赵峰，副研究员，硕士生导师。

毕业于中国科学院海洋研究所，获得理学博士学位。2016-2017，德国凯撒斯劳滕工业大学，博士后。主要从事海洋真核微生物群落结构及分子多样性研究。迄今，申请人已发表论文近30篇，其中第一作者发表论文19篇（包括中科院top期刊及JCR一区/二区9篇）。主持国家自然科学基金青年项目、面上项目、973项目子课题、院所及地方的其他项目等多项。目前为Frontier in Marine Science期刊editor board成员，且为Environmental Microbiology, Frontiers in Microbiology, Frontier in Marine Science, Environmental Technology, Journal of Eukaryotic Microbiology, Journal of Oceanology and Limnology 和Acta Oceanologica Sinica等SCI期刊特邀审稿人。

一、研究领域  

海洋生物学；海洋生物多样性；真核微生物

二、招生专业及方向

海洋生物学，海洋生物多样性与进化，生物与医药

三、研究室及联系方式       

海洋生物分类与系统演化实验室，联系方式：fzhao@qdio.ac.cn、15336396326  

四、承担的主要科研项目

[1] 国家自然科学基金、NO. 41976099、热带西北太平洋浮游纤毛虫多样性分布模式及主要控制因子研究、2020.1-2023.12、62万元、在研、主持.

[2] “科学”号高端用户项目、 NO. KEXUE2020G08、西太平洋浮游纤毛虫分子多样性及与其他微型生物关系研究、2021.01-2021.12、20万元、在研、主持。

[3] 中国科学院战略先导专项专题、NO. XDA19060401.4、深海及海山系统多源数据集成与演示、2018.1-2022.12、90万元、在研、主持。

[4] 国家自然科学基金、NO. 41506167、纤毛虫高rDNA拷贝数对其分子多样性评价的影响研究、2016.1-2018.12、21万元、结题、主持。

[5] 973项目子课题、NO. 2015CB755902、超深渊底栖动物群落空间分异机制研究、2015.1-2019.12、97万元、结题、主持。

[6] “科学”号高端用户项目、 NO. KEXUE2018G24、热带西北太平洋浮游纤毛虫多样性分布模式及主要驱动因子研究、2018.8-2019.8、20万元、结题、主持。

五、研究成果及奖励         

近年来，采用eDNA技术，交叉融合水文动力与底质环境等多学科数据，在国际上首次勾勒了近岸到深海真核微生物源汇关系；提出并验证200米层为深层海水的重要物种库。结合大数据分析，解析了水深调控真核微生物分布的机制，提出水深超1000米，真核微生物多样性与水深无显著关系，革新以往认知。基于已有研究结果，成功获批International Research Coordination Network for Biodiversity of Ciliates （IRCN-BC）国际学术组织的奖励资助和国家留学基金委（CSC）公派访学项目等。

六、代表性论文及著作

[1] F. Zhao, S. Filker, C. Wang, K. Xu*. 2021. Bathymetric gradient shapes the community composition rather than the species richness of deep-sea benthic ciliates. Science of the Total Environment, 755, 142623.【IF:7.963; Q1】

[2] F. Zhao#, Y. Wang#, S. Zheng, R. Zhao, M. Lin*, K. Xu*. 2021. Patterns and drivers of microeukaryotic distribution along the North Equatorial Current from the Central Pacific Ocean to the South China Sea. Marine Pollution Bulletin, 165, 112091,【IF:5.553; Q1】

[3] F. Zhao, C. Wang, K. Xu*, P. Huang, T. Zhou. 2020. Diversity and connectivity of microeukaryote communities across multiple habitats from intertidal zone to deep-sea floor in the Western Pacific Ocean. Deep-Sea Research Part I: Oceanographic Research Papers, 165, 103395 【IF:2.955; Q2】

[4] F. Zhao, S. Filker, K. Xu*, P. Huang, S. Zheng. 2020. Microeukaryote communities exhibit phyla-specific distance-decay patterns and an intimate link between seawater and sediment habitats in the Western Pacific Ocean. Deep-Sea Research Part I: Oceanographic Research Papers, 160, 103279. 【IF:2.955; Q2】

[5] F. Zhao, S. Filker, K. Xu*, J. Li, T. Zhou & P. Huang. 2019. Effects of intragenomic polymorphism in the SSU rRNA gene on estimating marine microeukaryotic diversity: a test for ciliates using single-cell high-throughput DNA sequencing. Limnology and Oceanography: Methods, 17:533-543. 【IF:2.634; Q1】

[6] F. Zhao, S. Filker *. 2018. Characterization of protistan plankton diversity in ancient salt evaporation ponds located in a volcanic crater on the island Sal, Cape Verde. Extremophiles, 22:943-956. 

[7] F. Zhao, S. Filker, K. Xu*, P. Huang, S. Zheng. 2017. Patterns and drivers of vertical distribution of the ciliate community from the surface to the abyssopelagic zone in the Western Pacific Ocean. Frontiers in Microbiology, 8: 2559. 【IF 5.640; Q1】

[8] F. Zhao, S. Filker, T. Stoeck, K. Xu*. 2017. Ciliate diversity and distribution patterns in the sediments of a seamount and adjacent abyssal plains in the tropical Western Pacific Ocean. BMC Microbiology, 17:192. 【IF:3.605; Q2】

[9] F. Zhao, K. Xu*. 2017. Distribution of ciliates in intertidal sediments across geographic distances: a molecular view. Protist, 168:171-182.

[10] F. Zhao, K. Xu*. 2016. Molecular diversity and distribution pattern of ciliates in sediments from deep-sea hydrothermal vents in the Okinawa Trough and adjacent sea areas. Deep-Sea Research Part I: Oceanographic Research Papers, 116: 22-32. 【IF:2.955; Q2】

[11] F. Zhao, K. Xu*. 2016. Biodiversity patterns of soil ciliates along salinity gradients. European Journal of Protistology, 53: 1-10. 

[12] F. Zhao, K. Xu*. 2015. Microbial genetic diversity in soils along saline-alkaline gradients on the coast of Laizhou Bay. Protistology, 9: 88-98.

[13] F. Zhao, K. Xu*, D. Zhang. 2013. Spatio-temporal Variations in the Molecular Diversity of Microeukaryotes in Particular Ciliates in Soil of the Yellow River Delta, China. Journal of Eukaryotic Microbiology. 60: 282-290. 

[14] F. Zhao, K. Xu*. 2013. Microbial genetic diversity and ciliate community structure along an environmental gradient in coastal soil. European Journal of Protistology, 49: 516-525. 

[15] F. Zhao, K. Xu*, Y. He, 2012. Application of the Ludox-QPS method for estimating ciliate diversity in soil and comparison with direct count and DNA fingerprinting. European Journal of Soil Biology, 49:112-118. 【IF:2.846; Q2】