Collaborative Research: ANT LIA Integrating Genomic and Phenotypic Analyses to understand Microbial Life in Antarctic Soils

合作研究：ANT LIA 整合基因组和表型分析以了解南极土壤中的微生物生命

• 批准号: 2133685
• 负责人: Byron Adams
• 金额: $ 20.53万
• 依托单位: Brigham Young University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2022
• 资助国家: 美国
• 起止时间: 2022-04-01 至 2026-03-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2133685&HistoricalAwards=false
• 关键词: Collaborative; Research; ANT; LIA; Integrating

Not all of Antarctica is covered in ice. In fact, soils are common to many parts of Antarctica, and these soils are often unlike any others found on Earth. Antarctic soils harbor unique microorganisms able to cope with the extremely cold and dry conditions common to much of the continent. For decades, microbiologists have been drawn to the unique soils in Antarctica, yet critical knowledge gaps remain. Most notably, it is unclear what properties allow certain microbes to thrive in Antarctic soils. By using a range of methods, this project is developing comprehensive model that discovers the unique genomic features of soils diversity, distributions, and adaptations that allow Antarctic soil microbes to thrive in extreme environments. The proposed work will be relevant to researchers in many fields, including engineers seeking to develop new biotechnologies, ecologists studying the contributions of these microbial communities to the functioning of Antarctic ecosystems, microbiologists studying novel microbial adaptations to extreme environmental conditions, and even astrobiologists studying the potential for life on Mars. More generally, the proposed research presents an opportunity to advance our current understanding of the microbial life found in one of the more distinctive microbial habitats on Earth, a habitat that is inaccessible to many scientists and a habitat that is increasingly under threat from climate change.The research project explores the microbial diversity in Antarctic soils and links specific features to different soil types and environmental conditions. The overarching questions include: What microbial taxa are found in a variety of Antarctic environments? What are the environmental preferences of specific taxa or lineages? What are the genomic and phenotypic traits of microorganisms that allow them to persist in extreme environments and determine biogeographical differneces? This project will analyze archived soils collected from across Antarctica by a network of international collaborators, with samples selected to span broad gradients in soil and site conditions. The project uses cultivation-independent, high-throughput genomic analysis methods and cultivation-dependent approaches to analyze bacterial and fungal communities in soil samples. The results will be used to predict the distributions of specific taxa and lineages, obtain genomic information for the more ubiquitous and abundant taxa, and quantify growth responses in vitro across gradients in temperature, moisture, and salinity. This integration of ecological, environmental, genomic, and trait-based information will provide a comprehensive understanding of microbial life in Antarctic soils. This project will also help facilitate new collaborations between scientists across the globe while providing undergraduate students with 'hands-on' research experiences that introduce the next generation of scientists to the field of Antarctic biology.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

并非整个南极洲都被冰覆盖。事实上，土壤在南极洲的许多地方都很常见，而且这些土壤通常与地球上发现的其他土壤不同。南极土壤蕴藏着独特的微生物，能够应对该大陆大部分地区常见的极度寒冷和干燥的条件。几十年来，微生物学家一直被南极洲独特的土壤所吸引，但关键的知识差距仍然存在。最值得注意的是，目前尚不清楚哪些特性允许某些微生物在南极土壤中繁衍生息。通过使用一系列方法，该项目正在开发综合模型，发现土壤多样性、分布和适应性的独特基因组特征，使南极土壤微生物能够在极端环境中繁衍生息。拟议的工作将与许多领域的研究人员相关，包括寻求开发新生物技术的工程师、研究这些微生物群落对南极生态系统功能的贡献的生态学家、研究微生物对极端环境条件的新适应的微生物学家，甚至研究火星上生命潜力的天体生物学家。更广泛地说，拟议的研究提供了一个机会，以增进我们对地球上较独特的微生物栖息地之一中发现的微生物生命的了解，这是许多科学家无法进入的栖息地，也是日益受到气候变化威胁的栖息地。该研究项目探索了南极土壤中的微生物多样性，并将特定特征与不同的土壤类型和环境条件联系起来。最重要的问题包括：在各种南极环境中发现了哪些微生物类群？特定类群或谱系的环境偏好是什么？微生物的基因组和表型特征是什么，使它们能够在极端环境中生存并决定生物地理差异？该项目将分析国际合作者网络从南极洲各地收集的存档土壤，并选择跨越土壤和场地条件的广泛梯度的样本。该项目使用不依赖于培养的高通量基因组分析方法和依赖于培养的方法来分析土壤样本中的细菌和真菌群落。结果将用于预测特定类群和谱系的分布，获取更普遍和丰富的类群的基因组信息，并量化体外温度、湿度和盐度梯度的生长反应。这种生态、环境、基因组和性状信息的整合将提供对南极土壤微生物生命的全面了解。该项目还将有助于促进全球科学家之间的新合作，同时为本科生提供“实践”研究经验，将下一代科学家引入南极生物学领域。该奖项反映了 NSF 的法定使命，并通过使用基金会的智力价值和更广泛的影响审查标准进行评估，被认为值得支持。