Microbial ecology of northern Gulf of Mexico estuarine waters.

IF 5 2区 生物学 Q1 MICROBIOLOGY mSystems Pub Date : 2024-08-20 Epub Date: 2024-07-09 DOI:10.1128/msystems.01318-23
Michael W Henson, J Cameron Thrash
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Abstract

Estuarine and coastal ecosystems are of high economic and ecological importance, owing to their diverse communities and the disproportionate role they play in carbon cycling, particularly in carbon sequestration. Organisms inhabiting these environments must overcome strong natural fluctuations in salinity, nutrients, and turbidity, as well as numerous climate change-induced disturbances such as land loss, sea level rise, and, in some locations, increasingly severe tropical cyclones that threaten to disrupt future ecosystem health. The northern Gulf of Mexico (nGoM) along the Louisiana coast contains dozens of estuaries, including the Mississippi-Atchafalaya River outflow, which dramatically influence the region due to their vast upstream watershed. Nevertheless, the microbiology of these estuaries and surrounding coastal environments has received little attention. To improve our understanding of microbial ecology in the understudied coastal nGoM, we conducted a 16S rRNA gene amplicon survey at eight sites and multiple time points along the Louisiana coast and one inland swamp spanning freshwater to high brackish salinities, totaling 47 duplicated Sterivex (0.2-2.7 µm) and prefilter (>2.7 µm) samples. We cataloged over 13,000 Amplicon Sequence ariants (ASVs) from common freshwater and marine clades such as SAR11 (Alphaproteobacteria), Synechococcus (Cyanobacteria), and acI and Candidatus Actinomarina (Actinobacteria). We observed correlations with freshwater or marine habitats in many organisms and characterized a group of taxa with specialized distributions across brackish water sites, supporting the hypothesis of an endogenous brackish-water community. Additionally, we observed brackish-water associations for several aquatic clades typically considered marine or freshwater taxa, such as SAR11 subclade II, SAR324, and the acI Actinobacteria. The data presented here expand the geographic coverage of microbial ecology in estuarine communities, help delineate the native and transitory members of these environments, and provide critical aquatic microbiological baseline data for coastal and estuarine sites in the nGoM.IMPORTANCEEstuarine and coastal waters are diverse ecosystems influenced by tidal fluxes, interconnected wetlands, and river outflows, which are of high economic and ecological importance. Microorganisms play a pivotal role in estuaries as "first responders" and ecosystem architects, yet despite their ecological importance, they remain underrepresented in microbial studies compared to open ocean environments. This leads to substantial knowledge gaps that are important for understanding global biogeochemical cycling and making decisions about conservation and management strategies in these environments. Our study makes key contributions to the microbial ecology of estuarine and coastal habitats in the northern Gulf of Mexico. Our microbial community data support the concept of a globally distributed, core brackish microbiome and emphasize previously underrecognized brackish-water taxa. Given the projected worsening of land loss, oil spills, and natural disasters in this region, our results will serve as important baseline data for researchers investigating the microbial communities found across estuaries.

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墨西哥湾北部河口水域的微生物生态学。
河口和沿岸生态系统具有高度的经济和生态重要性,因为它们的群落多种多样, 而且在碳循环,特别是碳固存方面发挥着不成比例的作用。栖息在这些环境中的生物必须克服盐度、养分和浊度的强烈自然波动,以及众多由气候变化引起的干扰,如土地流失、海平面上升,以及在某些地方日益严重的热带气旋,这些都有可能破坏未来生态系统的健康。路易斯安那州沿岸的墨西哥湾北部(nGoM)有数十个河口,其中包括密西西比-阿特查法拉亚河(Mississippi-Atchafalaya River)外流河口,这些河口因其巨大的上游流域而对该地区产生巨大影响。然而,这些河口及周边沿海环境的微生物学却很少受到关注。为了提高我们对研究不足的沿岸 nGoM 微生物生态学的认识,我们在路易斯安那州沿岸的八个地点和多个时间点以及一个内陆沼泽地进行了 16S rRNA 基因扩增子调查,调查范围从淡水到高咸盐,共采集了 47 份重复的 Sterivex(0.2-2.7 µm)和预过滤(>2.7 µm)样本。我们对 13,000 多个扩增片段序列(ASV)进行了编目,这些序列来自常见的淡水和海洋支系,如 SAR11(表蛋白细菌)、Synechococcus(蓝藻)、acI 和 Candidatus Actinomarina(放线菌)。我们观察到许多生物与淡水或海洋栖息地的相关性,并发现一组分类群在咸水地点有专门的分布,这支持了内生咸水群落的假设。此外,我们还观察到几个通常被认为是海洋或淡水类群的水生类群与咸水的关联,如 SAR11 亚类群 II、SAR324 和 acI 放线菌。本文所提供的数据扩大了河口群落微生物生态学的地理覆盖范围,有助于划分这些环境中的原生成员和过渡成员,并为北大西洋沼泽地带的沿海和河口地点提供了重要的水生微生物基线数据。微生物作为 "第一反应者 "和生态系统建筑师,在河口发挥着举足轻重的作用,然而,尽管它们具有重要的生态意义,但与开阔的海洋环境相比,它们在微生物研究中的代表性仍然不足。这导致了大量的知识缺口,而这些知识缺口对于了解全球生物地球化学循环以及制定这些环境的保护和管理策略非常重要。我们的研究为墨西哥湾北部河口和沿海栖息地的微生物生态学做出了重要贡献。我们的微生物群落数据支持全球分布的核心咸水微生物组的概念,并强调了以前未被充分认识的咸水类群。鉴于该地区的土地流失、石油泄漏和自然灾害预计将进一步恶化,我们的研究结果将成为研究人员调查河口微生物群落的重要基准数据。
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来源期刊
mSystems
mSystems Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
10.50
自引率
3.10%
发文量
308
审稿时长
13 weeks
期刊介绍: mSystems™ will publish preeminent work that stems from applying technologies for high-throughput analyses to achieve insights into the metabolic and regulatory systems at the scale of both the single cell and microbial communities. The scope of mSystems™ encompasses all important biological and biochemical findings drawn from analyses of large data sets, as well as new computational approaches for deriving these insights. mSystems™ will welcome submissions from researchers who focus on the microbiome, genomics, metagenomics, transcriptomics, metabolomics, proteomics, glycomics, bioinformatics, and computational microbiology. mSystems™ will provide streamlined decisions, while carrying on ASM''s tradition of rigorous peer review.
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