褚晓琳        

博士，博士生导师

E-mai: chuxl@bnu.edu.cn 

个人主页：ResearchGate: https://www.researchgate.net/profile/Xiao-Lin-Chu

    依托模式微生物系统，开展实验演化生态学研究，主要关注两个方面问题：温度影响种群演化速率和分化速率的具体机制；对抗性种间关系影响种群遗传多样性性形成和维持的机制。

代表性研究成果：

研究性论文成果：

Chu X.-L., Zhang Q.-G., Buckling A. 2026. To survive in the cold: the evolution of reduced decay rate in a bacteriophage. Evolution. doi: 10.1093/evolut/qpag022.

Chu X.-L. 2025. Enemy dispersal drives the diversity loss of bacterial victim populations at diversity cold spots. Evol. Lett. 9:346–354.

Chu X.-L., Buckling A., and Zhang Q.-G. 2023. Source-sink migration of natural enemies drives maladaptation of victim populations in sink habitats. Evolution 77:1902–1909.

Chu X.-L., Zhang Q.-G., Buckling A., Castledine M. 2021. Interspecific niche competition increases morphological diversity in multi-species microbial communities. Front. Microbiol. 12:699190.

Chu X.-L., Zhang Q.-G. 2021. Consequences of mutation accumulation for growth performance are more likely to be resource‑dependent at higher temperatures. BMC Ecol. Evol. 21:109.

Chu X.-L., Zhang D.-Y., Buckling A., Zhang Q.-G. 2020. Warmer temperatures enhance beneficial mutation effects. J. Evol. Biol. 33:1020–1027.

Chu X.-L., Zhang B.-W., Zhang Q.-G., Zhu B.-R., Lin K., Zhang D.-Y. 2018. Temperature responses of mutation rate and mutational spectrum in an Escherichia coli strain and the correlation with metabolic rate. BMC Evol. Biol. 18:126.

Zhang Q.-G., Chu X.-L., Buckling A. 2021. Overcoming the growth‐infectivity trade‐off in a bacteriophage slows bacterial resistance evolution. Evol. Appl. 14:2055–2063.

综述：

褚晓琳, 张全国. 2025. 演化速率假说的实验验证研究进展. 生物多样性. 33:25019.