Competition among Aedes aegypti larvae.

Kurt Steinwascher

doi:10.1371/journal.pone.0202455

Abstract

Adult Aedes aegypti mosquitoes are important vectors of human disease. The size of the adult female affects her success, fitness, and ability to transmit diseases. The size of the adults is determined during the aquatic larval stage. Competition among larvae for food influences the size of the pupa and thus the adult. In these experiments, the food level (mg/larva) and the density (larvae/vial) both affect intraspecific competition, which shows up as the interaction of the two factors. Furthermore, the total food per vial affects the nature of competition among the larvae, also apparent in the interaction of food and density. Male larvae are affected by the percent of males in the vial, but females are not. Seven biologically significant dependent variables were examined, and the data analyzed by multivariate analysis of variance to gain insight into the relationships among the variables and the effects of these factors on the larvae as they grew in small containers. Male and female larvae compete differently from one another for the particulate yeast cells in this experiment; female larvae outcompete males through larger size and by retaining cells within their gut at low total food levels. Under conditions of more intense competition, the pupal masses of both males and females are smaller, so the effect of competition is a reduced apparent food level. The age at pupation is also affected by food and density. Across the twenty treatment combinations of food/larva and larvae/vial, female larvae grew as though there were six different ecological environments while male larvae grew as though there were only four different environments. No interference competition was observed. Eradication efforts aimed at adult populations of this mosquito may inadvertently increase the size and robustness of the next generation of larvae, resulting in a subsequent adult population increase in the second generation.

Highlights

The Aedes aegypti mosquito is a global vector of human diseases, including Yellow Fever, Dengue and Zika
Aedes aegypti larvae occur in nature in low numbers spread across multiple small containers [2,3,4,5,6,7,8,9,10,11,12,13], but see [14].The mosquito larvae react to their environmental conditions including food level, total food, and density differently depending on gender
Pupal size is positively related to adult size, longevity/survival, sperm production, blood meal consumption, the size and number of eggs [1,54,73,81,84,85,86,87] and inversely related to the length of the gonotrophic cycle, and susceptibility to disease [81,87,88,89,90,91], but see [92,93,94,95,96,97]. 537 Mosquito larvae in these microcosms create a dynamic system

Summary

Introduction

The Aedes aegypti mosquito is a global vector of human diseases, including Yellow Fever, Dengue and Zika. The experiments in this study explore the response of male and female larvae to different combinations of initial food level, density and the percent of males in each vial. They differ from prior experiments because seven biologically significant dependent variables were measured and analyzed in a single MANOVA, allowing insight into the relationships among the variables as well as the effects of the treatments and most importantly the interactions across the treatments. They differ from prior experiments because seven biologically significant dependent variables were measured and analyzed in a single MANOVA, allowing insight into the relationships among the variables as well as the effects of the treatments and most importantly the interactions across the treatments. 61

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Conclusion