Differences in Diet and Gut Microbiota Between Lactating and Non-lactating Asian Particolored Bats (Vespertilio sinensis): Implication for a Connection Between Diet and Gut Microbiota.

Jingjing Li,Yujia Chu,Wenwen Yao,Jiang Feng,Hui Wu

doi:10.3389/fmicb.2021.735122

Jingjing Li, Yujia Chu + Show 3 more

Open Access

https://doi.org/10.3389/fmicb.2021.735122

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Abstract

In mammals, lactation is considered the most energetically costly phase for females. To meet nutritional and energy demands, lactating females usually change feeding patterns by eating food that is higher in protein and calories. Their gut microbes respond accordingly to help adapt to the changes in diet. In this study, we examined differences in diet and gut microbial composition between lactating and non-lactating Asian particolored bats (Vespertilio sinensis) using COI and 16S amplicon sequencing. When compared with non-lactating bats, we found that the diversity and composition of lactating bats’ diets differed; the proportion of Diptera increased and Coleoptera and Orthoptera decreased significantly. This could be attributed to the easy availability and high protein content of Diptera. Comparative analysis of the gut microbiota of lactating and non-lactating females showed that although the diversity of gut microbiota did not change, the relative abundance of specific gut microbiota associated with a particular diet did change. For example, when the consumption of Coleoptera decreased in lactating bats, the relative abundance of Lactobacillaceae was also reduced. Lactobacillaceae are thought to be involved in the digestion of Coleopteran exoskeletons. This study suggests that during lactation, Asian particolored bats eat a diet that yields higher levels of protein, and at the same time, the abundance of specific gut microbes change to help their hosts adapt to these changes in diet.

Highlights

In the animal kingdom, females typically play a larger role in the care of young offspring
To examine the food composition and gut microbial structure of mammals during lactation, and try to establish the relationship between diet and gut microbiota during their most energetically costly phase, we focused on an insectivorous bat species in northeast China: the Asian particolored bat (Vespertilio sinensis)
We identified 276 operational taxonomic units (OTUs) from reads, 99 of which were only found in the diet of lactating bats and 138 of which were only found in the diet of non-lactating bats (Supplementary Table 1)

Summary

Introduction

Females typically play a larger role in the care of young offspring. To maximize the chances of their offspring’s survival, they invest more energy and pay a higher parental cost by providing larger sex cells and they invest more energy into rearing them (Taylor et al, 2000) This phenomenon is most prominent in lactating female mammals. Lactation is the most costly investment in offspring by female mammals To meet their infants’ needs for energy and nutrition, females face greater energetic and nutritional pressure during lactation (Aiello and Wells, 2002). This is especially true for the only flying mammals, bats. Females require the high energy for milk production as well as for carrying their young while flying (Kunz, 1987; Sigsgaard et al, 2020)

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