近5年代表性研究成果：

[1] Chen Yuying, Liu Yongqin* (* Corresponding author), Ji Mukan, Zhang Zhihao, Xing Tingting, Pan Hongan, Liu Keshao, Li Yueang, Liu Pengfei, Metabolic diversity and adaptation of carbon-fixing microorganisms in extreme glacial cryoconite, ISME Communications, 2025, ycaf056.

[2] Guo Bixi, Liu Yongqin*, Liu Pengfei, Cai Ruanhong, Zheng Qiang, Shi Quan, He Chen (2025). Glacial snow and ice Contribute Differentially to the dissolved organic matter in the runoff of Qiangyong Glacier, Tibetan Plateau. Journal of Hydrology, 2025, 652: 132600.

[3] Zhu Xinshu, Deng Yongcui*, Liu Yongqin*. Methylocystis dominates methane oxidation in glacier foreland soil at elevated temperature [J]. Fems Microbiology Letters, 2024, 371.

[4] Guo Bixi, Liu Yongqin*, Zhong Xu, Shi Quan, He Chen, Zheng Qiang, Cai Ruanhong. Potential transformation of organic matter by microbes in cryoconite, Tibetan Plateau. Science China Earth Sciences, 2024, 67(6): 1978-1989.

[5] Xing Tingting, Liu Yongqin*, Dong Xiuzhu, Ji Mukan, Deng Yongcui, Liu Pengfei. Glacier melting promotes methane emission via increased methanogenic activity in the foreland alpine meadow. Science of The Total Environment, 2024, 955: 176947.

[6] Xing Tingting, Liu Keshao, Ji Mukan, Chen Yuying, Liu Yongqin*. Bacterial diversity in a continuum from supraglacial habitats to a proglacial lake on the Tibetan Plateau. FEMS Microbiology Letters, 2024, 371: fnae021.

[7] Zhang Zhihao†, Qi Jing†, Liu Yongqin*, Ji Mukan, Wang Wenqiang, Wu Wenjie, Liu Keshao, Huang Zhongwei. Anthropogenic impact on airborne bacteria of the Tibetan Plateau. Environment International, 2024, 183.

[8] Zhang Zhihao, Liu Yongqin*, Liu Keshao, Chen Yuying, Guo Xuezi, Ji Mukan, Zhao Weishu. Supraglacial and subglacial ecosystems contribute differently towards proglacial ecosystem communities in Kuoqionggangri Glacier, Tibetan Plateau. Communications Earth & Environment, 2024, 5(1).

[9] Zhang Si-Yu, Yan Qi, Zhao Jindong, Liu Yongqin*, Yao Meng*. Distinct multitrophic biodiversity composition and community organization in a freshwater lake and a hypersaline lake on the Tibetan Plateau. Iscience, 2024, 27(6).

[10] Zang Lin, Liu Yongqin*, Jiao Nianzhi, Zhong Kevin Xu, Song Xuanying, Yang Yunlan, Cai Lanlan, Liu Keshao, Mao Guannan, Ji Mukan, Zhang Rui*. Salinity as a key factor affecting viral activity and life strategies in alpine lakes [J]. Limnology and Oceanography, 2024, 69(4): 961-975.

[11] Xu Hu, Xu Dawei*, Liu Yongqin*. Molecular Biology Applications of Psychrophilic Enzymes: Adaptations, Advantages, Expression, and Prospective. Applied Biochemistry and Biotechnology, 2024, 196(9): 5765-5789.

[12] Xu Hu, Ji Mukan, Xu Dawei*, Liu Yongqin*. Computer-aided mining of a psychrophilic cellobiose 2-epimerase from the Qinghai-Tibet Plateau gene catalogue. International Journal of Biological Macromolecules, 2024, 277.

[13] Xing Tingting, Liu Yongqin*, Dong Xiuzhu, Ji Mukan, Deng Yongcui, Liu Pengfei. Glacier melting promotes methane emission via increased methanogenic activity in the foreland alpine meadow. Science of the total environment, 2024, 955: 176947-176947.

[14] Sonam Wangchen, Liu Yongqin*. Plant compartment niche is more important in structuring the fungal community associated with alpine herbs in the subnival belt of the Qiangyong glacier than plant species. Symbiosis, 2024, 92(2): 289-304.

[15] Shen Liang, Liu Yongqin*, Chen Liangzhong, Lei Tingting, Ren Ping, Ji Mukan, Song Weizhi, Lin Hao, Su Wei, Wang Sheng, Rooman Marianne*, Pucci Fabrizio*. Genomic basis of environmental adaptation in the widespread poly-extremophilic Exiguobacterium group. Isme Journal, 2024, 18(1).

[16] Lyu Xianfu†, Cui Wanzhe†, Ji Mukan, Wang Wenqiang, Zhang Zhihao, Liu Yongqin*. The distribution and drivers of microbial pigments in the cryoconite of four Tibetan glaciers. Environmental Microbiology, 2024, 26(1).

[17] Liu Yongqin*, Jiao Nianzhi, Ji Mukan, Liu Keshao, Xu Baiqing, Guo Bixi, Yao Tandong. Human activity over natural inputs determines the bacterial community in an ice core from the Muztag ata glacier. Science China-Earth Sciences, 2024, 67(5): 1489-1499.

[18] Liu Yang†, Ji Mukan†, Li Saifei, Ao Deng, An Shaoshan, Liang Chao, Liu Yongqin*. Distinct contributions of microbial and plant residues to SOC during ecosystem primary succession in a Tibetan glacier foreland. Applied Soil Ecology, 2024, 203.

[19] Liu Keshao†, Yan Qi†, Guo Xuezi, Wang Wenqiang, Zhang Zhihao, Ji Mukan, Wang Feng, Liu Yongqin*. Glacier Retreat Induces Contrasting Shifts in Bacterial Biodiversity Patterns in Glacial Lake Water and Sediment [J]. Microbial Ecology, 2024, 87(1).

[20] Liu Keshao, Liu Yongqin*, Yan Qi, Guo Xuezi, Wang Wenqiang, Zhang Zhihao, Hu Anyi, Xiao Xiong, Ji Mukan, Liu Pengfei. Temperature-driven shifts in bacterioplankton biodiversity: Implications for cold-preferred species in warming Tibetan proglacial lakes. Water Research, 2024, 265.

[21] Liao Xin, Hou Liyuan, Zhang Lanping, Grossart Hans-Peter, Liu Keshao, Liu Junzhi, Chen Yuying, Liu Yongqin*, Hu Anyi*. Distinct influences of altitude on microbiome and antibiotic resistome assembly in a glacial river ecosystem of Mount Everest. Journal of Hazardous Materials, 2024, 479.

[22] Liu Keshao, Liu Yongqin*. Glacial lakes under climate change: the imperative for comparative studies of microbial carbon metabolism in the Qinghai-Xizang Plateau and the Arctic. Advances in Polar Science, 2024, 35(3): 324-326.

[23] Zhang Zhihao, Liu Yongqin*, Zhao Weishu, Ji Mukan. Radiation impacts gene redundancy and biofilm regulation of cryoconite microbiomes in Northern Hemisphere glaciers. Microbiome, 2023, 11(1).

[24] Wang Wenqiang, Liu Yongqin*, Liu Keshao, Yan Qi, Ji Mukang, Wang Feng, Zhang Zhihao. Bacterial Communities in Cryoconite Holes of the Adjacent Glaciers on the Tibetan Plateau. Geomicrobiology Journal, 2023, 40(7): 632-639.

[25] Sonam Wangchen, Liu Yongqin*, Guo Liangdong. Endophytic bacteria in the periglacial plant Potentilla fruticosa var. albicans are influenced by habitat type. Ecological Processes, 2023, 12(1).

[26] Qi Xiaoyan†, Ji Mukan†, Yin Chao-Fan, Zhou Ning-Yi*, Liu Yongqin*. Glacier as a source of novel polyethylene terephthalate hydrolases [J]. Environmental Microbiology, 2023, 25(12): 2822-2833.

[27] Mao Guannan, Ji Mukan, Jiao Nianzhi, Su Jianqiang, Zhang Zhihao, Liu Keshao, Chen Yuying, Liu Yongqin*. Monsoon affects the distribution of antibiotic resistome in Tibetan glaciers. Environmental Pollution, 2023, 317.

[28] Liu Yongqin*, Jiao Nianzhi, Zhong Kevin Xu, Zang Lin, Zhang Rui, Xiao Xiang, Shi Yi, Zhang Zhihao, Tao Ye, Bai Liping, Gao Bianli, Yang Yunlan, Huang Xingyu, Ji Mukan, Liu Junzhi, Liu Pengfei*, Yao Tandong. Diversity and function of mountain and polar supraglacial DNA viruses. Science Bulletin, 2023, 68(20): 2418-2433.

[29] Liu Yongqin, Fang Pengcheng, Guo Bixi, Ji Mukan, Liu Pengfei, Mao Guannan, Xu Baiqing, Kang Shichang, Liu Junzhi*. A comprehensive dataset of microbial abundance, dissolved organic carbon, and nitrogen in Tibetan Plateau glaciers. Earth System Science Data, 2022, 14(5): 2303-2314.

[30] Wang Feng, Qu Dongmei, Li Yueang, Fang Yunting, Ji Mukan, Liu Keshao, Zhang Zhihao, Wang Wenqiang, Liu Yongqin*. High proportional nitrification-derived nitrate in glacier runoffs on the Tibetan Plateau indicated by triple oxygen isotopes of nitrate. Journal of Hydrology, 2022, 614.

[31] Mao Guannan, Ji Mukan, Xu Baiqing, Liu Yongqin*, Jiao Nianzhi. Variation of High and Low Nucleic Acid-Content Bacteria in Tibetan Ice Cores and Their Relationship to Black Carbon. Frontiers in Microbiology, 2022, 13.

[32] Liu Yongqin*, Ji Mukan, Yu Tao, Julian Zaugg, Alexandre M. Anesio, Zhang Zhihao, Hu Songnian, Philip Hugenholtz, Liu Keshao, Liu Pengfei, Chen Yuying, Luo Yingfeng* and Yao Tandong. A genome and gene catalog of glacier microbiomes. Nature Biotechnology, 2022: 1-8.

[33] Liu Yongqin, Fang Pengcheng, Guo Bixi, Ji Mukan, Liu Pengfei, Mao Guannan, Xu Baiqing, Kang Shichang and Liu junzhi*. A comprehensive dataset of microbial abundance, dissolved organic carbon, and nitrogen in Tibetan Plateau glaciers. Earth System Science Data, 2022, 14(5): 2303-2314.

[34] Chen Yuying, Liu Yongqin*, Liu Keshao, Ji Mukan and Li Yang. Snowstorm Enhanced the Deterministic Processes of the Microbial Community in Cryoconite at Laohugou Glacier, Tibetan Plateau. Frontiers in microbiology, 2022: 4357.

[35] Guo Bixi, Liu Yongqin*, Liu Keshao, Shi Quan, He Chen, Cai Ruanhong and Jiao Nianzhi. Different dissolved organic matter composition between central and southern glaciers on the Tibetan Plateau. Ecological Indicators, 2022, 139: 108888.

[36] Liu Keshao, Liu Yongqin*, Hu Anyi, Wang Feng, Zhang Zhihao, Yan Qi, Ji Mukan and Trista J. Vick-Majors. Fate of glacier surface snow‐originating bacteria in the glacier‐fed hydrologic continuums. Environmental microbiology, 2021, 23(11): 6450-6462.

[37] Qi Jing, Ji Mukan, Wang Wenqiang, Zhang Zhihao, Liu Keshao, Huang Zhongwei, Liu Yongqin*. Effect of Indian monsoon on the glacial airborne bacteria over the Tibetan Plateau. Science of The Total Environment, 2022, 831: 154980.

[38] Liu, Keshao, Liu, Yongqin*, Hu, Anyi, Wang, Feng, Liang, Jie, Zhang, Zhihao, Anslan,Sten, Ji, Mukan, Hou, Juzhi. Temporal variability of microbial communities during the past 600 years in a Tibetan lake sediment core. Palaeogeography, Palaeoclimatology, Palaeoecology, 584 (2021), 110678.

[39] Keshao Liu, Tandong Yao, David A. Pearce, Nianzhi Jiao, Yonghui Zeng, Bixi Guo, Yongqin Liu*. Bacteria in the lakes of the Tibetan Plateau and polar regions. Science of the Total Environment, 754 (2021): 142248.

[40] Zang, Lin, Liu, Yongqin*, Song, Xuanying, Cai, Lanlan, Liu, Keshao, Luo, Tingwei, Zhang, Rui*. Unique T4-like phages in high-altitude lakes above 4500 m on the Tibetan Plateau. Science of The Total Environment, 801(2021), 149649.