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◆ 潘虹伯,刘海平*,郭明雄*. 肠道微生物视域下西藏土著鱼类资源养护启示[J]. 渔业研究, 2023, 已录用.

◆ Sen Yuan#, Jiaqi Xu#, Min Wang#, Junsong Huang, Shuangshuang Ma, Yang Liu, Yujia Ke, Xianhuang Zeng, Kangwei Wu, Jingwen Wang, Xuezhang Tian, Dandan Zheng, Tanzeel Yousaf, Wajeeha Naz, Junwei Sun, Lang Chen, Deyin Guo, Mingxiong Guo*, Guihong Sun*. HBV X protein induces degradation of UBXN7, a novel negative regulator of NF-κB signaling, to promote HBV replication. Cellular and Molecular Gastroenterology and Hepatology, 2023, 15(1): 179-195.

◆ Yang Liu#, Jingwen Wang#, Jianwen Chen#, Shaoshuai Wu#, Xianhuang Zeng, Qiushuang Xiong, Yandan Guo, Junwei Sun, Feifei Song, Zhepeng Liu, Fengxing Huang, Jiaqi Xu, Sen Yuan, Chuang Li, Shuting Guo, Ming Wang, Kun Li, Lang Chen, Yun-Bo Shi, Mingxiong Guo*, Deyin Guo*, Guihong Sun*. Upregulation of miR-520c-3p by HBV Enhances Tumor Cell Migration and Invasion by Activating NF-κB Signaling via PTEN-AKT Pathway. Molecular Therapy-Nucleic Acids, 2022, 29, 47-63.

◆ Chuang Li, Wei Wang, Yuting Sun, Yifan Ni, Fang Qin, Xiaolu Li, Tao Wang, Mingxiong Guo*, Guihong Sun*. Selective sorting and secretion of hY4 RNA fragments into extracellular vesicles mediated by methylated YBX1 to promote lung cancer progression. Journal of Experimental & Clinical Cancer Research, 2022, 41, 136.

◆ Chuang Li#, Fang Qin#, Wei Wang, Yifan Ni, Mingyu Gao, Mingxiong Guo*, and Guihong Sun*. hnRNPA2B1-mediated extracellular vesicles sorting of miR-122-5p potentially promotes lung cancer progression. International Journal of Molecular Sciences, 2021, 22(23), 12866.

◆ Yi Liu, Wei Yin, Jingwen Wang, Yucong Lei, Guihong Sun, Wenxin Li, Zan Huang*, Mingxiong Guo*. KRAB-zinc finger protein ZNF268a deficiency attenuates the virus-induced pro-inflammatory response by preventing IKK complex assembly. Cells-Basel, 2019, 8, 1604.

◆ Chuang Li, Fang Qin, Mengmeng Xue, Yucong Lei, Fen Hu, Hui Xu, Guihong Sun, Tao Wang*, Mingxiong Guo*. miR-429/-424-5p inhibit cell proliferation and Ca2+ influx by targeting CASR in pulmonary artery smooth muscle cells. American Journal of Physiology-Cell Physiology, 2019, 316(1): C111-C120.

◆ 郭明雄*, 龙燕, 谢志雄. 生物类专业免疫学实验课综合性改革及其虚拟仿真系统应用探索[J]. 高校生物学教学研究(电子版), 2018, 8(4): 3-6.

◆ Chuang Li#, Fang Qin#, Fen Hu, Hui Xu, Guihong Sun, Guang Han, Tao Wang*, Mingxiong Guo*. Characterization and selective incorporation of small non-coding RNAs in non-small cell lung cancer extracellular vesicles. Cell & Bioscience, 2018, 8: 2.

◆ Mingyang He, Weiwei Zhou, Chuang Li, Mingxiong Guo*. MicroRNAs, DNA Damage Response, and Cancer Treatment. International Journal of Molecular Sciences, 2016, 17(12): 2087.

◆ Mingyang He, Yi Lin, Yunlan Tang, Yi Liu, Weiwei Zhou, Chuang Li, Guihong Sun*, Mingxiong Guo*. miR-638 suppresses DNA damage repair by targeting SMC1A expression in terminally differentiated cells. Aging-US, 2016, 8(7): 1442-1456.

◆ Zhirong Bao#, Mingyang He#, Hong Quan*, Dazhen Jiang, Yanhong Zheng, Wenjing Qin, Yunfeng Zhou, Feng Ren, Mingxiong Guo* and Changzhong Jiang*. FePt nanoparticles: a novel nanoprobe for enhanced HeLa cells sensitivity to chemoradiotherapy. RSC advances, 2016, 6, 35124-34.

◆ Yunlan Tang, Yi Lin, Chuang Li, Xunwu Hu, Yi Liu, Mingyang He, Jun Luo, Guihong Sun, Tao Wang, Wenxin Li, Mingxiong Guo*. MicroRNA-720 promotes in vitro cell migration by targeting Rab35 expression in cervical cancer cells. Cell & Bioscience, 2015, 5: 56.

◆ Yi Lin, Dengju Li, Qing Liang, Shangqing Liu, Xuelan Zuo, Lin Li, Xuemei Sun, Wenxin Li, Mingxiong Guo*, Zan Huang*. miR-638 regulates differentiation and proliferation in leukemic cells by targeting cyclin-dependent kinase 2. Journal of Biological Chemistry (JBC), 2015, 290(3): 1818-1828.

◆ Wei Wang, Jinyang Cai, Yi Lin, Zikou Liu, Qihao Ren, Li Hu, Zan Huang, Mingxiong Guo*, and Wenxin Li*. Zinc Fingers Function Cooperatively with KRAB Domain for Nuclear Localization of KRAB-containing Zinc Finger Proteins. PLoS One, 2014, 9(3): e92155.

◆ Yi Lin, Yan Zeng, Fan Zhang, Lu Xue, Zan Huang, Wenxin Li*, Mingxiong Guo*. Characterization of MicroRNA Expression Profiles and the Discovery of Novel MicroRNAs Involved in Cancer during Human Embryonic Development. PLoS One, 2013, 8(8): e69230.

◆ Wei Wang, Jinyang Cai, Yingliang Wu, Jun Hu, Zongyun Chen, Wenxin Li, Mingxiong Guo*, Zan Huang*. Novel activity of KRAB domain that functions to reinforce nuclear localization of KRAB‑containing zinc finger proteins by interacting with KAP1. CMLS-Cellular and Molecular Life Sciences, 2013, 70(20): 3947-3958.

◆ Li Hu#, Wei Wang#, Jinyang Cai, Jun Luo, Yi Huang, Shilu Xiong, Wenxin Li, Mingxiong Guo*. Aberrant expression of ZNF268 alters the growth and migration of ovarian cancer cells. Oncology letters, 2013, 6: 49-54.

◆ Wei Wang#, Mingxiong Guo#, Li Hu, Jinyang Cai, Yan Zeng, Jun Luo, Zhiqiang Shu, Wenxin Li, Zan Huang. The Zinc Finger Protein ZNF268 is Overexpressed in Human Cervical Cancer and Contributes to Tumorigenesis via Enhancing NF-κB Signaling. Journal of Biological Chemistry (JBC), 2012, 287(51): 42856-66.

◆ Yan Zeng, Wei Wang, Jian Ma, Xianguo Wang, Mingxiong Guo*, Wenxin Li*. Knockdown of ZNF268, Which Is Transcriptionally Downregulated by GATA-1, Promotes Proliferation of K562 Cells. PLoS One, 2012, 7(1): e29518.

◆ Hong Yi#, Lu Xue#, Ming-Xiong Guo#, Jian Ma, Yan Zeng, Wei Wang, Jin-Yang Cai, Hai-Ming Hu, Hong-Bing Shu, Yun-Bo Shi, Wen-Xin Li. Gene Expression Atlas for Human Embryogenesis. FASEB Journal, 2010, 24(9): 3341-50.

◆ Zhouzhou Zhao, Di Wang, Chengang Zhu, Huanjie Shao, Chong Sun, Hongling Qiu, Lu Xue, Junhua Xu, Mingxiong Guo*, Wenxin Li*. Aberrant alternative splicing of human zinc finger gene ZNF268 in human hematological malignancy. Oncology Reports, 2008, 20(5): 1243-8.

◆ Di Wang#, Ming-Xiong Guo#, Zhou-Zhou Zhao, Hong-Ling Qiu, Hai-Ming Hu, Huan-Jie Shao, Chen-Gang Zhu, Lu Xue, Yun-Bo Shi and Wen-Xin Li. Human T-cell leukemiavirus type 1 oncoprotein tax represses ZNF268 expression through the cAMP-responsive Element-binding Protein/Activating Transcription Factor pathway. Journal of Biological Chemistry (JBC), 2008, 283(24): 16299-308.

◆ Mingxiong Guo, Tao Huang, Yejian Cui, Baiqun Pan, Ao Shen, Yuting Sun, Yourong Yi, Yan Wang, Gengfu Xiao, Guihong Sun. PrPC interacts with tetraspanin-7 through bovine PrP154-182 containing alpha-helix 1. Biochemical and Biophysical Research Communications (BBRC), 2008, 365(1): 154-7.

◆ Ming-Xiong Guo#, Di Wang#, Huan-Jie Shao, Hong-Ling Qiu, Lu Xue, Zhou-Zhou Zhao, Chen-Gang Zhu, Yun-Bo Shi, and Wen-Xin Li. Transcription of Human Zinc Finger ZNF268 Gene Requires an Intragenic Promoter Element. Journal of Biological Chemistry (JBC), 2006, 281(34): 24623-36.

◆ 郭明雄, 孙桂鸿, 吴显辉, 冯胜彦, 陈蔚梅, 艾建宇, 熊晓然, 吴斌. 从生物大分子结构特征解析植物凝集素的多样性. 武汉植物学研究, 2003, 21(2): 155-64.

◆ 郭明雄, 孙桂鸿, 张文仁, 白惠卿, 冯胜彦, 陈蔚梅. 柴胡提取物对小鼠的体外免疫效应. 氨基酸和生物资源, 2002, 24(4): 59-62."

◆ 在 Cancer letters, Jorunal of Chromatography A, Food Chemistry等国内外期刊上发表SCI论文70余篇。 URL: https://publons.com/researcher/1206842/shihua-wu/ https://person.zju.edu.cn/en/ccc.

◆ 《测绘科学》刊物上发表了题为《3D GIS中空间对象的存储与快速查询》

◆ 《计算机工程与科学》刊物上发表了题为《基于ASP.NET AJAX的WebGIS三维应用研究》

◆ 西藏科技上发表了《核密度估计法在西藏人口空间分布研究中的应用》和《在MapInfo环境下设计与实现西藏大学校园GIS》

◆ Zhao Hao, Yanhong Wang, Xiaofang Guo* and Ji De*.Deciphering the core seed endo-bacteriome of the highland barley in Tibet plateau.Frontiers in Plant Science.2022.

◆ 薛文凯 , 孟华旦尚, 王艳红, 朱攀, 德吉, 郭小芳*.纳木措可培养丝状真菌多样性及其与理化因子关系.生物多样性, 2022, 30 (6): 1-13.

◆ 薛文凯,朱攀,德吉,郭小芳*.纳木措水体可培养丝状真菌优势种的时空特征研究.生态环境学报,2022, 31(12): 2331-2340.

◆ 王艳红,郝兆,郭小芳*, 德吉*. 纳木错夏季酵母菌多样性及其影响因素.中国环境科学, 2021,41(11): 5361-5371.

◆ 郝兆,王艳红,郑艳艳,郭小芳*,德吉* .羊卓雍措水体可培养酵母菌多样性及其与理化因子相关性. 微生物学报, 2021, 61(05): 1269-1286

◆ 郝兆,王艳红, 德 吉, 郭小芳*. 羊卓雍错不同湖区水体真菌群落结构及其多样性. 生态学报, 2021, 41(20): 8282-8296.

◆ 郝兆,德 吉,王艳红,郑艳艳,郭小芳*.围栏封育对亏组山不同海拔土壤酵母菌多样性的影响. 中国草地学报, 2021,43(12):55-65.

◆ 赵志治#, 慧琴#, 德吉, 卢燕*. 西藏扁芒菊的抗补体活性成分研究. 药学研究, 2021, 40(1): 1-5, 15.

◆ 卫波宁,常子惠,张永娟,王素娟,德 吉∗ .雅鲁藏布江三大支流流域小花水柏枝种群结构及动态特征. 生态学报, 2022,42(24) :1-13 2022年7月28日

◆ 常子惠,何文佳 #,多杰仁青,崔小梅,卫波宁,德吉*.基于网络药理学和分子对接探讨藏麻黄挥发性成分对支气管炎的作用机制. 天然产物研究与开发, 2022,34(1), 1-16. 2022年1月

◆ 赵志治#, 慧琴#, 德吉, 卢燕*. 西藏扁芒菊的抗补体活性成分研究. 药学研究, 2021, 40(1): 1-5, 15

◆ 崔小梅, 德吉. 亚菊属植物挥发油的化学成分及其生物活性研究进展[J]. 西北药学杂志, 2021, 36(1):4.

◆ Yi-Ting Yang& De-ji,Ze-Long Fu, Xie-Li Wang, Dao-Feng Chen, Hui Xie*, YanLu*. Molecular Identification Based on Chloroplast Sequences and Anti-complementary Activity Comparison of Juniperus Samples from the Qinghai-Tibet-Plateau[J].Planta Med,2020,5,31. (202007);.

◆ Long Xia, Deji, Mengxia Zhu, Daofeng Chen*, Yan Lu*. Juniperus pingii var. wilsonii acidic polysaccharide: extraction, characterization and anticomplement activity. Carbohydrate Polymers, 2020, 231:115728

◆ 何文佳,德吉*,才让南加,多杰仁青.藏药麻黄中麻黄碱含量测定及物种分类上的应用[J].高原科学研究,2019,3(04):78-84. (201912)

◆ 张姣 ,德吉,付爱玲,陈道峰 ,卢燕*. 密枝圆柏的化学成分及其抗补体、抗氧化活性. 中草药.2019, 50 (13):3008-3016

◆ 张姣#, 德吉#, 朱孟夏, 卢燕*, 付爱玲*, 陈道峰. 刺柏属6种植物枝叶和果实中挥发性成分分析. 中成药, 2019, 41(5):1172-1176.

◆ Zhang,T., Qiao, Q. , Novikova P Y. , Wang Q., Yue J. , Guan Y., Ming,Sh., Liu,T., De,Ji., Liu,Y., Al-Shehbaz, I, Sun H. , Montagu,Marc Van., Huang J., Peer,Y V., and La Q*.Genome of Crucihimalaya himalaica, a close relative of Arabidopsis, shows ecological adaptation to high altitude[J]. Proceedings of the National Academy of Sciences(PNAS), 2019: 201817580. (201902) 第九作者

◆ Zelong Fu#, Long Xia#, Ji De, Mengxia Zhu, Yan Lu*, Daofeng Chen*. Beneficial effects on H1N1-induced acute lung injury and structure characterization of anti-complementary acidic polysaccharides from Juniperus pingii var. wilsonii. International Journal of Biological Macromolecules, 2019, 129: 246-253.

◆ Beibei Li, Mengxue Dong, Ji De, Li Ye, Daofeng Chen, Yan Lu*. Structural characterization and anti-proliferation activities against tumor cells of an arabinogalactan from Juniperus convallium. Molecules, 2019, 24: 1850.

◆ Li, B., Xia, L., Deji, Zhu, M., Lu, Y., & Chen, D. (2019). Structural analysis and anticomplement activity of a novel homogenous polysaccharide isolated from Juniperus tibetica kom. Journal of Carbohydrate Chemistry, 38(9), 552-565.

◆ Zhu, M., Ling, L., De, J., Lu, Y., & Chen, D. (2018). Volatile Composition of Juniperus pingii var. wilsonii and Its Inhibitory Effect on Nitric Oxide Production of Macrophage Cells. Journal of Essential Oil Bearing Plants, 21(4), 848-858. (201808)

◆ De, J., Zhu, W., Liu, T., Wang, Z., & Zhong, Y. (2017). Development of microsatellite markers using Illumina MiSeq sequencing to characterize Ephedra gerardiana (Ephedraceae). Applications in Plant Sciences, 5(3), 1600104 (201705)

◆ De, J., Lu, Y., Ling, L., Peng, N., & Zhong, Y. (2017). Essential Oil Composition and Bioactivities of Waldheimia glabra (Asteraceae) from Qinghai-Tibet Plateau. Molecules, 22(3), 460. (201703)

◆ 高慧琴&德吉, 凌丽君, 张庆琳, 卢燕, & 陈道峰. (2016). 西藏扁芒菊总多糖的理化性质及免疫增强活性. 天然产物研究与开发, 28(8), 1309-1312.

◆ Wang N. Management of Protected Areas in China. Beijing: China Environmental Science Press, 2022."

◆ Peng Zhou,Dan Zeng,Xutong Wang,Lingyu Tai,Wenwu Zhou,Qiongda Zhuoma,Fawei Lin. Pollution Levels and Risk Assessment of Heavy Metals in the Soil of a Landfill Site: A Case Study in Lhasa, Tibet. International Journal of Environmental Research and Public Health.2022, 19 (17): 10704.

◆ Peng ZHOU,Meiling REN,Wenwu ZHOU, Danzeng, Qiongdazhuoma, Yang LI.Health Risk Assessment of Groundwater in Shigatse Landfill Site of Tibet[J].Asian Agricultural Research,2022,14(08):21-27.

◆ Peng ZHOU,Meiling REN,Wenwu ZHOU,Xiaohan ZHANG,Yang LI,Feng HE.Analysis of Spatial and Temporal Distribution Characteristics of Air Pollutants in Tibet[J].Meteorological and Environmental Research,2022,13(04):7-13.

◆ 周鹏,阿琼,穷达卓玛,汪晶,李扬,周文武,旦增.西藏生活垃圾填埋场周边地表水环境质量调查评价[J].环境监测管理与技术,2020,32(05):33-37..

◆ 周鹏,穷达卓玛,汪晶,李扬,周文武,旦增.西藏日喀则市生活垃圾填埋场地下水污染风险评价研究[J].环境保护科学,2019,45(06):114-118.

◆ 周鹏,周文武,穷达卓玛,汪晶,李扬,旦增.西藏日喀则市垃圾填埋场甲烷产量预测及资源化利用研究[J].再生资源与循环经济,2019,12(10):28-31.

◆ 周鹏,穷达卓玛,李扬,周文武,汪晶,旦增.拉萨市瓶巴日吾垃圾简易堆放场地下水环境质量评价研究[J].高原科学研究,2019,3(01):71-78."

◆ Jian Xiong,Xuebin Lu, Wei Li, Shijie Yang, Rui Zhang, Xiaoyun Li, Jinfeng Han,Dan Li, and Zhihao Yu. One-Pot Tandem Transformation of Inulin as Fructose-Rich Platform Towards 5-Hydroxymethylfurfural: Feedstock Advantages, Acid-Site Regulation and Solvent Effects. ChemSusChem, 2022, online. doi.org/10.1002/cssc.202201936.

◆ Linhao Sun, Xuebin Lu, Yudan Xue, Xiaotong Wang, Zhihao Yu, Xinyuan Du, Rui Zhang, Xiaoyun Li, Jian Xiong* . Hydrolysis of cellulose to fermentable sugars by using 2,5-furandicarboxylic acid as a recyclable catalyst in green solvent of GVL/ H2O, Biomass &Bioenergy , 2022, 165: 106596.

◆ 熊健,吕学斌,任国权,冯文丽,李佳璇,李伟.生物质材料制备糠醛和5-羟甲基糠醛的研究进展.现代化工,2022,42(05):30-34.

◆ 熊健,杨卫春,臧鹏程,张娜,李伟.糌粑改性絮凝剂的制备与应用研究.应用化工,2021,50(09):2382-2385+2390.

◆ 李伟,孙晶,熊健*,张娜,高海涛,张强英,吕学斌.西藏拉鲁湿地表层土壤重金属分布特征和风险评价.环境科学与技术, 2023, 46(01) : 92-100.

◆ 李伟,高海涛,张娜,孙晶,巴桑,吕学斌,熊健*.拉萨市城区土壤重金属分布特征及生态风险评价.环境工程技术学报,2022,12(03):869-877.

◆ 一种高原地区固体废弃物焚烧处理装置。熊健,吕学斌,李伟,冯文丽,任国权,旦增,布多。授权公告日:2021年9月24日。授权公告号:CN214275737U。

◆ 一种市政雨水净化装置。熊健,吕学斌,李伟,王依琳,布多,旦增,张强英。授权公告日:2021年12月10日。授权公告号:CN215105661U。"

◆ Zuo Zhenjun, Zhao Haocun, Yang Lei, Lv Tian,Li Xiangyan, Ma Fei Wang Zhong*, Yu Dan* 2022. Salinity induces allometric accumulation of sulfur in plants and decouples plant nitrogen-sulfur correlation in alpine and arid wetlands. Global Biogeochemical Cycles, 36, e2022GB007372. doi: 10.1029/2022GB007372

◆ Yang Lei, Zhao Haocun, Zuo Zhenjun, Li Xiangyan, Yu Dan*, Wang Zhong* 2021. Generality and Shifts in Leaf Trait Relationships Between Alpine Aquatic and Terrestrial Herbaceous Plants on the Tibetan Plateau. Frontiers in Ecology and Evolution, 9:706237. doi: 10.3389/fevo.2021.706237

◆ Qiao Xiujuan, Zhang Jiaxin, Wang Zhong, Xu Yaozhan, et al. 2021. Foundation species across a latitudinal gradient in China. Ecology, 102: e03234

◆ Wang Zhong, Wu Zhigang, Wang Yang, Yu Dan*. 2018. Variations in Species-Level N:P Stoichiometry of Charophytes and Aquatic Angiosperms on the Tibetan Plateau. Frontiers in Plant Science, 9:870. doi:10.3389/fpls.2018.00870

◆ 汪洋, 苗琳琳, 于丹, 刘春花*, 王忠*. 2017. 青藏高原3种生活型水生植物的热值及环境的影响. 植物生态学报, 41: 209-218

◆ 李翔, 王忠, 赵景学, 罗天祥*. 2017. 念青唐古拉山南坡高寒草甸生产力对温度和降水变化的敏感性及其海拔分异. 生态学报, 2017, 37: 5591-5601

◆ Wang Zhong, Xia Chengxing, Yu Dan*, Wu Zhigang. 2015. Low-temperature induced leaf elements accumulation in aquatic macrophytes across Tibetan Plateau. Ecological Engineering, 75: 1-8

◆ 金远亮,王忠,张林*. 2015. 西藏当雄县高寒草地NDVI的海拔分异特征及其指示. 自然资源学报, 30: 929-937

◆ Xia Chengxing, Yu Dan*, Wang Zhong, Xie Dong. 2014. Stoichiometry patterns of leaf carbon, nitrogen and phosphorous of aquatic macrophytes in eastern China. Ecological Engineering, 70: 406-413

◆ Wang Zhong, Luo Tianxiang*, Li Ruicheng, Tang Yanhong, Du Mingyuan. 2013. Causes for the unimodal pattern of biomass and productivity in alpine grasslands along a large altitudinal gradient in semi-arid regions. Journal of Vegetation Science, 24: 189-201

◆ Wang Zhong, Zhang Lin.* 2012. Leaf shape alters the coefficients of leaf area estimation models for Saussurea stoliczkaiin central Tibet. Photosynthetica, 50: 337-342

◆ 王忠,董仕勇,罗燕燕,欧阳婵娟,王瑞江*。2008。广州外来入侵植物。热带亚热带植物学报,16:29-38

◆ Liyan Zeng,Zhuoya Gu ,Min Xu , Ning Zhao ,Yang Zhong*. ""Discovery of a high-altitude ecotype and ancient lineage of Arabidopsis thaliana from Tibet."" Science Bulletin, vol. 62, pp. 1628–1630, 2017.

◆ 赵宁. ""青藏高原极端环境植物适应性进化分子机制研究进展"" 环境生态学, vol. 4, no. 1, pp. 65-70, 2022.

◆ 钱祥利,孙惠英,陈天禄*,等.HADAR实验对活动星系核伽马射线辐射观测的预期研究.物理学报,2023,72(04):371-382. https://doi.org/doi: 10.7498/aps.72.20221976

◆ Xiangli Qian, Huiying Sun, Tianlu Chen*, et.al. Prospective study on observations of γ-ray sources in the Galaxy using the HADAR experiment. Front. Phys., 2022, 17(6): 64602 https://doi.org/10.1007/s11467-022-1206-x

◆ Guang-Guang Xin; Yu-Hua Yao; Xiang-Li Qian; Qi Gao; Cheng Liu; Dan-Zeng Luo-Bu; You-Liang Feng; Quan-Bu Gou; Hong-Bo Hu; Hai-Jin Li; Mao-Yuan Liu; Wei Liu; Bing-Qiang Qiao; Zhen Wang; Yi Zhang; Hao Cai; Tian-Lu Chen*; Yi-Qing Guo ; Prospects for the Detection of the Prompt Very-high-energy Emission from γ-ray Bursts with the High Altitude Detection of Astronomical Radiation Experiment, The Astrophysical Journal,, 2021, 923(112): 1-6 https://doi.org/10.3847/1538-4357/ac2df7

◆ T.L. Chen*, C. Liu, Q. Gao, et al. Performance of a wide field-of-view atmospheric Cherenkov telescope prototype based on a refractive lens. Nuclear Instruments and Methods in Physics Research, 2019, A 927C:46-53. https://doi.org/10.1016/j.nima.2019.02.020

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◆ H. Cai, Y. Zhang, C. Liu, Q. Gao, Z. Wang, T. L. Chen*, et al. Wide field-of-view atmospheric Cherenkov telescope based on refractive lens. Journal of Instrumentation, 2017, 12 (9) : P09023(9pp). https://doi.org/10.1088/1748-0221/12/09/P09023

◆ H. J. Li, T. L. Chen *, Danzengluobu. Probing the 130 GeV gamma-ray line with ground-based gamma-ray telescopes. Journal of Physics G: Nuclear and Particle Physics, 2013 (40):035202 (6pp) https://doi.org/10.1088/0954-3899/40/3/035202

◆ X. J. Bi, T. L. Chen *, Y. Wang, et.al. The Diffuse Gev-Tev γ-Ray Emission Of The Cygnus Region. Astrophysical Journal, 2009(695):883~887 https://doi.org/10.1088/0004-637X/695/2/883

◆ The LHAASO Collaboration (陈天禄是作者之一).Ultrahigh-energy photons up to 1.4 petaelectronvolts from 12 gamma-ray Galactic sources, Nature, 2021, 594(7861): 33-36 https://doi.org/10.1038/s41586-021-03498-z

◆ The LHAASO Collaboration (陈天禄是作者之一). Peta-electron volt gamma-ray emission from the Crab Nebula, Science, 2021, 373(6553): 425-430 https://doi.org/10.1126/science.abg5137

◆ Tong, Yindong*; Qi, Miao; Sun, Peizhe; Qin, Wanxiao; Zhu, Ying; Wang, Xuejun; Xu, Yanxue;Zhang, Wei; Yang, Jingjing. Estimation of Unintended Treated Wastewater Contributions to Streams in the Yangtze River Basin and the Potential Human Health and Ecological Risk Analysis., Environmental Science and Technology, 2022, 56(9): 5590-5601.

◆ Yindong Tong*; Zhao Huang; Annette B G Janssen; Marcus Wishart; Wei He; Xuejun Wang; Yingxin Zhao; Influence of social and environmental drivers on nutrient concentrations and ratios in lakes: A comparison between China and Europe., Water Research, 2022, 227: 119347.

◆ Tong, Yindong; Wang, Mengzhu; Penuelas, Josep; Liu, Xueyan; Paerl, Hans W.; Elser, James J.; Sardans, Jordi; Couture, Raoul-Marie; Larssen, Thorjorn; Hu, Hongying; Dong, Xin*; He, Wei; Zhang, Wei; Wang, Xuejun; Zhang, Yang; Liu, Yi; Zeng, Siyu; Kong, Xiangzhen; Janssen, Annette G.; Lin, Yan*; Improvement in municipal wastewater treatment alters lake nitrogen to phosphorus ratios in populated regions , Proceedings of the National Academy of Sciences of the United States of America, 2020, 117(21): 11566- 11572.

◆ Tong, Yindong*; Xu, Xiwen; Qi, Miao; Sun, Jingjing; Zhang, Yiyan; Zhang, Wei; Wang, Mengzhu; Wang, Xuejun; Zhang, Yang*; Lake warming intensifies the seasonal pattern of internal nutrient cycling in the eutrophic lake and potential impacts on algal blooms., Water Research, 2020, 188: 116570.

◆ Wang, Mengzhu; Xu, Xiwen; Wu, Zhen; Zhang, Xiaoqian; Sun, Peizhe; Wen, Yingting; Wang, Zhen; Lu, Xuebin; Zhang, Wei; Wang, Xuejun; Tong, Yindong*; Seasonal pattern of nutrient limitation in a eutrophic lake and quantitativeanalysis of the impacts from internal nutrient cycling, Environmental Science & Technology, 2019, 53(23): 13675-13686.

◆ Jiawen Xie; Xingchen Zhuge; Xixi Liu; Qian Zhang; Yiwen Liu; Peizhe Sun; Yingxin Zhao; Yindong Tong*; Environmental sustainability opportunity and socio-economic cost analyses of phosphorus recovery from sewage sludge. Environmental Science and Ecotechnology. 2023, 16: 100258.

◆ Li, Jing, Sun, Jingjing, Wang, Ruonan, Cui, Tiejun, Tong, Yingdong*; Warming of surface water in the large and shallow lakes across the Yangtze River Basin, China, and its driver analysis. Environ. Sci. Pollut. Res. 2023, 30(8), 20121-20132.

◆ Wu, Zhengyu; Li, Zhike; Shao, Bo; Zhang, Yiyan; He, Wei; Lu, Yiren; Gusvitskii, Kair; Zhao, Yingxin; Liu, Yurong; Wang, Xuejun; Tong, Yindong*; Impact of dissolved organic matter and environmental factors on methylmercury concentrations across aquatic ecosystems inferred from a global dataset. Chemosphere. 2022, 294: 133713.

◆ Zhike Li; Jie Chi; Bo Shao; Zhengyu Wu; Wei He; Yiwen Liu; Peizhe Sun; Huiming Lin; Xuejun Wang; Yingxin Zhao; Long Chen; Yindong Tong*; Inhibition of methylmercury uptake by freshwater phytoplankton in presence of algae-derived organic matter. Environmental Pollution. 2022, 313: 120111.

◆ Zhike Li; Jie Chi; Zhenyu Wu; Yiyan Zhang; Yiran Liu; Lanlan Huang; Yiren Lu; Minhaz Uddin; Wei Zhang; Xuejun Wang; Yan Lin; Yindong Tong*; Characteristics of plankton Hg bioaccumulations based on a global data set and the implications for aquatic systems with aggravating nutrient imbalance. Frontiers of Environmental Science & Engineering, 2022, 16(3):37.

◆ Tong Yindong*; Chen Ziwei; Wen Yingting; Qi Miao; Wang Yuyi; Zhu Mengshi; Lin Yan; Sha Jian; Zhang Hefeng; Wang Ruonan; Wang Xuejun; Exploring dynamics of riverine phosphorus exports under future climate change using a process-based catchment model. Journal of Hydrology, 2022, 605: 127344.

◆ Tong Yindong*; Xu Xiwen; Qi Miao; Sun Jingjing; Zhang Yiyan; Zhang Wei; Wang Mengzhu; Wang Xuejun; Zhang Yang; Lake Warming Intensifies the Seasonal Pattern of Internal Nutrient Cycling in the Eutrophic Lake and Potential Impacts on Algal Blooms. Water Research. 2021, 188: 116570.

◆ Qi, Miao; Yang, Yongkui; Zhang, Xiaoyan; Zhang, Xiaoyan; Wang, Mengzhu; Zhang, Weic; Lü, Xuebin; Tong, Yindong*; Pollution reduction and operating cost analysis of municipal wastewater treatment in China and implication for future wastewater management. Journal of Cleaner Production. 2020, 253: 120003.

◆ Tong, Yindong*; Xu, Xiwen; Zhang, Shuliang; Shi, Limei; Zhang, Xiaoyan; Wang, Mengzhu; Qi, Miao; Chen, Cen; Wen, Yingting; Zhao, Yue; Zhang, Wei; Lu, Xuebin; Establishment of season-specific nutrient thresholds and analyses of the effects of nutrient management in eutrophic lakes through statistical machine learning. Journal of Hydrology. 2019, 578: 124079.

◆ Tong, Yindong*; Li, Jiaqi; Qi, Miao; Zhang, Xiaoyan; Wang, Wang, Mengzhu; Liu, Xueyan; Zhang, Wei; Wang, Xuejun; Lu, Yiren; Lin, Yan; Impacts of water residence time on nitrogen budget of lakes and reservoirs. Science of the Total Environment. 2019, 646: 75-83.

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◆ 拉多,张燕杰,刘杰,崔玲玲,庞有智.“拉萨河谷植物物种丰富度空间分布格局及其环境解释.”草业学报,25(10):202-211,2016

◆ 向明学,郭应杰,古桑群宗,张晓庆,潘影,武俊喜,拉多*.“不同放牧强度对拉萨河谷温性草原植物群落和物种多样性的影响.”草地学报, 27(03):668-674,2019.

◆ 古桑群宗, 拉多*, 郭应杰, 向明学, 武俊喜, 潘影, 张燕杰, 李石胜, 达文彦.“拉萨河流域亏组山植物物种丰富度和群落特征研究.“广西植物,41(03):372-383,2021.

◆ 吴姣姣, 向明学, 拉多*, 武俊喜.“不同放牧强度对拉萨河谷温性草原主要植物生态位及种间联结的影响.”草地学报,30(03):513-522, 2022.

◆ Mingxue Xiang, Junxi Wu, Jiaojiao Wu, Yingjie Guo, Duo Lha*, Ying Pan and Xianzhou Zhang*. “Heavy Grazing Altered the Biodiversity–Productivity Relationship of Alpine Grasslands Lhasa River Valley, Tibet”, Frontiers in Ecology and Evolution, Volume 9,doi: 10.3389/fevo.2021.698707, 2021.

◆ 张燕杰, 崔玲玲, 庞有智, 刘杰, 拉多∗. “拉萨河谷植物群落分类与排序及物种丰富度与环境的关系”. 生态学杂志, 34(12):3289-3299, 2015.

◆ 张燕杰, 崔玲玲, 庞有智, 刘杰, 拉多∗. “拉萨河谷植物群落分类与排序及物种丰富度与环境的关系”. 生态学杂志, 34(12):3289-3299, 2015.

◆ 拉多, 古桑群宗, 李石胜.《麦地卡湿地植物识别图集》,西南交通大学出版社, 2022

◆ 其美多吉,次仁,拉多,等《中国自然资源通典–l西藏卷》,内蒙古教育出版社, 2016

◆ Wang, Sishi, Xin Tan, and Fenglei Fan. ""Landscape Ecological Risk Assessment and Impact Factor Analysis of the Qinghai–Tibetan Plateau."" Remote Sensing 14.19 (2022): 4726.

◆ Wang, Sishi, Xin Tan, and Fenglei Fan. ""Changes in Impervious Surfaces in Lhasa City, a Historical City on the Qinghai–Tibet Plateau."" Sustainability 15.6 (2023): 5510.

◆ Migmar Wangdwei,Brian Steele , and Richard B. Harris. Demographic responses of plateau pikas to vegetation cover and land use in the Tibet Autonomous Region,China. Journal of Mammalogy, 2013,94(5):1077-1086. SCI (英文)

◆ Migmar Wangdwei,Joseph,L.Fox. Habitat selection by sympatric chiru and Tibetan gazelle in the Aru Basin, ChangTang Nature Reserve, Tibet Autonomous Region, China, 兽类学报 Acta Theriologica Sinica,2008,28 (3):225 -231.(英文)

◆ Mimar Wangdwei. Effects of vegetation cover and pastroral land-use types on the forging and vigilance behaviors of the plateau pika,.兽类学报Acta Theriologica Sinica, 2019,39(1):69-76.(英文)

◆ 米玛旺堆(Migmar Wangdwei),马红梅,扎西甲措,德庆旺姆,李凯,李豪,吴倩倩,姜智亮.2016~2115年拉萨墨竹工卡县日多镇高原鼠兔(Ochotona curzoniae)洞穴冬季气温变化趋势预测.高原科学,2017,1:46-51.

◆ 米玛旺堆,许国琪,仁增,刘宇佳,王凯.西藏拉萨市区夏季同域物种灰背伯劳与山斑鸠生态位重叠初探[J].高原科学研究,2018,2(03):1-9. 6、米玛旺堆,落桑旺秋,宋璇紫,卓嘎.美国牛蛙(Lithobates catesbeianus)在西藏拉鲁湿地中的体质指标及主要行为特征[J].高原科学研究,2021,5(02):1-4.

◆ 米玛旺堆,马红梅.青藏高原异质栖息地棕颈雪雀和白腰雪雀的分布研究[J].西藏大学学报(自然科学版),2013,28(02):1-6.DOI:10.16249/j.cnki.54-1034/c.2013.02.023.

◆ 米玛旺堆,欧珠朗杰,次仁.高原鼠兔与多种小型雪雀的相关性初探[J].西藏大学学报(自然科学版),2008(01):1-2. 9、Migmar Wangdwei, J. Marc Foggin.Effects of land use and yak grazing on behavior and body mass of plateau pika in Tibetan plateau rangelands[J].Grassland science,2022,68(4):343-353.

◆ 德吉央宗,马红梅,米玛旺堆(Migmar Wangdwei),2014,高原鼠兔在不同植被覆盖的立地占域、局部灭绝和建群率[J].动物学杂志 49(3):328-3335

◆ 潘 璇,米玛旺堆(Migmar Wangdwei),2016,高原鼠兔生态学研究进展[J].生态学杂志Chinese Journal of Ecology 35(9): 2537-2543.

◆ 潘 璇,米玛旺堆(Migmar Wangdwei),2017,不同土地利用和植被特征对高原鼠兔行为的影响,[J].动物学杂志,Chinese Journal of zoology 52(5): 761-767.

◆ 姜智亮,米玛旺堆.岩羊(Pseudois nayaur)研究概述[J/OL].生态学杂志:1-15[2020-07-01].https://doi.org/10.13292/j.1000-4890.202007.029.

◆ 李凯,米玛旺堆.环境因素与高原鼠兔(Ochotona curzoniae)分布之间的相关性研究[J].高原科学研究,2019,3(03):15-20.

◆ 于明鑫,扎西甲措,德庆措姆,吴倩倩,姜智亮,米玛旺堆.日多及羊湖区域高原鼠兔(Ochotona curzoniae)洞穴密度与植被特征的相关性初探[J].高原科学研究,2019,3(01):79-86.

◆ 姜智亮,米玛旺堆,吴倩倩,韩慧.西藏中部岩羊(Pseudois nayaur)的生命表初探及其栖息地质量评价[J].高原科学研究,2019,3(04):26-31. 8、叶宏帅,米玛旺堆.高原鼠兔与其他物种间交互作用的研究进展[J].湖南生态科学学报,2023,10(01):113-119.

◆ 张娟,米玛旺堆.喜马拉雅旱獭(Marmota himalayana)栖息地选择[J].西南民族大学学报(自然科学版),2022,48(05):486-494.

◆ 刘孟君,任越,扎西央宗,尼珍,阚向东,次旺仁增,达娃顿珠,米玛旺堆.自然放牧条件下西藏河谷型藏绵羊不同部位肉品质分析及评价[J].黑龙江畜牧兽医,2022(09):61-67.

◆ 宋璇紫,米玛旺堆.西藏中南部高原鼠兔栖息地选择的潜在影响因素[J].湖南生态科学学报,2022,9(02):43-50.

◆ 曹芮,米玛旺堆.城市山斑鸠(Streptopelia orientalis)栖息地选择研究概况——以拉萨市为例[J].环境生态学,2022,4(01):78-83.

◆ 宋璇紫,米玛旺堆.高寒草甸生态系统中高原鼠兔干扰与非干扰的植物群落特征差异研究[J].黑龙江农业科学,2021(07):28-34.

◆ 米玛旺堆,(Migmar Wangdwei),1997, 生理卫生常识问答,藏文, 北京民族出版社。

◆ Migmar Wangdwei. 2012, Demography, distribution, and behaviour of plateau pika(Ochotona curzoniae) in relation to land-use type and yak (Bos grunniens) grazing on the Qinghai-Tibetan Plateau, China. Dissertation for the degree of philosophiae doctor (PhD) University of Bergen

◆ 米玛旺堆(Migmar Wangdwei)和拉穷,2017,R统计软件在基础生物统计学中的应用,西藏藏文古籍出版社。

◆ 米玛旺堆(Migmar Wangdwei),2018,生命科学论文选摘:藏文,北京民族出版社。

◆ 古桑群宗,拉多,郭应杰,向明学,武俊喜,潘影,张燕杰,李石胜,达文彦. 拉萨河流域亏组山植物物种丰富度和群落特征研究[J]. 广西植物,2021,41(03):372-383.

◆ 古桑群宗,拉多,武俊喜,向明学,李石胜,达文彦. 拉萨河流域亏组山种子植物资源及地理区系组成[J]. 高原科学研究,2019,3(03):21-27.

◆ 拉多,古桑群宗,李石胜.麦地卡湿地植物识别图集[M].成都:西南交通大学出版社,2021."

◆ Ross Joseph; Michelle Lasa; Yonghong Zhou; and Nemat O. Keyhani; Unique Attributes of the Laurel Wilt Fungal Pathogen, Raffaelea lauricola, as Revealed by Metabolic Profiling, Pathogens, 2021, 10(528): https://doi.org/10.3390/pathogens

◆ Yonghong Zhou; Dingding Lu; Ross Joseph; Nemat O. Keyhani; High efficiency transformation and mutant screening of the laurel wilt pathogen, Raffaelea lauricola, Applied Microbiology and Biotechnology, 2020, 104:7331-7343.

◆ Yonghong Zhou; Pasco B. Avery; Daniel Carrillo; Rita H. Duncan; Alison Lukowsky; Ronald D. Cave; Nemat O. Keyhani*; Identification of the Achilles heels of the laurel wilt pathogen and its beetle vector, Applied Microbiology and Biotechnology, 2018, 102: 5673–5684.

◆ Drion G. Boucias; Yonghong Zhou; Shuaishuai Huang; Nemat O. Keyhani*; Microbiota in insect fungal pathology, Applied Microbiology and Biotechnology, 2018, 102: 5873–5888.

◆ Yonghong Zhou; Nemat O. Keyhani; Yongjun Zhang; Zhibing Luo; Yanhua Fan; Yujie Li; Qiaosheng Zhou; Jianjun Chen; Yan Pei*; Dissection of the contributions of cyclophilin genes to development and virulence in a fungal insect pathogen, Environmental Microbiology, 2016, 18 (11): 3812–3826.

◆ Yonghong Zhou; Lei Hou; Yongjun Zhang; Yanhua Fan; Zhibing Luo; Dan Jin; Qiaosheng Zhou; Yujie Li; You Wang; Yan Pei*; Expression and promoter characterization of BbPacC, a pH response transcription factor gene of the entomopathogenic fungus Beauveria bassiana, Microbiology, 2014, 160: 353-361.

◆ Yonghong Zhou; Yonjun Zhang; Zhibing Luo; Yanhua Fan; Guirong Tang; Liji Liu; Yan Pei*; Selection of optimal reference genes for expression analysis in the entomopathogenic fungus Beauveria bassiana during development, under changing nutrient conditions, and after exposure to abiotic stresses, Applied Microbiology and Biotechnology, 2012, 93: 679-685.

◆ Kai Jin; Zhibing Luo; Xiaodong Jiang; Yongjun Zhang; Yonghong Zhou; Yan Pei*; Carbon catabolite repressor gene BbCre1 influences carbon source uptake but does not have a big impact on virulence in Beauveria bassiana, Journal of Invertebrate Pathology, 2011, 106: 400-406.

◆ Kai Jin; Yongjun Zhang; Weiguo Fang; Zhibing Luo; Yonghong Zhou; Yan Pei*; Carboxylate transporter gene JEN1 from the entomopathogenic fungus Beauveria bassiana is involved in conidiation and virulence. Applied and Environmental Microbiology, 2010, 76 (1): 254-263.

◆ Xinggang Liao; Yongjun Zhang; Yanhua Fan; Jincheng Ma; Yonghong Zhou; Dan Jin; Yan Pei*; An ethanol inducible alc system for regulating gene expression in Beauveria bassiana, World Journal of Microbiology & Biotechnology, 2009, 25: 2065-2069.

◆ Jincheng Ma; Qun Zhou; Yonghong Zhou; Xinggang Liao; Yongjun Zhang; Dan Jin; Yan Pei*; The size and ratio of homologous sequence to non-homologous sequence in gene disruption cassette influences the gene targeting efficiency in Beauveria bassiana, Applied Microbiology and Biotechnology, 2008, 82 (5): 891-898."

◆ 土登次仁*; 李兴鹏; 朱卫翁; 央珍; 边片 西藏拉萨林周盆地海相白垩系生物化石的发现及地质意义, 高原科学研究, 2018,3(02): 12-17.

◆ 土登次仁*; 叶进; 白玛康珠; 扎拉; 次仁罗布 拉萨北部夺底沟东嘎山周边第三纪古喀斯特地貌特征及其地质意义, 西藏大学学报, 2016,(02): 18-22.

◆ 土登次仁*; 曹亭亭; 黄静; 田远兵 拉萨河谷平原土地利用类型及可持续发展研究, 西藏大学学报, 2015,(01): 06-11.

◆ 土登次仁*; 袁杰; 李银涛; 刘英辉; 康朝龙 拉萨河谷地区第四纪沉积物特征及其意义, 西藏大学学报, 2013,(02): 18-21.

◆ 土登次仁*;琼达; 央珍; 孙清刚; 西藏农村妇女教育现状分析----以日喀则市边雄乡农村拉萨河谷地区第四纪沉积物特征及其意义, 西藏大学学报, 2013,(02): 18-21.

◆ 土登次仁; 拉萨-日喀则线地质野外实习指南, 西藏人民出版社,90千字, 2016."

◆ Li Y, Wang X, Zhang C, Li J, Jiang H, Sheng L, Li Z*. Stand Structure Management and Tree Diversity Conservation Based on Using Stand Factors: A Case Study in the Longwan National Nature Reserve. Forests. 2023, 14(4): 750.

◆ Huang B, Zhang L, Cao Y, Yang Y, Wang P, Li Z*, Lin Y. Effects of land-use type on soil organic carbon and carbon pool management index through arbuscular mycorrhizal fungi pathways. Global Ecology and Conservation. 2023, 43: e02432.

◆ Yang Y, Cao Y, Li Z, Zhukova A, Yang S, Wang J, Tang Z, Cao Y, Zhang Y, Wang D. Interactive effects of exogenous melatonin and Rhizophagus intraradices on saline-alkaline stress tolerance in Leymus chinensis. Mycorrhiza. 2020, 30: 357-371.

◆ Cao Y, Wu X, Zhukova A, Tang Z, Weng Y, Li Z*, Yang Y. Arbuscular mycorrhizal fungi (AMF) species and abundance exhibit different effects on saline-alkaline tolerance in Leymus chinensis. Journal of Plant Interactions. 2020, 15(1): 266-279.

◆ Wu L, Ning D, Zhang B, Li Y, Zhang P, Shan X, Zhang Q, Brown M, Li Z, Van Nostrand JD, et al., Global diversity and biogeography of bacterial communities in wastewater treatment plants, Nature Microbiology, 2019, 4(7): 1183-1195.

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◆ 王俊伟,李伟,陈瑾芳等.西藏尼洋河干流河岸带维管植物区系特征[J].干旱区资源与环境,2023,37(04):137-145.

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◆ 王俊伟,明升平,陈永豪,李伊凡,何柄枚,拉琼.西藏大学校园维管植物多样性构成与分析[J].安徽农业科学,2023,51(05):118-122.

◆ [1]何柄枚,王俊伟,陈永豪等.西藏岗巴拉山南坡种子植物区系特征与资源型分析[J].高原科学研究,2022,6(01):32-39."

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◆ “浅析传统藏纸工艺及开发前景” 《西藏大学学报》1996年1期;

◆ “西藏人口与可持续发展” 《西藏研究》1996年4期;

◆ “藏纸传统工艺与中原造纸术之比较研究”《西藏研究》,1998年2期;

◆ “西藏农业跨越式发展战略与农村可持续发展”《西藏大学学报》,2003年第4期;

◆ “西藏传统藏纸工艺调查”《中国藏学》,2009年第2期;6.“西藏妇女受教育状况的变化分析”《西藏大学学报》(社会科学版),2009年第3期;7.“高校讨论互动式教学法的应用”《西藏教育》,2010年第9期;8.“西藏妇女教育的发展对策探析”《西藏大学学报》(社会科学版),2011年第3期;9. “探讨西藏城镇新地名的命名原则与方法” 《西藏档案》2014年第2期 总第20期;10. “藏南边界及领土问题与解决途径的思考”《西部发展研究2017年》;

◆ 参编,《西藏自治区经济地理》新华出版社出版,1994年; 2.参编,《西藏地理》,西藏人民出版出版,1998年;3.《西藏大学—地理野外综合实习指南》野外实践教材 副主编,西藏人民出版社出版;4.《西藏地理》教材 副主编,北京师范大学出版社出版。"

◆ Ruizhi An, Yang Liu, Chengmei Pan, Zhen Da, Peng Zhang, Nanqian Qiao, Feng Zhao, Sang Ba*.""Water quality determines protist taxonomic and functional group composition in a high-altitude wetland of international importance.""Science of The Total Environment,vol. 880, 163308, 2023

◆ Peng Zhang, Jie Xiong, Nanqian Qiao, Shuai Luo, Qing Yang, Xiaodong Li, Ruizhi An, Chuanqi Jiang, Wei Miao* and Sang Ba*.""High Variation in Protist Diversity and Community Composition in Surface Sediment of Hot Springs in Himalayan Geothermal Belt, China.""Microorganisms, 11(3), 674, 2023

◆ Peng Zhang, Jie Xiong, Nanqian Qiao, Ruizhi An, Zhen Da, Wei Miao**, Sang Ba*.""Spatiotemporal distribution of protists in the Yarlung Zangbo River,Tibetan Plateau.""Water Biology and Security.vol. 1, Issue 4, 100064, 2022

◆ Zhu,E, Ba,S*, Lyu,Z, Li,J, Shao,C.""Morphogenesis and Molecular Phylogeny of the Soil Ciliate Holostichides chardezi (Ciliophora, Hypotrichia, Bakuellidae), with Redefinition of Holostichides Foissner, 1987 and Establishment of a New Genus Anteholostichides."" The Journal of eukaryotic microbiology, 2019

◆ Honggang, M.A., Jingbao, L.I., Alan, W., Sang,B.*, & Xiaoteng, L.U.""Morphogenesis of the euplotid ciliate uronychia binucleata young, 1922(ciliophora, hypotrichia)."" Journal of Ocean University of China, 2019

◆ Y.Deng,X.Lu,J.Li,S.Ba.*,T.Da Silva Paiva.""Morphology of Two Eschaneustyla Species (Ciliophora, Urostylida), with Notes on Morphogenesis of Eschaneustyla lugeri.""ACTA PROTOZOOLOGICA, 2018

◆ 李晓东; 潘成梅; 安瑞志;巴桑(通讯作者).西藏拉萨河中下游不同水文期浮游植物优势种生态位及种间联结性[J/OL].35(1):118-130,2023

◆ 李晓东,杨清,刘惠秋,巢欣,杨胜娴,巴桑(通讯作者).雅鲁藏布江中游河流生态系统健康状态对水环境因子的响应.环境科学.2022

◆ 张鹏,刘洋,安瑞志,乔楠茜,达珍,巴桑(通讯作者).西藏拉萨河中下游原生动物优势种时空生态位[J].林业科学.58(01),2022

◆ 潘成梅,刘洋,安瑞志,巴桑(通讯作者).西藏麦地卡湿地的浮游植物——2.功能群特征及其与环境因子的关系[J].湖泊科学.34(4),2022

◆ 杨清;张鹏;安瑞志;乔楠茜;达珍;巴桑(通讯作者).拉萨河中下游纤毛虫群落时空分布模式及其驱动机制[J].生物多样性.30(6),2022

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◆ 乔楠茜,张鹏,达珍,安瑞志,巴桑(通讯作者).拉萨河中下游河段原生动物功能群分布和水环境质量评价[J].湿地科学.19(06),2021

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◆ 杨欣兰,巴桑(通讯作者),黄香.拉萨河中上游夏秋季纤毛虫群落时空变动及其与环境的关系.生态学报.39(09),2019

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◆ Jakovlić, I., Zou, H., Zhao, X.M., Zhang, J., Wang, G.T., & Zhang, D.* (2021). Evolutionary history of inversions in directional mutational pressures in crustacean mitochondrial genomes: Implications for evolutionary studies. Molecular Phylogenetics and Evolution 164: 107288.

◆ Zhang, D.#, Zou, H.#, Hua, C.-J., Li, W.-X., Mahboob, S., Al-Ghanim, K.A., Al-Misned, F., Jakovlić, I., & Wang, G.-T. (2019). Mitochondrial architecture rearrangements produce asymmetrical nonadaptive mutational pressures that subvert the phylogenetic reconstruction in Isopoda. Genome biology and evolution 11: 1797-1812.

◆ Zhang, D., Li, W.X., Zou, H., Wu, S.G., Li, M., Jakovlić, I., Zhang, J., Chen, R., & Wang, G.T. (2019). Homoplasy or plesiomorphy? Reconstruction of the evolutionary history of mitochondrial gene order rearrangements in the subphylum Neodermata. International Journal for Parasitology 49: 819-829.

◆ Zhang, D., Li, W.X., Zou, H., Wu, S.G., Li, M., Jakovlic, I., Zhang, J., Chen, R., & Wang, G.T. (2020). Mitochondrial genomes and 28S rDNA contradict the proposed obsoletion of the order Tetraonchidea (Platyhelminthes: Monogenea). International journal of biological macromolecules 143: 891-901.

◆ Zhang, D., Zou, H., Wu, S.G., Li, M., Jakovlic, I., Zhang, J., Chen, R., Li, W.X., & Wang, G.T. (2018). Three new Diplozoidae mitogenomes expose unusual compositional biases within the Monogenea class: implications for phylogenetic studies. BMC Evolutionary Biology 18: 133.

◆ Zhang, D., Zou, H., Jakovlić, I., Wu, S.G., Li, M., Zhang, J., Chen, R., Li, W.X., & Wang, G.T. (2019). Mitochondrial genomes of two Thaparocleidus species (Platyhelminthes: Monogenea) reveal the first rRNA gene rearrangement among the Neodermata. International Journal of Molecular Sciences 20: 4214.

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◆ Zhang, D., Zou, H., Wu, S.G., Li, M., Jakovlić, I., Zhang, J., Chen, R., Li, W.X., & Wang, G.T. (2019). Evidence for adaptive selection in the mitogenome of a mesoparasitic monogenean flatworm Enterogyrus malmbergi. Genes 10: 863.

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◆ Li, W.X., Zhang, D., Boyce, K., Xi, B.W., Zou, H., Wu, S.G., Li, M., & Wang, G.T. (2017). The complete mitochondrial DNA of three monozoic tapeworms in the Caryophyllidea: a mitogenomic perspective on the phylogeny of eucestodes. Parasites & Vectors 10: 314.

◆ Zhang, D., Zou, H., Wu, S.G., Li, M., Jakovlic, I., Zhang, J., Chen, R., Wang, G.T., & Li, W.X. (2018). Sequencing, characterization and phylogenomics of the complete mitochondrial genome of Dactylogyrus lamellatus (Monogenea: Dactylogyridae). Journal of helminthology 92: 455-466.

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◆ Wang, J.G., Zhang, D., Jakovlic, I., & Wang, W.M. (2017). Sequencing of the complete mitochondrial genomes of eight freshwater snail species exposes pervasive paraphyly within the Viviparidae family (Caenogastropoda). PLoS One 12: e0181699.

◆ Xi, B.W., Zhang, D., Li, W.X., Yang, B.J., & Xie, J. (2018). Characterization of the complete mitochondrial genome of Parabreviscolex niepini Xi et al., 2018 (Cestoda, Caryophyllidea). Zookeys 97-112.

◆ Zou, H., Zhang, D., Li, W., Zhou, S., Wu, S., & Wang, G. (2016). The complete mitochondrial genome of Gyrodactylus gurleyi (Platyhelminthes: Monogenea). Mitochondrial DNA Part B-Resources 1: 383-385.

◆ Hua, C.J., Li, W.X., Zhang, D., Zou, H., Li, M., Jakovlić, I., Wu, S.G., & Wang, G.T. (2018). Basal position of two new complete mitochondrial genomes of parasitic Cymothoida (Crustacea: Isopoda) challenges the monophyly of the suborder and phylogeny of the entire order. Parasites & Vectors 11: 628.

◆ Li, C., Zhao, W., Zhang, D., Wang, R., Wang, G., Zou, H., Li, W., Wu, S., & Li, M. (2018). Sicuophora (Syn. Wichtermania) multigranularis from Quasipaa spinosa (Anura): morphological and molecular study, with emphasis on validity of Sicuophora (Armophorea, Clevelandellida). Parasite 25: 38.

◆ Li, W.X., Fu, P.P., Zhang, D., Boyce, K., Xi, B.W., Zou, H., Li, M., Wu, S.G., & Wang, G.T. (2018). Comparative mitogenomics supports synonymy of the genera Ligula and Digramma (Cestoda: Diphyllobothriidae). Parasites & Vectors 11: 324.

◆ Zhao, W., Li, C., Zhang, D., Wang, R., Zheng, Y., Zou, H., Li, W., Wu, S., Wang, G., & Li, M. (2018). Balantidium grimi n. sp. (Ciliophora, Litostomatea), a new species inhabiting the rectum of the frog Quasipaa spinosa from Lishui, China. Parasite 25: 29.

◆ Zou, H., Jakovlic, I., Zhang, D., Chen, R., Mahboob, S., Al-Ghanim, K.A., Al-Misned, F., Li, W.X., & Wang, G.T. (2018). The complete mitochondrial genome of Cymothoa indica has a highly rearranged gene order and clusters at the very base of the Isopoda clade. PLoS One 13: e0203089.

◆ Zou, H., Jakovlic, I., Zhang, D., Hua, C.J., Chen, R., Li, W.X., Li, M., & Wang, G.T. (2020). Architectural instability, inverted skews and mitochondrial phylogenomics of Isopoda: outgroup choice affects the long-branch attraction artefacts. Royal Society Open Science 7: 191887.

◆ 赵威山, 周顺, 张东, 王亚青, 滑聪杰, 李文祥, & 王桂堂 (2017). 太白湖主要经济鱼类寄生蠕虫种类调查. 淡水渔业 47: 52-57.

◆ Fu, P.P., Li, W.X., Zou, H., Zhang, D., Wu, S.G., Li, M., Wang, G.T., & Xi, B.W. (2019). Identification of Gangesia oligonchis Roitman & Freze, 1964 (Cestoda: Onchoproteocephalidea) from Tachysurus fulvidraco Richardson in central China: implications for the validity of Gangesia pseudobagrae Chen, 1962. Systematic Parasitology 96: 327-335.

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◆ Zou, H., Jakovlic, I., Chen, R., Zhang, D., Zhang, J., Li, W.X., & Wang, G.T. (2017). The complete mitochondrial genome of parasitic nematode Camallanus cotti: extreme discontinuity in the rate of mitogenomic architecture evolution within the Chromadorea class. BMC Genomics 18: 840.

◆ Liu, X., Hua, C., Zhang, Q., Zhao, Y., Zhang, D., & Zhang, J. (2017). Myxobolus taibaiensis sp. n. (Myxozoa: Myxosporea) infecting the intestinal wall of common carp Cyprinus carpio Linnaeus in China. Folia Parasitologica 64.

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◆ Yizhong Zhang, Xiang Huang, Yiliang Chen, Tao Xie, Lixia Jia, Xin Tan, Tao Yu, 2021. Cadmium ions sequestration and transformation on confined magnesium hydroxide gel beads. Separation and Purification Technology, vol 270 (1), pp.118758.

◆ Tao Yu*, Yiliang Chen, Yizhong Zhang, Xin Tan, Tao Xie, Boyu Shao, Xiang Huang*, 2021. Novel reusable sulfate-type zirconium alginate ion-exchanger for fluoride removal. Chinese Chemical Letters, vol 32(11), pp.3410-3415.

◆ Guozhu Mao, Yushun Zhao, Fengrong Zhang, Jiaju Liu, Xiang Huang*, 2019. Spatiotemporal variability of heavy metals and identification of potential source tracers in the surface water of the Lhasa River basin. Environmental Science and Pollution Research, vol 26(8), pp.7442-7452.

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◆ Cao PX, Liu Y, Ma HM, Zhao N, Chen ST, Xu GQ, Liu X. Fungal Diversity in the Soil of the Oxytropis glacialis Root System on the Qinghai-Tibet Plateau. Front Microbiol. 2022 Feb 24;13:831783. doi: 10.3389/fmicb.2022.831783. PMID: 35283812; PMCID: PMC8907473.

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◆ 绘图法突破行星风系难点,中学地理教学参考

◆ 新课标视阈下高中气候知识的学法、教法、考法创新应用策略,中学地理教学参考

◆ 基于六维一体生态教育观的《中国地理》课程创新体系研究,地理教学

◆ Lazhu, Kun Yang*, Jun Qin, Juzhi Hou, Yanbin Lei, Junbo Wang, Anning Huang, Yingying Chen, Baohong Ding, Xin Li. A Strict Validation of MODIS Lake Surface Water Temperature on the Tibetan Plateau. Remote Sensing, 2022, 14, 5454.

◆ Lazhu, Kun Yang*, Juzhi Hou, Junbo Wang, Yanbin Lei, Liping Zhu, Yingying Chen, Mingda Wang, Xiaogang He, A new finding on the prevalence of rapid water warming during lake ice melting on the Tibetan Plateau, Science Bulletin, 2021, 66, 2358-2361.

◆ Lazhu, Kun Yang*, Junbo Wang, Yanbin Lei, Yingying Chen, Liping Zhu, Baohong Ding, Jun Qin. Quantifying evaporation and its decadal change for Lake Nam Co, central Tibetan Plateau. Journal of Geophysical Research: Atmospheres, 2016, 121(3), 7578-7591.

◆ Anning Huang, Lazhu*, Junbo Wang, Yongjiu Dai, Kun Yang, Nan Wei, Lijuan Wen, Yang Wu, Xueyan Zhu, Xindan Zhang, Shuxin Cai. Evaluating and Improving the Performance of Three 1‐D Lake Models in a Large Deep Lake of the Central Tibetan Plateau, Journal of Geophysical Research: Atmospheres, 2019,124(6): 3143-3167.

◆ Xiaogang Ma, Kun Yang, Lazhu, Hui Lu, Yaozhi Jian, Xu Zhou, Xiangnan Yao, Xin Li. Importance of Parameterizing Lake Surface and Internal Thermal Processes in WRF for Simulating Freeze Onset of an Alpine Deep Lake. Journal of Geophysical Research: Atmospheres, 2022, 127, e2022JD036759.

◆ Kun Yang*, Lazhu, Yingying Chen, Long Zhao, Jun Qin, Hui Lu, Wenjun Tang, Menglei Han, Baohong Ding, Nan Fang, Land surface model calibration through microwave data assimilation for improving soil moisture simulations, Journal of Hydrology, 2016, 533, 266-276.

◆ Kun Yang*, Jun Qin, Long Zhao, Yingying Chen, Wenjun Tang, Menglei Han, Lazhu, Zhuoqi Chen, Ning Lv, Baohong Ding, Hui Wu, Changgui Lin. A Multiscale Soil Moisture and Freeze-Thaw Monitoring Network on the Third Pole, Bulletin of the American Meteorological Society, 2013, 94(12): 1907-1916.

◆ Yang Wu, Anning Huang*, Lazhu, Xianyu Yang, Bo Qiu, Lijuan Wen, Zhiqi Zhang, Zhipeng Fu, Xueyan Zhu, Xindan Zhang, Shuxin Cai, Yong Tang. Improvements of the coupled WRF-Lake model over Lake Nam Co, Central Tibetan Plateau. Climate Dynamics, 2020, 55(9): 2703-2724.

◆ Xiangnan Yao, Kun Yang*, Xu Zhou, Yan Wang, Lazhu, Yingying Chen, Hui Lu. Surface friction contrast between water body and land enhances precipitation downwind of a large lake in Tibet, Climate Dynamics, 2021, 1-14.

◆ Yanbin Lei*, Tandong Yao, Kun Yang, Lazhu, Yaoming Ma, Broxton W. Bird. Contrasting hydrological and thermal intensities determine seasonal lake-level variations - a case study at Paiku Co on the southern Tibetan Plateau, Hydrology and Earth System Sciences, 2021, 25, 3163-3177.

◆ Kun Yang*, Hui Lu, Siyu Yue, Guoqing Zhang, Yanbin Lei, Lazhu, Wei Wang. Quantifying recent precipitation change and predicting lake expansion in the Inner Tibetan Plateau, Climatic Change, 2018,147(1-2): 149-163.

◆ Yan Wang, Kun Yang*, Zhengyang Pan, Jun Qin, Deliang Chen, Changgui Lin, Yingying Chen, Lazhu, Wenjun Tang, Menglei Han, Ning Lu, Hui Wu, Evaluation of precipitable water vapor from four satellite products and four reanalysis datasets against GPS measurements on the Southern Tibetan Plateau, Journal of Climate, 2017,30(15): 5699-5713.

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