◆发表论文
(1) Bai YF #, Ma LN#, Degen AA, Rafiq MK, Kuzyakov Y, Zhao JX, Zhang R, Zhang T, Wang WY, Li XG, Long RJ, Shang ZH* (2020). Long-term active restoration of extremely degraded alpine grassland accelerated turnover and increased stability of soil carbon. Global Change Biology. 26: 7217-7228 (SCI生态环境类1区TOP)
(2) Bai YF#, Rafiq MK#, Li SS, Degen AA, Ma?ek, Ondrˇej, Sun HW, Han HW, Wang T, Joseph S, Bachmann RT, Rajesh KS, Long RJ, Shang ZH* (2021). Biochar from pyrolyzed Tibetan Yak dung as a novel additive in ensiling sweet sorghum: An alternate to the hazardous use of Yak dung as a fuel in the home. Journal of Hazardous Material. 403: 123647 (SCI生态环境类1区TOP)
(3) Bai YF#, Guo CC#, Li SS, Degen AA, Ahmad AA, Wang WY, Zhang T, Huang M, Shang ZH* (2021). Decoupling livestock greenhouse gas emissions from economic growth in livestock products in the Tibetan highland between 1980 and 2015. Journal of Environmental Management. 287: 112334 (SCI生态环境类1区TOP)
(4) Bai YF#, Guo CC#, Degen AA, Ahmad AA, Wang WY, Zhang T, Li WY, Ma L, Huang M, Zeng HJ, Qi LY, Long RJ, Shang ZH* (2020). Climate Warming Benefits Alpine Vegetation Growth in Three-River Headwater Region, China. Science of the Total Environment. 742: 140574 (SCI生态环境类1区TOP)
(5) Rafiq MK#, Bai YF#, Rukhsanda A, Rafiq MT, Ma?ek, Ondrˇej, Bachmann RT, Joseph S, Shahbaz M, Qayyum A, Shang ZH*, Danaee M, Long RJ* (2019). Biochar amendment improves alpine meadows growth and soil health in Tibetan plateau over a three year period. Science of the Total Environment. 717: 135296 (共同第一作者)(SCI生态环境类1区 TOP).
(6) Feida Sun, Dewei Chen, Linhao Li, Qiaoqiao Zhang, Xin Yuan, Zihong Liao, & Mani Shrestha, Yanfu Bai*, A. Allan Degen (2024). Machine Learning Models Based on UAV Oblique Images Improved Above-Ground Biomass Estimation Accuracy Across Diverse Grasslands on the Qinghai-Tibetan Plateau, Land Degradation & Development, 0:1–14. (通讯作者, 中科院大类分区2区).
(7) Zheng X, Chen D, Zhou J, Huang Q, Hu X, Deng Z, Bai Y*, Liu, L (2023). Knowledge Map and Global Trends in Root Exudates Research from 2012 to 2021: a Bibliometric Analysis. Journal of Soil Science and Plant Nutrition, 23: 1459-1471 (通讯作者, 中科院大类分区2区).
(8) Yao X, Li C, Ahmad AA, Tariq A, Degen AA and Bai Y*(2022). An increase in livestock density increases forage nutritional value but decreases net primary production and annual forage nutritional yield in the alpine grassland of the Qinghai-Tibetan Plateau. Frontiers in Plant Science, 13: 1020033 (通讯作者,中科院大类分区2区TOP).
(9) Niu Y, Bai Y and Rossi S (2024) Editorial: Vegetation-based degradation and restoration on the alpine grasslands of the Tibetan plateau. Frontiers in Plant Science, 15:1467335 (通讯作者,中科院大类分区2区TOP).
(10) Jiao, J., Li, S., Wang, W., Qi, L., Degen, A. A., Bai, Y., Jiao, T., & Shang, Z* (2024). Land parcellation reduced spatial redundancy resulting in grassland degradation. People and Nature, 00, 1–15. (中科院一区TOP).
(11) Luo, B., Huang, M., & Wang, W., Niu, J., Shrestha, Mani., Zeng, H., Ma, L., Degen, A. Allan., Liao, J., Zhang, T., Bai, Y., Zhao, J., Fraser, L. H., Shang, Z.H* (2023). Ant nests increase litter decomposition to mitigate the negative effect of warming in an alpine grassland ecosystem. The Royal Society Proceedings B: Biological Sciences, 290(2001).
(12) Guo, N., Sang, C., Huang, M., Bai, Y., et al (2023). Long-term active restoration of degraded grasslands enhances vegetation resilience by altering the soil seed bank. Agronomy for Sustainable Development. 43,6 (SCI农林科学一区, TOP期刊,IF = 7.853).
(13) Zhang R, Degen AA, Bai YF, Zhang T, Wang XM, Zhao XY, Shang ZH* (2020). The forb, Ajania tenuifolia, uses soil nitrogen efficiently, allowing it to be dominant over sedges and Graminae in extremely degraded grasslands: Implications for grassland restoration and development on the Tibetan Plateau. Land Degradation & Development. 31(10):1265-1276.
(14) Li SS, Zhang JJ, Bai YF, Degen AA, Wang T, Shang ZH*, Ding LM, Long RJ (2020). Sorghum silage substituted for corn silage in diets for dairy cows: Effects on feed intake, milk yield and quality, and serum metabolites. Applied Animal Science. 36:228-236.
(15) Zhang R, Bai YF, Zhang T, Henkin Z, Degen AA, Jia TH, Guo CC, Long RJ, Shang ZH* (2019). Driving factors that reduce soil carbon, sugar, and microbial biomass in degraded alpine grasslands. Rangeland Ecology & Management. 72:396-404.
◆专著教材
软著
1.白彦福,尚占环,冯琦胜.青藏高原黑土滩人工草地建植与管理信息系统(V1.0).计算机软件著作权,中华人民共和国知识产权局,2016SR011941.
2.曾海俊,白彦福,尚占环.三江源区草地恢复生态信息系统(V1.0).计算机软件著作权,中华人民共和国知识产权局,2020SR0770725.
专利
1.刘琳, 陈冬明, 汪潭, 姚琛垠, 周冀琼, 白彦福, 孙飞达, 刘伟, 韩金锋, 马小明, 王汉之. 用于温室气体通量测定的原位气样采集装置[P]. 四川省: CN219302058U, 2023-07-04.
2.刘琳, 陈冬明, 汪潭, 周冀琼, 白彦福, 唐荻, 马小明, 王汉之, 孙飞达, 刘伟, 韩金锋. 用于原状土柱的水位观测和水样采集装置[P]. 四川省: CN219224245U, 2023-06-20.
3.刘琳, 陈冬明, 汪潭, 李西, 孙飞达, 周冀琼, 白彦福, 郑鑫, 黄倩, 胡兴鹏, 邓竹辛, 修粤, 唐一月, 曹赛新. 一种湿生植物根系分泌物原位收集装置及其收集方法[P]. 四川省: CN114375695B, 2022-10-21.
4.刘琳, 陈冬明, 汪潭, 李西, 孙飞达, 周冀琼, 白彦福, 郑鑫, 黄倩, 胡兴鹏, 邓竹辛, 修粤, 唐一月, 曹赛新. 一种湿生植物根系分泌物原位收集装置及其收集方法[P]. 四川省: CN114375695A, 2022-04-22.
5.彭珍, 白彦福, 党志强, 张伟, 尚占环. 一种多功能牦牛粪清理装置[P]. 甘肃省: CN215074567U, 2021-12-10.
6.尚占环, 何辉, 李珊珊, 白彦福, 李思林, 郭灿灿, 王婷, 丁路明, 王虎成, 龙瑞军. 一种饲用甜高粱半裹包青干草制作方法[P]. 甘肃: CN107361211A, 2017-11-21.
7.尚占环, 何辉, 白彦福, 李思林, 李珊珊, 郭灿灿, 王婷, 丁路明, 王虎成, 龙瑞军. 一种饲用甜高粱裹包青贮饲料制作方法[P]. 甘肃: CN107361212A, 2017-11-21.
8.尚占环, 何辉, 白彦福, 李珊珊, 李思林, 郭灿灿, 王婷, 丁路明, 王虎成, 龙瑞军. 一种甜高粱基全混合发酵饲料配方及其成型干制方法[P]. 甘肃: CN107242349A, 2017-10-13.
9.尚占环,侯尧宸,董全民,白彦福,冯琦胜,丁路明,施建军.一种用于遥感监测高寒草地基准样地的建立方法[P].国家发明专利,专利号: ZL201510434638.0.
专著
1.白彦福,参编,《Carbon management for promoting local livelihoodin the Hindu Kush Himalayan (HKH) Region》,Springer,2020.
2.白彦福,参编,《藏东南人类活动遗迹与生存环境调查》,2021。