Wildlife fecal microbiota exhibit community stability across a longitudinal semi-controlled non-invasive sampling experiment

Samuel B Pannoni, W. Holben
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Abstract

Wildlife microbiome studies are being used to assess microbial links with animal health and habitat. The gold standard of sampling microbiomes directly from captured animals is ideal for limiting potential abiotic influences on microbiome composition, yet fails to leverage the many benefits of non-invasive sampling. Application of microbiome-based monitoring for rare, endangered, or elusive species creates a need to non-invasively collect scat samples shed into the environment. Since controlling sample age is not always possible, the potential influence of time-associated abiotic factors was assessed. To accomplish this, we analyzed partial 16S rRNA genes of fecal metagenomic DNA sampled non-invasively from Rocky Mountain elk (Cervus canadensis) near Yellowstone National Park. We sampled pellet piles from four different elk, then aged them in a natural forest plot for 1, 3, 7, and 14 days, with triplicate samples at each time point (i.e., a blocked, repeat measures (longitudinal) study design). We compared fecal microbiota of each elk through time with point estimates of diversity, bootstrapped hierarchical clustering of samples, and a version of ANOVA–simultaneous components analysis (ASCA) with PCA (LiMM-PCA) to assess the variance contributions of time, individual and sample replication. Our results showed community stability through days 0, 1, 3 and 7, with a modest but detectable change in abundance in only 2 genera (Bacteroides and Sporobacter) at day 14. The total variance explained by time in our LiMM-PCA model across the entire 2-week period was not statistically significant (p>0.195) and the overall effect size was small (<10% variance) compared to the variance explained by the individual animal (p<0.0005; 21% var.). We conclude that non-invasive sampling of elk scat collected within one week during winter/early spring provides a reliable approach to characterize fecal microbiota composition in a 16S rDNA survey and that sampled individuals can be directly compared across unknown time points with minimal bias. Further, point estimates of microbiota diversity were not mechanistically affected by sample age. Our assessment of samples using bootstrap hierarchical clustering produced clustering by animal (branches) but not by sample age (nodes). These results support greater use of non-invasive microbiome sampling to assess ecological patterns in animal systems.
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野生动物粪便微生物群在纵向半控制非侵入性采样实验中表现出群落稳定性
野生动物微生物组研究正被用于评估微生物与动物健康和栖息地的联系。直接从捕获的动物身上采集微生物组样本是限制微生物组组成的潜在非生物影响的理想方法,但这一黄金标准未能充分利用非侵入性采样的诸多优势。要对稀有、濒危或难以捉摸的物种进行基于微生物组的监测,就需要非侵入性地收集脱落到环境中的粪便样本。由于控制样本年龄并不总是可能的,因此我们对与时间相关的非生物因素的潜在影响进行了评估。为此,我们分析了黄石国家公园附近落基山麋鹿(Cervus canadensis)粪便元基因组 DNA 的部分 16S rRNA 基因。我们从四只不同麋鹿的粪便堆中取样,然后在天然林地块中分别陈化 1、3、7 和 14 天,每个时间点取样一式三份(即阻断、重复测量(纵向)研究设计)。我们比较了每头麋鹿粪便微生物群在不同时间段的多样性点估计值、样本的引导分层聚类以及方差分析-同时成分分析(ASCA)与 PCA(LiMM-PCA)版本,以评估时间、个体和样本复制的方差贡献。我们的结果表明,群落在第 0、1、3 和 7 天保持稳定,只有 2 个菌属(乳杆菌和孢子菌)的丰度在第 14 天发生了适度但可检测到的变化。在我们的 LiMM-PCA 模型中,时间在整个两周期间所解释的总方差没有统计学意义(p>0.195),与单个动物所解释的方差(p<0.0005;21% 的方差)相比,总体效应大小较小(<10% 的方差)。我们的结论是,对冬季/早春一周内收集的麋鹿粪便进行非侵入性采样,是在 16S rDNA 调查中描述粪便微生物群组成的可靠方法,而且采样个体可在未知时间点之间直接比较,偏差极小。此外,微生物群多样性的点估计值不会受到样本年龄的机械影响。我们使用 Bootstrap 分层聚类法对样本进行评估,结果显示,聚类是按动物(分支)而不是按样本年龄(节点)进行的。这些结果支持更多地使用非侵入性微生物组采样来评估动物系统的生态模式。
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