致力于解析极端环境微生物组，挖掘微生物新类群、新功能、新基因和新机制，理解微生物适应环境策略的多样性及其演化形成机制，推进微生物资源的开发和利用。

1.Zhao D*, Zhang S, Chen J, Zhao J, An P, Xiang H*. Members of the class Candidatus Ordosarchaeia imply an alternative evolutionary scenario from methanogens to haloarchaea. ISME J. 2024, 18(1): wrad033.

2. Zhao D#*, Zhang S#, Kumar S#, Zhou H, Xue Q, Sun W, Zhou J, Xiang H*. Comparative genomic insights into the evolution of Halobacteria-associated “Candidatus Nanohaloarchaeota”. mSystems. 2022, 7(6):e0066922.

3. Zhou H#, Zhao D#*, Zhang S, Xue Q, Zhang M, Yu H, Zhou J, Li M, Kumar S, Xiang H*. Metagenomic insights into the environmental adaptation and metabolism of Candidatus Haloplasmatales, one archaeal order thriving in saline lakes. Environ Microbiol. 2022, 24(5):2239–2258.

4. Xue Q#, Zhao D#*, Zhang S, Zhou H, Zuo Z, Zhou J, Li M, Xiang H*. Highly integrated adaptive mechanisms in Spiribacter halalkaliphilus, a bacterium abundant in Chinese soda-saline lakes. Environ Microbiol. 2021, 23(11):6463–6482.

5. Zhao D#, Zhang S#, Xue Q, Chen J, Zhou J, Cheng F, Li M, Zhu Y, Yu H, Hu S, Zheng Y, Liu S, Xiang H*. Abundant taxa and favorable pathways in the microbiome of soda-saline lakes in Inner Mongolia. Front Microbiol. 2020, 11:1740.

1、国家自然科学基金面上项目，硫化氢在光依赖的自养型嗜盐古菌中的生物学功能及其分子机制研究，2025/01-2028/12

2、国家自然科学基金青年项目，嗜盐纳米古菌碳代谢和微生物间互作机制的研究，2021/01-2023/12