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进化生态学(魏娜）

花匠小妙招
2024-11-30 03:51

学科组的研究旨在通过生态学、基因组学和微生物学的视角，探讨基因组–表型–环境之间的关系，阐明植物适应环境变化的生态和进化机制。通过利用作物近缘野生种（如草莓，Fragaria）、生物能源植物（如浮萍，Lemnoideae）以及其他植物，学科组的研究不仅解决进化生态学的基本问题，而且解决农业、生态系统管理和生物多样性保护所面临的实际问题。学科组的研究通过整合植物学、种群与群落生态学、微生物生态学、传粉生物学、数量遗传学、种群基因组学和系统发育基因组学，多角度跨学科的理解和预测植物的适应性和可塑性。研究成果发表在Nature等国际主流杂志期刊。主持了美国国家自然科学基金项目，并担任 30 多种SCI期刊的论文审评，以及担任美国及欧洲的国家自然科学基金项目的审评，包括美国国家自然科学基金（NSF），德国国家自然科学基金（DFG; Deutsche Forschungsgemeinschaft）和波兰国家自然科学基金（NCN; National Science Centre）。

进化生态学学科组诚邀国内外优秀人才加入，现招募特别研究助理或副研、博士后、博士研究生、硕士研究生和本科生。欢迎对生态学、进化生物学、微生物学、基因组学、生物信息学、分子生物学、传粉生物学及建模感兴趣的研究人员加入我们！

研究组长

姓名魏娜学历博士职称研究员职务博士生导师, PI 通讯地址武汉市东湖新技术开发区九峰一路201号邮政编码 430074 电子邮箱 na.wei.phd@hotmail.com

姓　名：魏娜学历：博士职称：研究员职务：博士生导师, PI 通讯地址：武汉市东湖新技术开发区九峰一路201号邮政编码： 430074 电子邮箱： na.wei.phd@hotmail.com简要履历 2024–至今中国科学院武汉植物园研究员 2020–2024 Holden Arboretum, USA 研究员 2015–2019 University of Pittsburgh, Department of Biological Sciences 博士后 2009–2015 University of Michigan, Ecology and Evolutionary Biology 博士 2006–2009 南京大学生命科学学院硕士 2002–2006 南京大学生命科学学院学士社会任职2021–至今 Case Western Reserve University, USA 助理教授(兼职)2023–至今 Cleveland State University, USA 教授 (兼职)获奖及荣誉 2014–2015年拉克汉姆博士生奖学金，美国密歇根大学 2013–2014年巴伯奖学金，美国密歇根大学 2012–2013年进化生态学系奖学金，美国密歇根大学 2010–2011年拉克汉姆国际学生奖学金，美国密歇根大学 2010–2011年进化生态学系奖学金，美国密歇根大学研究组科研项目2023–2026 美国国家自然科学基金 (2300058)2023–2026 理事会资助基金 (LEQSF(2023-26)-RD-A-14)2021 植物园保护国际组织全球植物园基金 (GBGF/2021/011)2018 匹兹堡大学Frank J. Schwartz Early Career Research Fellowship and G. Murray McKinley Research Fund (PLE/2018)2013–2014 史密森热带研究所基金研究组代表成果Tan J†*, Wei N†*, Turcotte MM. 2024. Trophic interactions in microbiomes influence plant host population size and ecosystem function. Proceedings of the Royal Society B: Biological Sciences, 291: 20240612.Ashman TL†*, Wei N†*. 2024. Evaluating the influences of floral traits and pollinator generalism on α and β diversity of heterospecific pollen on stigmas. Functional Ecology, 38: 465-476.Anneberg TJ*, Cullen NP, O'Neill EM, Wei N, Ashman TL*. 2024. Neopolyploidy has variable effects on the diversity and composition of the wild strawberry microbiome. American Journal of Botany, 111: e16287.Wei N*, Tan J*. 2023. Environment and host genetics influence the biogeography of plant microbiome structure. Microbial Ecology, 86: 2858-2868.Guo W†, Wei N†*, Hao GY, Yang SJ, Zhu ZY, Yang YP*, Duan YW*. 2023. Does competitive asymmetry confer polyploid advantage under changing environments? Journal of Ecology, 111: 1327-1339.Wei N*, Whyle RL, Ashman TL, Jamieson MA. 2022. Genotypic variation in floral volatiles influences floral microbiome more strongly than interactions with herbivores and mycorrhizae in strawberries. Horticulture Research, 9: uhab005.Fetters AM*, Cantalupo PG, Wei N, Robles MTS, Stanley A, Stephens JD, Pipas JM, Ashman TL*. 2022. The pollen virome of wild plants and its association with variation in floral traits and land use. Nature Communications, 13: 523.Wei N*, Kaczorowski RL, Arceo-Gómez G, O’Neill EM, Hayes RA, Ashman T-L*. 2021. Pollinators contribute to the maintenance of flowering plant diversity. Nature, 597: 688-692.Wei N*, Russell AL, Jarrett AR, Ashman T-L. 2021. Pollinators mediate floral microbial diversity and microbial network under agrochemical disturbance. Molecular Ecology, 30: 2235-2247.Cullen N, Xia J, Wei N, Kaczorowski R, Arceo-Gomez G, O'Neill E, Hayes R, Ashman TL*. 2021. Diversity and composition of pollen loads carried by pollinators are primarily driven by insect traits, not floral community characteristics. Oecologia, 196: 131-143.Wei N*, Du ZK, Liston A, Ashman T-L*. 2020. Genome duplication effects on functional traits and fitness are genetic context and species dependent: studies of synthetic polyploid Fragaria. American Journal of Botany, 107: 262-272.Liston A*, Wei N, Tennessen JA, Li J, Dong M, Ashman T-L. 2020. Revisiting the origin of octoploid strawberry. Nature Genetics, 52: 2-4.Wei N*, Cronn R, Liston A, Ashman T-L*. 2019. Functional trait divergence and trait plasticity confer polyploid advantage in heterogeneous environments. New Phytologist, 221: 2286-2297.Rebolleda-Gómez M*, Forrester NJ, Russell AL, Wei N, Fetters AM, Stephens JD, Ashman TL*. 2019. Gazing into the anthosphere: considering how microbes influence floral evolution. New Phytologist, 224: 1012-1020.Wei N*, Ashman TL*. 2018. The effects of host species and sexual dimorphism differ among root, leaf and flower microbiomes of wild strawberries in situ. Scientific Reports, 8: 5195.Tennessen JA, Wei N, Straub SCK, Govindarajulu R, Liston A, Ashman TL*. 2018. Repeated translocation of a gene cassette drives sex chromosome turnover in strawberries. PLOS Biology, 16: e2006062.Dillenberger MS, Wei N, Tennessen JA, Ashman TL, Liston A*. 2018. Plastid genomes reveal recurrent formation of allopolyploid Fragaria. American Journal of Botany, 105: 131-143.Wei N, Tennessen JA, Liston A, Ashman T-L*. 2017. Present-day sympatry belies the evolutionary origin of a high-order polyploid. New Phytologist, 216: 279-290.Wei N, Govindarajulu R, Tennessen JA, Liston A, Ashman T-L*. 2017. Genetic mapping and phylogenetic analysis reveal intraspecific variation in sex chromosomes of the Virginian strawberry. Journal of Heredity, 108: 731-739.Wei N*, Bemmels JB, Dick CW. 2014. The effects of read length, quality and quantity on microsatellite discovery and primer development: from Illumina to PacBio. Molecular Ecology Resources, 14: 953-965.