Optimization of Mass-Rearing Methods for Anopheles arabiensis Larval Stages: Effects of Rearing Water Temperature and Larval Density on Mosquito Life-History Traits

Insect mass-rearing is an essential requirement for the sterile insect technique. Production at a large scale requires the development of standardized rearing procedures to produce good quality males able to compete with wild males to mate with wild females. Three sets of experiments (using trays pl...

Full description

Saved in:
Bibliographic Details
Published in:Journal of economic entomology 2018-09, Vol.111 (5), p.2383-2390
Main Authors: Mamai, Wadaka, Lobb, Leanne N, Somda, Nanwintoum S. Bimbilé, Maiga, Hamidou, Yamada, Hanano, Lees, Rosemary Susan, Bouyer, Jeremy, Gilles, Jeremie R. L
Format: Article
Language:English
Subjects:
Analysis
Animals
Anopheles
Anopheles - growth & development
Anopheles arabiensis
Aquatic insects
Body size
Body temperature
Climate
Culicidae
egg density
Eggs
Female
Hatching
Herbivores
Larva - growth & development
Larvae
Larval development
Life history
Malaria
Male
Males
mass production
Mass rearing
MEDICAL ENTOMOLOGY
Methods
Mosquitoes
Nuclear energy
Ovum - physiology
Pest control
Pupa - physiology
Pupae
Pupation
Sex ratio
sterile insect technique
Sterilized organisms
Temperature
Temperature effects
Water
Water temperature
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Insect mass-rearing is an essential requirement for the sterile insect technique. Production at a large scale requires the development of standardized rearing procedures to produce good quality males able to compete with wild males to mate with wild females. Three sets of experiments (using trays placed on the table, the whole tray-rack system, and climate-controlled chambers) have been conducted aiming to determine the optimal water temperature and number of eggs to aliquot into each larval rearing tray to achieve the highest production of pupae. No difference was found in time to pupation, sex ratio, or male body size as a result of altering larval density. However, higher larval densities resulted in decreased emergence rate and female body size. A constant water temperature of 22°C delayed hatching and did not allow Anopheles arabiensis to complete larval development. Hatching eggs in water at 22°C and then increasing water temperature to 27°C resulted in decreased pupae production compared to eggs hatched and larvae maintained at a water temperature of 27°C throughout. Water temperature and larval density affected the production parameters of An. arabiensis mosquitoes, which has implications for mass release programs. We conclude that 4,000 eggs per 4 liter and a water temperature of 27°C were the optimal conditions for mass-rearing this mosquito species which yielded 105,000 pupae/larval rearing unit.These results are valuable information in the development of standard operation procedures for the efficient large-scale rearing of An. arabiensis mosquitoes.
ISSN:0022-0493
1938-291X
DOI:10.1093/jee/toy213