The nature of microbial diversity and assembly in the Nebraska Sandhills depends on organismal identity and habitat type

IF 1.2 4区 环境科学与生态学 Q4 ECOLOGY
Kaitlin Gattoni, Eli M. S. Gendron, J. Parr McQueen, Kirsten Powers, Thomas O. Powers, Mary J. Harner, Jessica R. Corman, Dorota L. Porazinska
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Abstract

The ecoregion of the Nebraska Sandhills is the largest intact temperate grassland in the world and is impacted by climate change, specifically drought. Despite the well-established role microorganisms play in ecosystem functioning, little is known about microbial community diversity and assembly processes in the Sandhills. To address this gap of knowledge, we examined microbial communities in three habitats (prairie soils, lake sediments, and lake water) across four lake basins ranging in alkalinity (pH 7–11) over two years (October 2020 and 2021). Replicate soil, sediment, and water samples were characterized for bacterial and microbial eukaryotic communities with 16S and 18S rRNA metabarcoding. Analyses for alpha diversity, community composition, and assembly processes were examined with general linear models, β-NTI (nearest taxon indices) analyses, Mantel tests, and modified Hubbell’s neutral models. Overall, diversity and composition varied by habitat type and lake basin regardless of organismal identity or year. Community assembly processes varied by habitat type as well as by organismal identity, but not by year. However, the role of deterministic selection and stochastic dispersal of individual taxa (i.e., OTUs) was interannually variable. Finally, the prairie soil communities were identified as a reservoir for bacterial diversity and the lake sediment communities as a target group for potential monitoring of the effects of climate change in the western Nebraska Sandhills.

Abstract Image

内布拉斯加沙丘地区微生物多样性和集合的性质取决于生物特征和栖息地类型
内布拉斯加沙丘生态区是世界上最大的完整温带草原,受到气候变化,特别是干旱的影响。尽管微生物在生态系统功能中发挥着公认的作用,但人们对沙丘地区的微生物群落多样性和组合过程却知之甚少。为了填补这一知识空白,我们在两年内(2020 年 10 月和 2021 年 10 月)考察了四个碱度(pH 值为 7-11 )不等的湖泊盆地中三种栖息地(草原土壤、湖泊沉积物和湖水)的微生物群落。通过 16S 和 18S rRNA 代谢编码,对土壤、沉积物和水样进行细菌和真核微生物群落特征描述。通过一般线性模型、β-NTI(最近分类群指数)分析、曼特尔检验和修正的哈贝尔中性模型,对α多样性、群落组成和组装过程进行了分析。总体而言,多样性和组成因生境类型和湖盆而异,与生物特征或年份无关。群落组合过程因生境类型和生物特征而异,但不因年份而异。不过,单个类群(即 OTU)的确定性选择和随机扩散作用在不同年份之间存在差异。最后,草原土壤群落被确定为细菌多样性的宝库,湖泊沉积物群落被确定为内布拉斯加州西部沙丘地区气候变化影响潜在监测的目标群。
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来源期刊
Community Ecology
Community Ecology 环境科学-生态学
CiteScore
2.90
自引率
5.90%
发文量
51
审稿时长
>36 weeks
期刊介绍: Community Ecology, established by the merger of two ecological periodicals, Coenoses and Abstracta Botanica was launched in an effort to create a common global forum for community ecologists dealing with plant, animal and/or microbial communities from terrestrial, marine or freshwater systems. Main subject areas: (i) community-based ecological theory; (ii) modelling of ecological communities; (iii) community-based ecophysiology; (iv) temporal dynamics, including succession; (v) trophic interactions, including food webs and competition; (vi) spatial pattern analysis, including scaling issues; (vii) community patterns of species richness and diversity; (viii) sampling ecological communities; (ix) data analysis methods.
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