-week trial. Conclusions Treatment of cattle in northern Belize with topical fipronil and injectable ivermectin had significant lethal and sublethal effects on wild An. albimanus females. These results suggest that efforts towards eliminating residual transmission of malaria by zoophagic vectors in Central America may benefit by the judicious, targeted treatment of livestock with mosquitocidal compounds, such as fipronil or ivermectin.http://link.springer.com/article/10.1186/s12936-019-2932-6MalariaAnopheles albimanusBelizeIvermectinFipronilCattle
collection DOAJ
language English
format Article
sources DOAJ
author Staci M. Dreyer
Donovan Leiva
Marla Magaña
Marie Pott
Jonathan Kay
Alvaro Cruz
Nicole L. Achee
John P. Grieco
Jefferson A. Vaughan
spellingShingle Staci M. Dreyer
Donovan Leiva
Marla Magaña
Marie Pott
Jonathan Kay
Alvaro Cruz
Nicole L. Achee
John P. Grieco
Jefferson A. Vaughan
Fipronil and ivermectin treatment of cattle reduced the survival and ovarian development of field-collected Anopheles albimanus in a pilot trial conducted in northern Belize
Malaria Journal
Malaria
Anopheles albimanus
Belize
Ivermectin
Fipronil
Cattle
author_facet Staci M. Dreyer
Donovan Leiva
Marla Magaña
Marie Pott
Jonathan Kay
Alvaro Cruz
Nicole L. Achee
John P. Grieco
Jefferson A. Vaughan
author_sort Staci M. Dreyer
title Fipronil and ivermectin treatment of cattle reduced the survival and ovarian development of field-collected Anopheles albimanus in a pilot trial conducted in northern Belize
title_short Fipronil and ivermectin treatment of cattle reduced the survival and ovarian development of field-collected Anopheles albimanus in a pilot trial conducted in northern Belize
title_full Fipronil and ivermectin treatment of cattle reduced the survival and ovarian development of field-collected Anopheles albimanus in a pilot trial conducted in northern Belize
title_fullStr Fipronil and ivermectin treatment of cattle reduced the survival and ovarian development of field-collected Anopheles albimanus in a pilot trial conducted in northern Belize
title_full_unstemmed Fipronil and ivermectin treatment of cattle reduced the survival and ovarian development of field-collected Anopheles albimanus in a pilot trial conducted in northern Belize
title_sort fipronil and ivermectin treatment of cattle reduced the survival and ovarian development of field-collected anopheles albimanus in a pilot trial conducted in northern belize
publisher BMC
series Malaria Journal
issn 1475-2875
publishDate 2019-08-01
description Abstract Background Most malaria vector control programmes rely on indoor residual spraying of insecticides and insecticide-treated bed nets. This is effective against vector species that feed indoors at night and rest inside the house afterwards. In Central America, malaria vectors have different behaviours and are typically exophagic (i.e., bite outdoors), exophilic (i.e., remain outdoors after feeding), and zoophagic (i.e., as likely to feed on non-humans as humans). Thus, malaria elimination in Central America may require additional tactics. This pilot study investigated whether commercially-available products used to treat livestock for ticks could also be used to kill and/or sterilize zoophagic malaria vectors that feed on treated cattle in Belize. Methods Cattle were treated with either a pour-on formulation of 1% fipronil (3 heifers) or injection of 1% ivemectin (1 heifer). Control heifers (n = 2) were left untreated. Field-collected Anopheles albimanus contained in screen-top cages were strapped onto cattle at 2, 5, 7, and 14 days after treatment. Mosquito mortality was monitored once a day for 4 successive days. Surviving mosquitoes were dissected to assess blood meal digestion and ovarian development. Results A total of 1078 female An. albimanus mosquitoes were fed and monitored for mortality. Both fipronil and ivermectin significantly reduced survivorship of An. albimanus for up to 7 days after treatment. By 14 days, efficacy had declined. The ivermectin treatment completely lost its effectiveness and even though the fipronil-treated heifers were still killing significantly more mosquitoes than the untreated heifers, the amount of mosquito killing had diminished greatly. Both treatments significantly reduced ovary development in mosquitoes fed on treated cattle for the duration of the 2-week trial. Conclusions Treatment of cattle in northern Belize with topical fipronil and injectable ivermectin had significant lethal and sublethal effects on wild An. albimanus females. These results suggest that efforts towards eliminating residual transmission of malaria by zoophagic vectors in Central America may benefit by the judicious, targeted treatment of livestock with mosquitocidal compounds, such as fipronil or ivermectin.
topic Malaria
Anopheles albimanus
Belize
Ivermectin
Fipronil
Cattle
url http://link.springer.com/article/10.1186/s12936-019-2932-6
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