1.国家自然科学基金面上项目，41971131，基于遥感的毛乌素沙地生物结皮的空间分布与固碳功能及其差异机理, 2020/1-2023/12，主持

2.国家自然科学基金面上项目，41071192，毛乌素沙地生物结皮的风蚀和水分效应及其干扰响应，2011/1-2013/12，主持

3.国家自然科学基金应急管理项目，41541008，毛乌素沙地生物结皮的光谱特征与遥感影像识别研究，2016/1-2016/12，主持

4.国家自然科学基金青年项目，40701096，黄土水蚀风蚀交错区土壤结皮的时空发育特征及其土壤水文与侵蚀效应研究，2008/1-2010/12，主持

5.国家重点研发项目课题四任务一（2017YFC0504703），边坡工程安全防控与生态还绿技术，2017.7-2020.12，主持

6.国家重点研发国际合作项目任务五（2016YFE0203400-05），人工促进生物土壤结皮快速固沙技术，2017/9-2020/12，主持

7.2017.6-2019.12: 生物结皮的种源扩繁与生态综合护坡技术产业化(2017CXY-08)，参与

8.中国科学院西部之光人才项目，2014-91，人工培育苔藓结皮的抗逆性与侵蚀防治效益研究，2015/1-2017/12，主持

9.中央高校优秀青年科研业务专项基金，2014YQ006，人工培育苔藓结皮的关键影响因子，2015/1-2017/12，主持

10.Consolidator Grant Program of the European Research Council，荒漠生物调查：全球干旱地放牧与气候变化的效应评价，2016-2020，200万欧元，参与

11.中国水电顾问集团西北勘测设计研究院，西北地区水电及新能源项目施工迹地风蚀防治与生态修复试验研究，2014/1-2016/12，主持

12.中央高校基本科研业务专项基金，QN2009085，毛乌素沙地生物结皮的生态功能及其培育技术研究，2010/1-2012/12，主持

13.中国科学院西部之光博士项目，B28013200，黄土高原生物结皮的侵蚀水文过程的干扰响应，2008/1-2010/12，主持

[1]Meng-Chen Ju, Ting-Long Zhang, Chong-Feng Bu*. Large scale environmental drivers of biocrust distribution and development across a sandy desert in China, CATENA, 2021, https://doi.org/10.1016/j.catena.2020.105137

[2]Wang C, Hill RL, Bu C*, et al. Evaluation of wind erosion control practices at a photovoltaic power station within sandy area of northwest, China. Land Degrad Dev. 2021, 32:1854-1872. https://doi.org/10.1002/ldr.3839

[3]Xiaobing Zhou, Yunge Zhao, Jayne, Belnap,Bingchang Zhang, Chongfeng Bu, Yuanming Zhang*. Practices of biological soil crusts rehabilitation in China: experiences and challenges. Restoration Ecology，2020，DOI: 10.1111/REC13148.

[4]LIU Qiuyu, ZHANG Tinglong*, LI Yizhe, LI Ying, BU Chongfeng*, ZHANG Qingfeng. Comparative Analysis of Fractional Vegetation Cover Estimation Based on Multi-sensor Data in a Semi-arid Sandy Area. Chinese Geographical Science, 2019, 29(1), 166–180 (SCI, IF=1.114)

[5]Yongsheng Yang, Li Zhang, Xingfang Chen, Wen Wang, Chongfeng Bu*, Yingnian Li, Huakun Zhou. Effects of Chemical Substances on the Rapid Cultivation of Moss Crusts in a Phytotron on the Loess Plateau. International Journal of Phytoremediation, 2019, 21(3): 268–278 (SCI, IF=1.886)

[6]BU Chongfeng*, Li Ruxue, Wang Chun, Bowker Matthew A. Successful field cultivation of moss biocrusts on disturbed soil surfaces in the short term. Plant Soil , 2018, 429(1), 227-240 (SCI, IF=3.306)

[7]BU Chongfeng, WANG Chun, YANG Yongsheng, ZHANG Li, Matthew A BOWKER. Physiological responses of artificial moss biocrusts to dehydration-rehydration process and heat stress on the Loess Plateau, China. Journal of Arid Land, 2017, 9(3): 419-431. (SCI, IF=1.796)

[8]Chongfeng Bu*, Ying Zhao, Robert Lee Hill, Chunlei Zhao, Yongsheng Yang, Peng Zhang, Shufang Wu. Wind erosion prevention characteristics and key influencing factors of bryophytic soil crusts. Plant and Soil, 2016, 397(1-2):163-174 (SCI, IF=3.235)

[9]Chongfeng Bu*, K.K., Zhang, C.Y., Zhang, S.F., Wu. Key factors influencing rapid development of potentially dune-stabilizing moss-dominated crusts. PlOS ONE 2015, 10(7): e0134447. doi:10.1371/journal.pone.0134447 (SCI, IF=3.534).

[10]Chongfeng Bu*, P. Zhang, C. Wang, Y.S., Yang, H.B., Shao, S.F., Wu. Spatial distribution of biological soil crusts on the slope of the Chinese Loess Plateau based on canonical correspondence analysis. CATENA, 2016, 137: 373-381 (SCI, IF=3.191)

[11]Chongfeng Bu*, S.F., Wu, F.P., Han, Y.S., Yang, J., Meng. The Combined Effects of Moss-Dominated Biocrusts and Vegetation on Erosion and Soil Moisture and Implications for Disturbance on the Loess Plateau, China. PlOS ONE 2015, 10(5), 10.1371/journal.pone.0127394 (SCI, IF=3.534).

[12]Yongsheng Yang, Chongfeng Bu*, Xingmin Mu, Kankan Zhang. Effects of differing coverage of moss-dominated soil crusts on hydrological processes and implications for disturbance in the Mu Us Sandland, China. Hydrological Processes, 2015, 29: 3112-3123(SCI, IF=2.696).

[13]Chongfeng BU*, Shufang WU, Kaibao YANG. Effects of physical soil crusts on infiltration and splash erosion in three typical Chinese soils. International Journal of Sediment Research, 2014, 29(4): 491-500 (SCI, IF=1.306)

[14]Chongfeng Bu*, Shufang Wu, Yongsheng Yang, Mingguo Zheng. Identification of Factors Influencing the Restoration of Cyanobacteria-Dominated Biological Soil Crusts. PlOS ONE 2014, 9(3): e90049. doi:10.1371/journal.pone.0090049 (SCI, IF=3.534).

[15]Y.S., Yang, Chongfeng Bu*, X.M., Mu, H.B., Shao, K.K., Zhang. Interactive Effects of Moss-Dominated Crusts and Artemisia ordosica on Wind Erosion and Soil Moisture in Mu Us Sandland, China. The Scientific World Journal, 2014, http://dx.doi.org/10.1155/2014/649816 (SCI, IF=1.219).

[16]Chongfeng Bu*, S.F., Wu, Y.S., Xie, X.C., Zhang. The Study of Biological Soil Crusts: Hotspots and Prospects. CLEAN-Soil Air Water, 2013, 41(9):899-906 (SCI, IF=2.046).

[17]Chongfeng Bu*, Shufang Wu, Kankan Zhang, Yongsheng Yang, Guoxiong Gao. Biological Soil Crusts: an Eco-adaptive Biological Conservative Mechanism and Implications for Ecological Restoration. Plant Biosystems, 2015, 149(2):364-373 (SCI, IF=1.920).

[18]Chongfeng Bu*, Jeff Gale, Qiangguo Cai, Shufang Wu. Process and Mechanism for the Development of Physical Crusts in Three Typical Chinese Soils. PEDOSPHERE, 2013, 23(3): 321-332 (SCI, IF=1.379).

[19]Wu SF, Wu PT, Feng H, Bu CF. Influence of amendments on soil structure and soil loss under simulated rainfall China's loess plateau. AFRICAN JOURNAL OF BIOTECHNOLOGY, 2010, 9(37):？ 6116-6121

[20]Chongfeng BU，Qiangguo CAI，Saileung NG. Effect of Hedgerows on Soil Erosion in the Three Gorges Dam Area，China. International Journal of Sediment Research, 2008, 23(2):119-129 (SCI, IF=1.306).

[21]杨永胜，卜崇峰*，高国雄.平茬措施对柠条生理特征及土壤水分的影响. 生态学报，2012，32(4)：323-332.

[22]卜崇峰，刘国彬，陈玉福. 狼牙刺与柠条生理生态及土壤水分效应的比较研究. 北京林业大学学报，2005,27(2)：28-33.