{"title":"季节性和植被决定了哥伦比亚热带半干旱地区肥沃岛屿微生物的分类和功能多样性","authors":"Leslie Leal , Diego C. Franco , Javier Vanegas","doi":"10.1016/j.rhisph.2024.100894","DOIUrl":null,"url":null,"abstract":"<div><p>The islands of fertility or resource islands play a crucial role in combating desertification, as they harbor diverse microbial communities essential for their establishment. The objective of this study was to determine the taxonomic and functional diversity of soil microorganisms in a semi-arid region of the Colombian tropics using a metagenomic approach. To achieve this, we sampled three species of nurse trees as well as bare soil during both the dry and wet seasons. Total DNA was extracted and sequenced extensively. Taxonomic diversity was established by comparing against the SILVA database, while functional diversity was determined using the DIAMOND program and the KEGG database. The analysis unveiled seasonal microbial dynamics influenced by vegetation cover. Islands of fertility exhibited higher diversity and nutritional value compared to bare soil. Wet season conditions boosted microbial diversity, narrowing the gap between vegetated and unvegetated soils. Under drought conditions, Proteobacteria predominated in the resource islands, while Actinobacteria prevailed in the bare soil. Both islands of fertility and the rainy season are significant drivers of microbial communities in these semi-arid environments. The presence of unique genera indicated specialized adaptations, revealing an under-explored microbial diversity. Although complete methanogenesis was absent, methane oxidation pathways were detected. Bacteria demonstrated notable adaptations for nitrate reduction, even under organic substrate limitation. Organic matter and anaerobic microenvironments could play a crucial role in nitrate reduction and denitrification. Sulfate reduction prevailed during the dry season, whereas thiosulfate oxidation was more prominent during the wet season. These findings underscore the remarkable adaptability of microbial communities in challenging environments and provide key insights for addressing desertification in semi-arid zones.</p></div>","PeriodicalId":3,"journal":{"name":"ACS Applied Electronic Materials","volume":null,"pages":null},"PeriodicalIF":4.3000,"publicationDate":"2024-05-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S2452219824000478/pdfft?md5=be91596143d072f1bdaf43c984f45236&pid=1-s2.0-S2452219824000478-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Seasonality and vegetation shape the taxonomic and functional diversity of microorganisms in islands of fertility of a semi-arid region in the Colombian tropics\",\"authors\":\"Leslie Leal , Diego C. 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Wet season conditions boosted microbial diversity, narrowing the gap between vegetated and unvegetated soils. Under drought conditions, Proteobacteria predominated in the resource islands, while Actinobacteria prevailed in the bare soil. Both islands of fertility and the rainy season are significant drivers of microbial communities in these semi-arid environments. The presence of unique genera indicated specialized adaptations, revealing an under-explored microbial diversity. Although complete methanogenesis was absent, methane oxidation pathways were detected. Bacteria demonstrated notable adaptations for nitrate reduction, even under organic substrate limitation. Organic matter and anaerobic microenvironments could play a crucial role in nitrate reduction and denitrification. Sulfate reduction prevailed during the dry season, whereas thiosulfate oxidation was more prominent during the wet season. 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引用次数: 0
摘要
肥力岛或资源岛在防治荒漠化方面发挥着至关重要的作用,因为它们蕴藏着建立资源岛所必需的多种微生物群落。本研究的目的是利用元基因组学方法确定哥伦比亚热带半干旱地区土壤微生物的分类和功能多样性。为此,我们在旱季和雨季对三种哺育树以及裸土进行了采样。我们提取了总 DNA 并对其进行了广泛测序。通过与 SILVA 数据库进行比较,确定了分类多样性,同时使用 DIAMOND 程序和 KEGG 数据库确定了功能多样性。分析揭示了受植被覆盖影响的季节性微生物动态。与裸露的土壤相比,肥沃的岛屿表现出更高的多样性和营养价值。湿季条件提高了微生物的多样性,缩小了有植被土壤和无植被土壤之间的差距。在干旱条件下,资源岛以变形菌为主,而裸露土壤则以放线菌为主。在这些半干旱环境中,肥力岛和雨季都是微生物群落的重要驱动因素。独特菌属的存在表明微生物具有专门的适应能力,揭示了尚未充分开发的微生物多样性。虽然没有完全的甲烷生成,但发现了甲烷氧化途径。细菌在硝酸盐还原方面表现出明显的适应性,即使在有机基质受限的情况下也是如此。有机物和厌氧微环境可能在硝酸盐还原和反硝化作用中起着至关重要的作用。旱季主要是硫酸盐还原,而雨季则主要是硫代硫酸盐氧化。这些发现强调了微生物群落在具有挑战性的环境中的卓越适应能力,并为解决半干旱地区的荒漠化问题提供了重要启示。
Seasonality and vegetation shape the taxonomic and functional diversity of microorganisms in islands of fertility of a semi-arid region in the Colombian tropics
The islands of fertility or resource islands play a crucial role in combating desertification, as they harbor diverse microbial communities essential for their establishment. The objective of this study was to determine the taxonomic and functional diversity of soil microorganisms in a semi-arid region of the Colombian tropics using a metagenomic approach. To achieve this, we sampled three species of nurse trees as well as bare soil during both the dry and wet seasons. Total DNA was extracted and sequenced extensively. Taxonomic diversity was established by comparing against the SILVA database, while functional diversity was determined using the DIAMOND program and the KEGG database. The analysis unveiled seasonal microbial dynamics influenced by vegetation cover. Islands of fertility exhibited higher diversity and nutritional value compared to bare soil. Wet season conditions boosted microbial diversity, narrowing the gap between vegetated and unvegetated soils. Under drought conditions, Proteobacteria predominated in the resource islands, while Actinobacteria prevailed in the bare soil. Both islands of fertility and the rainy season are significant drivers of microbial communities in these semi-arid environments. The presence of unique genera indicated specialized adaptations, revealing an under-explored microbial diversity. Although complete methanogenesis was absent, methane oxidation pathways were detected. Bacteria demonstrated notable adaptations for nitrate reduction, even under organic substrate limitation. Organic matter and anaerobic microenvironments could play a crucial role in nitrate reduction and denitrification. Sulfate reduction prevailed during the dry season, whereas thiosulfate oxidation was more prominent during the wet season. These findings underscore the remarkable adaptability of microbial communities in challenging environments and provide key insights for addressing desertification in semi-arid zones.
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