个人简介
课题组开展的主要研究工作:
1、水生入侵生物学:主要开展水生入侵生物早期监测与预警、水生入侵生物扩散模式及快速适应环境的生态学过程与机理、主要致灾致害生物防控原理及应急处置技术等研究。
2、水体污染生态学:主要开展水体污染驱动生物群落时空演替的生态学过程与机制、典型水生生物响应环境污染的分子机理、生物-环境互作的高通量分析方法等研究。
研究领域
围绕着生物与环境互作这一生态学和进化生物学领域重要的科学问题,利用多学科手段在群落、群体及个体水平上开展水生生物对环境变化的适应性进化研究。
近期论文
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1. Z. Zhang, C. Capinha, D.N. Karger, X. Turon, H.J. MacIsaac, A. Zhan*. Impacts of climate change on geographical distributions of invasive ascidians. Marine Environmental Research, 2020, 159: 104993.
2. Y. Lin, A. Zhan*, M.R. Hernandez, E. Paolucci, H.J. MacIsaac, E. Briski. Can chlorination of ballast water reduce biological invasions? Journal of Applied Ecology, 2020, 57: 331-343.
3. S. Li, Y. Chen, Y. Gao, Z. Xia, A. Zhan*. Chemical oxidants affect byssus adhesion in the highly invasive fouling mussel Limnoperna fortunei. Science of the Total Environment, 2019, 646: 1367-1375.
4. Y. Chen, N. Shenkar, P. Ni, Y. Lin, S. Li, A. Zhan*. Rapid microevolution during recent range expansion to harsh environments. BMC Evolutionary Biology, 2018, 18:187.
5. X. Huang, S. Li, P. Ni, Y. Gao, B. Jiang, Z. Zhou, A. Zhan*. Rapid response to changing environments during biological invasions: DNA methylation perspectives. Molecular Ecology, 2017, 26: 6621 - 6633.
6. A. Zhan*, H.J. MacIsaac, M.E. Cristescu. Invasion genetics of the Ciona intestinalis species complex: from regional endemism to global homogeneity. Molecular Ecology, 2010, 19: 4678-4694.
Molecular Pollution Ecology
1. Y. Yang, Y. Gao, X. Huang, P. Ni, Y. Wu, Y. Deng, A. Zhan*. Adaptive shifts of microbial communities and reduced microbial interactions along a nitrogen gradient in highly polluted running water ecosystems. Environmental Pollution, 2019, 245: 290-299.
2. Y. Yang, S. Li, Y. Gao, Y. Chen, A. Zhan*. Environment-driven geographical distribution of bacterial communities and identification of indicator taxa in Songhua River. Ecological Indicators, 2019, 101: 62-70.
3. W. Xiong, P. Ni, Y. Chen, Y. Gao, S. Li, A. Zhan*. Biological consequences of environmental pollution in running water ecosystems: a case study in zooplankton. Environmental Pollution, 2019, 252: 1483-1490.
4. Y. Yang, Y. Gao, Y. Chen, S. Li, A. Zhan*. Interactome-based abiotic and biotic impacts on biodiversity of plankton communities in disturbed wetlands. Diversity and Distributions, 2019, 25: 1416-1428.
5. W. Xiong, P. Ni, Y. Chen, Y. Gao, B. Shan, A. Zhan*. Zooplankton community structure along a pollution gradient at fine geographical scales in river ecosystems: the importance of species sorting over dispersal. Molecular Ecology, 2017, 26: 4351-4360.
Method development and validation
1. W. Xiong, A. Zhan*. Testing clustering strategies for metabarcoding-based investigation of community-environment interactions. Molecular Ecology Resources, 2018, 18: 1326-1338.
2. W. Xiong, Y. Yang, A. Zhan*. Reliability of simplifying strategies for rapid biodiversity assessment in studying community-environment interactions. Ecological Indicators, 2018, 85: 861-868.
3. A. Zhan*, S.A. Bailey, D.D. Heath, H.J. MacIsaac. Performance comparison of genetic markers for high-throughput sequencing-based biodiversity assessment in complex communities. Molecular Ecology Resources, 2014, 14: 1049-1059.
4. A. Zhan*, S. He, E.A. Brown, F.J.J. Chain, T.W. Therriault, C.L. Abbott, D.D. Heath, M.E. Cristescu, H.J. MacIsaac. Reproducibility of pyrosequencing data for biodiversity assessment in complex communities. Methods in Ecology and Evolution, 2014, 5: 881-890.
5. A. Zhan*, M. Hulák, F. Sylvester, X. Huang, A.A. Adebayo, C.L. Abbott, S.J. Adamowicz, D.D. Heath, M.E. Cristescu, H.J. MacIsaac. High sensitivity of 454 pyrosequencing for detection of rare species in aquatic communities. Methods in Ecology and Evolution, 2013, 4: 558 - 565. (Editor’s pick article)
学术兼职
分子与进化生态学研究组组长,中科院环境生物技术重点实验室副主任,中国科学院大学资源与环境学院教授;兼任加拿大温莎大学客座教授,中国进出入境生物安全研究会常务理事,中国生态学会微生物生态专业委员会委员;Diversity and Distributions主编(3位主编之一),Biological Invasions、Marine Biology等5本国际期刊Associate Editor