Mosquitoes reared in distinct insectaries within an institution in close spatial proximity possess significantly divergent microbiomes

Brettell, Laura E and Hoque, Ananya F and Joseph, Tara S and Dhokiya, Vishaal and Hornett, Emily A and Hughes, Grant L and Heinz, Eva (2024) Mosquitoes reared in distinct insectaries within an institution in close spatial proximity possess significantly divergent microbiomes. Other. bioRxiv. (https://doi.org/10.1101/2024.08.28.610121)

[thumbnail of Brettell-etal-preprint-Mosquitoes-reared-in-distinct-insectaries-within-an-institution-in-close-spatial-proximity]
Preview
Text. Filename: Brettell-etal-preprint-Mosquitoes-reared-in-distinct-insectaries-within-an-institution-in-close-spatial-proximity.pdf
Final Published Version
License: Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 logo

Download (2MB)| Preview

Abstract

The microbiome affects important aspects of mosquito biology and differences in microbial composition can affect the outcomes of laboratory studies. To determine how the biotic and abiotic conditions in an insectary affect the composition of the bacterial microbiome of mosquitoes we reared mosquitoes from a single cohort of eggs from one genetically homogeneous inbred colony, which were split into three batches, and transferred to each of three different insectaries located within the Liverpool School of Tropical Medicine. Using three replicate trays per insectary, we assessed and compared the bacterial microbiome composition as mosquitoes developed from these eggs. We also characterised the microbiome of the mosquitoes' food sources, measured environmental conditions over time in each climate-controlled insectary, and recorded development and survival of mosquitoes. While mosquito development was overall similar between all three insectaries, we saw differences in microbiome composition between mosquitoes from each insectary. Furthermore, bacterial input via food sources, potentially followed by selective pressure of temperature stability and range, did affect the microbiome composition. At both adult and larval stages, specific members of the mosquito microbiome were associated with particular insectaries; and the insectary with less stable and cooler conditions resulted in slower pupation rate and higher diversity of the larval microbiome. Tray and cage effects were also seen in all insectaries, with different bacterial taxa implicated between insectaries. These results highlight the necessity of considering the variability and effects of different microbiome composition even in experiments carried out in a laboratory environment starting with eggs from one batch; and highlights the impact of even minor inconsistencies in rearing conditions due to variation of temperature and humidity.

ORCID iDs

Brettell, Laura E, Hoque, Ananya F, Joseph, Tara S, Dhokiya, Vishaal, Hornett, Emily A, Hughes, Grant L and Heinz, Eva ORCID logoORCID: https://orcid.org/0000-0003-4413-3756;