代表论文
1. Dai, L., Fu, R., Guo, X.*, Du, Y., Zhang, F., & Cao, G. (2023). Variations in and factors controlling soil hydrological properties across different slope aspects in alpine meadows. Journal of Hydrology, 616, 128756.
2. Dai, L., Yuan, Y., Guo, X.*, Du, Y.*, Ke, X., Zhang, F., ... & Cao, G. (2020). Soil water retention in alpine meadows under different degradation stages on the northeastern Qinghai-Tibet Plateau. Journal of Hydrology, 590, 125397.
3. Dai, L., Guo, X.*, Zhang, F., Du, Y., Ke, X., Li, Y., Cao G.*, & Peng, C. (2019). Seasonal dynamics and controls of deep soil water infiltration in the seasonally-frozen region of the Qinghai-Tibet plateau. Journal of Hydrology, 571, 740-748.
4. Dai, L., Guo, X.*, Ke, X., Du, Y.*, Zhang, F., & Cao, G. (2021). The variation in soil water retention of alpine shrub meadow under different degrees of degradation on northeastern Qinghai-Tibetan plateau. Plant and Soil, 458, 231-244.
5. Dai, L., Ke, X., Du, Y., Zhang, F., Li, Y., Li, Q., ... & Guo, X.* (2019). Nitrogen controls the net primary production of an alpine Kobresia meadow in the northern Qinghai‐Tibet Plateau. Ecology and Evolution, 9(15), 8865-8875.
6. Dai, L., Fu, R., Guo, X.*, Ke, X., Du, Y., Zhang, F., ... & Cao, G. (2021). Evaluation of actual evapotranspiration measured by large‐scale weighing lysimeters in a humid alpine meadow, northeastern Qinghai‐Tibetan Plateau. Hydrological Processes, 35(4), e14051.
7. Si, M., Guo, X.*, Lan, Y., Fan, B., & Cao, G. (2022). Effects of Climatic Variability on Soil Water Content in an Alpine Kobresia Meadow, Northern Qinghai–Tibetan Plateau, China. Water, 14(17), 2754.
8. Dai, L.*, Fu, R., Guo, X.*, Du, Y., Hu, Z., & Cao, G. (2021). Alpine shrub had a stronger soil water retention capacity than the alpine meadow on the northeastern Qinghai-Tibetan Plateau. Ecological Indicators, 133, 108362.
9. Dai, L., Fu, R., Guo, X.*, Ke, X., Du, Y., Zhang, F., & Cao, G.* (2021). Effect of grazing management strategies on alpine grassland on the northeastern Qinghai-Tibet Plateau. Ecological Engineering, 173, 106418.
10. Li, J., Zhang, F., Si, M., Lan, Y., Li, B., Lin, L., Cao G.*, Guo, X.* (2022). Response of Soil Water Storage to Meteorological Factors in Alpine Shrub Meadow on Northeastern Qinghai–Tibetan Plateau. Diversity, 14(3), 185.
11. Lin, L., Cao, G.*, Guo, X.*, Li, Q., Qian, D., Du, Y., ... & Si, M. (2022). The Process of Soil Nutrient Stabilization in Micro-Patches in Alpine Kobresia Meadows. Diversity, 14(8), 656.
12. Guo, X., Dai, L., Li, Q., Qian, D., Cao, G., Zhou, H., & Du, Y. (2020). Light grazing significantly reduces soil water storage in alpine grasslands on the Qinghai-Tibet plateau. Sustainability, 12(6), 2523.
13. Guo, X., Dai, L., Zhang, F., Li, Y., Lin, L., Li, Q., ... & Du, Y. (2020). Effects of increased precipitation and nitrogen deposition on methane uptake of alpine meadow in Qinghai-Tibet Plateau: in situ experiments. Polish Journal of Ecology, 68(2), 109-120.
14. Guo, X., Zhou, H., Dai, L., Li, J., Zhang, F., Li, Y., ... & Wang, B. (2021). Restoration of degraded grassland significantly improves water storage in alpine grasslands in the qinghai-Tibet plateau. Frontiers in Plant Science, 3005.
15.Guo X., Du Y., Han D., Xu X., Zhang F., Lin L., Li Y., Liu S., Ouyang J., Cao G.*. (2015). Effects of Landuse Change on CH4 Soil-Atmospheric Exchange in Alpine Meadow on the Tibetan Plateau. Polish Journal of Environmental Studies 24: 1593-1602.
16. Guo X., Du Y., Li J., Liu S., Han D., Li Y., Lin L., Zhang F., Oyang J., Cao G.*. (2015). Aerobic methane emission from plant: comparative study of different communities and plant species of alpine meadow. Polish Journal of Ecology 63: 223-232.
专著:
1.草地与荒漠生态系统过程与变化,高等教育出版社,2019,参编
2.青海祁连山地区生态环境与小流域综合生态治理,中国林业出版社,2017,参编
3. 中国草原的生态功能研究,科学出版社,2017,参编
4.中国生态系统定位观测与研究数据集:2004-2015:草地与荒漠生态系统卷:青海海北站,中国农业出版社,2021,副主编
5.祁连山南麓高寒草甸植被-气候与生产力研究,兰州大学出版社,2023,副主编