Population Growth Rates of Aedes atropalpus Are Naturally Abundant in Rock Pools

Recent studies report extensive reductions in the abundance of the North American rock pool mosquito, Aedes atropalpus (Diptera: Culicidae), following the invasion of Ae. japonicus japonicus in the United States. Although developmental temperature is recognized as an important component of the invas...

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Veröffentlicht in:	Journal of medical entomology 2021-01, Vol.58 (1), p.493
Hauptverfasser:	Day, Corey A, Armstrong, Eleanor G, Byrd, Brian D
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Sprache:	eng
Schlagworte:	Aedes Aedes albopictus Bioclimatology Biological research Biology, Experimental Distribution Environmental aspects Physiological aspects Zoogeography
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container_title	Journal of medical entomology
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creator	Day, Corey A Armstrong, Eleanor G Byrd, Brian D
description	Recent studies report extensive reductions in the abundance of the North American rock pool mosquito, Aedes atropalpus (Diptera: Culicidae), following the invasion of Ae. japonicus japonicus in the United States. Although developmental temperature is recognized as an important component of the invasion biology of Ae. j. japonicus, its impacts on the population growth and fitness of Ae. atropalpus remain largely undefined. In this study we reared Ae. atropalpus larvae at three temperature ranges reflecting ecologically important temperatures in natural rock pools: a low temperature range (mean: 19[degrees]C) where Ae. j. japonicus is common and Ae. atropalpus is often rare, a middle temperature range (mean: 25[degrees]C) where both species are naturally found in similar relative abundances, and a higher temperature range (mean: 31[degrees]C) where Ae. atropalpus is the dominant species. We measured survival, development time, wing length, and fecundity to calculate a finite population growth rate at each temperature. Our results indicate that Ae. atropalpus population growth suffers in colder rock pools, which informs the perceived displacement of the species in temperate habitats. The population growth rate was highest in the middle temperature range, but not significantly higher than in the highest temperature range used in this study. The developmental success of Ae. atropalpus at the intermediate temperature range suggests that competition with Ae. j. japonicus in rock pools within that range may significantly impact natural Ae. atropalpus populations. Key words: Ochlerotatus, Aedes atropalpus, Aedes japonicus, rate of increase
doi_str_mv	10.1093/jme/tjaa183
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Although developmental temperature is recognized as an important component of the invasion biology of Ae. j. japonicus, its impacts on the population growth and fitness of Ae. atropalpus remain largely undefined. In this study we reared Ae. atropalpus larvae at three temperature ranges reflecting ecologically important temperatures in natural rock pools: a low temperature range (mean: 19[degrees]C) where Ae. j. japonicus is common and Ae. atropalpus is often rare, a middle temperature range (mean: 25[degrees]C) where both species are naturally found in similar relative abundances, and a higher temperature range (mean: 31[degrees]C) where Ae. atropalpus is the dominant species. We measured survival, development time, wing length, and fecundity to calculate a finite population growth rate at each temperature. Our results indicate that Ae. atropalpus population growth suffers in colder rock pools, which informs the perceived displacement of the species in temperate habitats. The population growth rate was highest in the middle temperature range, but not significantly higher than in the highest temperature range used in this study. The developmental success of Ae. atropalpus at the intermediate temperature range suggests that competition with Ae. j. japonicus in rock pools within that range may significantly impact natural Ae. atropalpus populations. 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Although developmental temperature is recognized as an important component of the invasion biology of Ae. j. japonicus, its impacts on the population growth and fitness of Ae. atropalpus remain largely undefined. In this study we reared Ae. atropalpus larvae at three temperature ranges reflecting ecologically important temperatures in natural rock pools: a low temperature range (mean: 19[degrees]C) where Ae. j. japonicus is common and Ae. atropalpus is often rare, a middle temperature range (mean: 25[degrees]C) where both species are naturally found in similar relative abundances, and a higher temperature range (mean: 31[degrees]C) where Ae. atropalpus is the dominant species. We measured survival, development time, wing length, and fecundity to calculate a finite population growth rate at each temperature. Our results indicate that Ae. atropalpus population growth suffers in colder rock pools, which informs the perceived displacement of the species in temperate habitats. The population growth rate was highest in the middle temperature range, but not significantly higher than in the highest temperature range used in this study. The developmental success of Ae. atropalpus at the intermediate temperature range suggests that competition with Ae. j. japonicus in rock pools within that range may significantly impact natural Ae. atropalpus populations. 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The population growth rate was highest in the middle temperature range, but not significantly higher than in the highest temperature range used in this study. The developmental success of Ae. atropalpus at the intermediate temperature range suggests that competition with Ae. j. japonicus in rock pools within that range may significantly impact natural Ae. atropalpus populations. Key words: Ochlerotatus, Aedes atropalpus, Aedes japonicus, rate of increase</abstract><pub>Oxford University Press</pub><doi>10.1093/jme/tjaa183</doi></addata></record>
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source	Oxford University Press Journals All Titles (1996-Current); Alma/SFX Local Collection
subjects	Aedes Aedes albopictus Bioclimatology Biological research Biology, Experimental Distribution Environmental aspects Physiological aspects Zoogeography
title	Population Growth Rates of Aedes atropalpus Are Naturally Abundant in Rock Pools
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