博士,博士生导师
电话:010-58802308
传真:010-58802308
E-mail:zhangqg@bnu.edu.cn
个人主页:Personal homepage: none, but see researchgate page: https://www.researchgate.net/profile/Quan-Guo_Zhang
2001年获北京师范大学生物学理学学士学位,2005年获北京师范大学生态学理学博士学位,2008年获牛津大学生态学哲学博士学位。2009年至今在北京师范大学工作。2012年获得自然科学基金优秀青年项目,2013年入选“万人计划”青年拔尖人才支持计划,2017年获国家杰出青年科学基金。迄今在Ecology Letters、Evolution、Proceedings B等刊物发表论文近20篇。现任或曾任《Biology Letters》、《Journal of Plant Ecology》、《生物多样性》等刊物的编委。
■以模式微生物系统开展进化实验,验证与生物多样性起源及维持相关的进化/生态理论;研究快速变化环境中种群适应性进化发生的规律以及对种群续存的影响,并借鉴进化生态方面的理论研究细菌抗药性进化的控制。
■以淡水浮游微生物群落为对象,研究自然环境中的快速进化过程及其生态影响。
2014-present, Professor, Beijing Normal University
2009-2014, Associate Professor, Beijing Normal University
2005-2008, DPhil, University of Oxford
2001-2005, PhD, Beijing Normal University
1997-2001, BS, Beijing Normal University
I use the experimental evolution approach to study how populations adapt to changing environments, in particular how biotic interactions affect abiotic adaptation. The bacteria Escherichia coli and Pseudomonas fluorescens, and their lytic viruses, are the main systems we work with. The major question to be addressed in our lab in the next several years is the temperature dependence of mutation rate and strength of natural selection, which is crucial for explaining the biodiversity pattern on Earth.
I am also interested in contemporary evolution in natural communities, particularly in freshwater microbes.
1. Zhang Q.-G. & Buckling A. (2012). Phages limit the evolution of bacterial antibiotic resistance in experimental microcosms. Evolutionary Applications, 5, 575-582. (Highlighted by the journal commentary: Refardt D. 2012. Evolutionary Applications, 5, 537-539; and recommended by F1000 Prime: http://f1000.com/prime/718180369)
2. Chu X.-L., Zhang D.-Y., Buckling A. & Zhang Q.-G. (2020). Warmer temperatures enhance beneficial mutation effects. Journal of Evolutionary Biology, 33, 1020-1027.
3. Chen N. & Zhang Q.-G. (2024). Suffering makes you weaker: limited evolutionary adaptation in competitively inferior populations. Ecology Letters. 27, e14457.
4. Zhou D.-H. & Zhang Q.-G. (2024). Warmer is better for evolutionary rescue, driving a warm-to-cold bias in habitat colonization dynamics. Proc. R. Soc. B, 291, 20241605.
5. Liu X. & Zhang Q.-G. (2025). More extinction driven by the Red Queen in smaller habitats. Ecology, 106, e70018.
1. 张全国, 张大勇 (2002) 生物多样性与生态系统功能: 进展与争论. 生物多样性, 10(1): 49-60
2. 张全国,张大勇 (2003) 生物多样性与生态系统功能: 最新的进展与动向. 生物多样性,11 (5): 351-363.
3. 张全国(2014)病毒及其生态功能. 生命科学,26(2):107-111
4. 陈楠,张全国 (2024) 实验进化研究途径. 生物多样性, 32(9): 24171
Brockhurst M.A., Koskella B., Zhang QG. (2017) Bacteria-Phage Antagonistic Coevolution and the Implications for Phage Therapy. In: Harper D., Abedon S., Burrowes B., McConville M. (eds) Bacteriophages. Springer, Cham. https://doi.org/10.1007/978-3-319-40598-8_7-1