Activity budget and gut microbiota stability and flexibility across reproductive states in wild capuchin monkeys in a seasonal tropical dry forest.

IF 4.9 Q1 MICROBIOLOGY
Shasta E Webb, Joseph D Orkin, Rachel E Williamson, Amanda D Melin
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Abstract

Background: Energy demands associated with pregnancy and lactation are significant forces in mammalian evolution. To mitigate increased energy costs associated with reproduction, female mammals have evolved behavioural and physiological responses. Some species alter activity to conserve energy during pregnancy and lactation, while others experience changes in metabolism and fat deposition. Restructuring of gut microbiota with shifting reproductive states may also help females increase the energy gained from foods, especially during pregnancy. The goal of this study was to examine the relationships among behaviour, gut microbiota composition, and reproductive state in a wild, non-human primate to better understand reproductive ecology. We combined life history data with > 13,000 behavioural scans and 298 fecal samples collected longitudinally across multiple years from 33 white-faced capuchin monkey (Cebus imitator) females. We sequenced the V4 region of the 16S rRNA gene and used the DADA2 pipeline to analyze microbial diversity. We used PICRUSt2 to assess putative functions.

Results: Reproductive state explained some variation in activity, but overall resting behaviours were relatively stable across pregnancy and lactation. Foraging was less frequent among females in the early stage of nursing compared to the cycling stage, though otherwise remained at comparable levels. Maximum temperature was a strong, significantly positive predictor of resting, while social dominance had a small but significantly negative effect on resting. Ecological variables such as available fruit biomass and rainfall had a small but significantly positive effects on measures of foraging time. Gut microbial community structure, including richness, alpha diversity, and beta diversity remained stable across the reproductive cycle. In pairwise comparisons, pregnant females exhibited increased relative abundances of multiple microbial ASVs, suggesting small changes in relation to reproductive state. Reproductive state was not linked to differential abundance of putative metabolic pathways.

Conclusions: Previous data suggest that activity budget and the gut microbiome shifts considerably during reproduction. The present study finds that both activity and gut microbial communities are less associated with reproduction compared to other predictors, including ecological contexts. This suggests that behavioural flexibility and gut microbial community plasticity is contrained by ecological factors in this population. These data contribute to a broader understanding of plasticity and stability in response to physiological shifts associated with mammalian reproduction.

季节性热带干旱森林中野生卷尾猴的活动预算和肠道微生物群在不同繁殖状态下的稳定性和灵活性。
背景:与怀孕和哺乳相关的能量需求是哺乳动物进化的重要动力。为了减轻与繁殖相关的能量成本增加,雌性哺乳动物进化出了行为和生理反应。一些物种在怀孕和哺乳期间会改变活动以保存能量,而另一些物种则会经历新陈代谢和脂肪沉积的变化。随着生殖状态的变化,肠道微生物群的重组也可能帮助雌性动物增加从食物中获得的能量,尤其是在怀孕期间。本研究的目的是研究野生非人灵长类动物的行为、肠道微生物群组成和生殖状态之间的关系,以更好地了解生殖生态学。我们将生活史数据与 33 只白面卷尾猴(Cebus imitator)雌猴的 13,000 多次行为扫描和 298 份粪便样本相结合,对其进行了多年纵向采集。我们对 16S rRNA 基因的 V4 区域进行了测序,并使用 DADA2 管道分析了微生物多样性。我们使用 PICRUSt2 评估了推定功能:结果:繁殖状态解释了活动的一些变化,但总体休息行为在怀孕和哺乳期相对稳定。与哺乳期相比,哺乳初期的雌性觅食次数较少,但在其他方面仍保持在相当的水平。最高气温对休息有显著的正向预测作用,而社会优势对休息有微小但显著的负向影响。可用果实生物量和降雨量等生态变量对觅食时间的测量有微小但显著的正向影响。肠道微生物群落结构,包括丰富度、α多样性和β多样性,在整个繁殖周期保持稳定。在配对比较中,怀孕雌鼠表现出多种微生物ASV相对丰度的增加,表明与繁殖状态有关的微小变化。生殖状态与推定代谢途径的丰度差异无关:以前的数据表明,活动预算和肠道微生物组在繁殖期间会发生很大变化。本研究发现,与其他预测因素(包括生态环境)相比,活动和肠道微生物群落与繁殖的相关性较小。这表明,该种群的行为灵活性和肠道微生物群落可塑性受到生态因素的制约。这些数据有助于人们更广泛地了解哺乳动物繁殖过程中生理变化的可塑性和稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
0.00%
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审稿时长
13 weeks
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