1. Wu, F.L., Fang, X.M.*, Yang, Y.B. et al., 2022. Reorganization of Asian climate in relation to Tibetan Plateau uplift. Nature Reviews Earth & Environment. https://doi.org/10.1038/s43017-022-00331-7.
2. Xie, Y., Wu, F.L.*, Fang, X.M.*, 2022. Late Eocene onset of the East Asian Monsoon in the Qingjiang Basin of Central Jiangxi Province (Southeast China) revealed by a major vegetation transition from desert to forest. Palaeogeography, Palaeoclimatology, Palaeoecology, 602, 111179
3. Zhao, Y., Wu, F.L.*, Fang, X.M., Meng, Q.Q., Cai, D.H. 2022. Global climate change drove terrestrial ecosystem evolution during the late Paleocene-middle Miocene in the Lanzhou Basin, northeast Tibetan Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology, 598, 111045
4. Xie, Y.L., Wu, F.L.*, Fang, X.M., 2022. A transient south subtropical forest ecosystem in central China driven by rapid global warming during the Paleocene-Eocene Thermal Maximum. Gondwana Research, 101, 192-202.
5. Xie, Y.L., Wu, F.L.*, Fang, X.M.*, 2022. Abrupt collapse of a swamp ecosystem in northeast China during the Paleocene-Eocene Thermal Maximum. Palaeogeography, Palaeoclimatology, Palaeoecology, 595, 1-12.
6. Wu, F.L.*, Fang, X.M. and Miao, Y.F. 2020. Aridification history of the West Kunlun Mountains since the mid-Pleistocene based on sporopollen and microcharcoal records. Palaeogeography, Palaeoclimatology, Palaeoecology. 547, 109680.
7. Xie, Y.L., Wu, F.L.*, Fang, X.M.*, 2020. A major environmental shift by the middle Eocene in southern China: Evidence from palynological records. Review of Palaeobotany and Palynology. 278, 104226.
8. Xie, Y.L., Wu, F.L.*, Fang, X.M.*, Zhang, D.W., Zhang, W.L. 2020. Early Eocene southern China dominated by desert: Evidence from a palynological record of the Hengyang Basin, Hunan Province. Global and Planetary Change, 195, 103320.
9. Wu, Fuli*, Gao, S.J., Tang, F.J., Meng, Q.Q., An, C.R.*, 2019. A late Miocene-early Pleistocene palynological record from the Yunnan Plateau and its climatic and tectonic implications for the Eryuan Basin, China. Palaeogeography,Palaeoclimatology, Palaeoecology, doi: org/10.1016/j.palaeo.2019.05.037
10. Miao, Y.F.*, Wu, Fuli*, Fang, X.M., Lu, H.J., Fu, B.H., Song, C.H., Yan, X.L., Escargurl, G., Yang, Y.B., Meng, Q.Q., Shi, P.L., 2019. Miocene fire intensification linked to continuous aridification across Inner Asia. Geology, 47, 1-5.
11. Wu, Fuli*, Miao, Y.F., Meng, Q.Q., Fang, X.M., Sun, J.M., 2019. Late Oligocene Tibetan Plateau warming and humidity: evidence from a sporopollen record Geochemistry, Geophysics, Geosystems, 20, 434-441.
12. Xie, Y.L., Wu, Fuli*, Fang, X.M.*, 2019. Middle Eocene East Asian monsoon prevalence over southern China: Evidence from palynological records. Global and Planetary Change, 175: 13-26.
13. Wu, Fuli*, Zhao, Y., Fang, X.M., Meng, Q.Q., 2018. An ecological response to the Eocene/Oligocene transition revealed by the δ13CTOC record, Lanzhou Basin, NE Tibetan Plateau. Journal of Asian Earth Sciences, 159: 74-80.
14. Wu, Fuli, Fang, X.M.*, Meng, Q.Q., Zhao, Y., Tang, F.J., Zhang, T., Zhang, W.L., Zan, J.B., 2017. Magneto- and litho-stratigraphic records of the Oligocene-Early Miocene climatic changes from deep drilling in the Linxia Basin, Northeast Tibetan Plateau. Global and Planetary Change, 158: 36-46.
15. Zhao, Y., Wu, Fuli*, Fang, X.M., Yang, Y.B., 2017. Altitudinal variations in the bulk organic carbon isotopic composition of topsoil in the Qilian Mountains area, NE Tibetan Plateau, and its environmental significance. Quaternary International, 454: 45-55.
16. Miao, Y.F., Wu, Fuli*, Chang, H., Fang, X.M., Deng, T., Sun, J.M., Jin, C.S., 2016. A Late-Eocene palynological record from the Hoh Xil Basin, northern Tibetan Plateau, and its implications for stratigraphic age, paleoclimate and paleoelevation. Gondwana Research, 31: 241-252.
17. Zhao, Y., Wu, Fuli*, Fang, X.M., Yang, Y.B., 2015. Topsoil C/N ratios in the Qilian Mountains area: Implications for the use of subaqueous sediment C/N ratios in paleo-environmental reconstructions to indicate organic sources. Palaeogeography, Palaeoclimatology, Palaeoecology, 426: 1-9.
18. Wu, Fuli*, Mark, H, Fang, X.M., 2014. Early Pliocene paleo-altimetry of the Zanda Basin indicated by a sporopollen record. Palaeogeography, Palaeoclimatology, Palaeoecology, 412: 261-268.
19. Wu, Fuli, Fang, X.M.*, An, C.R., Herrmann, M., Zhao, Y., Miao, Y.F., 2013. Over-representation of Picea pollen induced by water transport in arid regions, Quaternary International, 298: 134-140.
20. Miao, Y.F., Wu, Fuli*, Herrmann, M., Yan, X.L., Meng, Q.Q., 2013. Late early Oligocene East Asian summer monsoon in the NE Tibetan Plateau: Evidence from a palynological record from the Lanzhou Basin, China. Journal of Asian Earth Sciences, 75: 46-57.
21. Wu, Fuli, Fang, X.M.*, Mark, H., Mosbrugger, V., Miao, Y.F., 2011. Extended drought in the interior of Central Asia since the Pliocene reconstructed from sporopollen records. Global and Planetary Change, 76: 16-21.
22. Wu, Fuli, Fang, X.M.*, Miao, Y.F., Dong, M., 2010. Environmental indicators from comparison of sporopollen in early Pleistocene lacustrine sediments from different climatic zones. Chinese Science Bulletin, 55(26): 2981-2988.
23. Wu, Fuli, Fang, X.M.*, Ma, Y.Z., Herrman, M., Mosbrugger, V., An, Z.S., Miao, Y.F., 2007. Plio-Quaternary stepwise drying of Asia: Evidence from a 3-Ma pollen record from the Chinese Loess Plateau, Earth Planetary Sciences Letter, 257: 160-169.
24. Wu, Fuli*, Fang, X.M, Ma, Y.Z, An, Z.S., Li, J.J., 2004. A 1.5 Ma sporopollen record of paleoecologic environment evolution in the central Chinese Loess Plateau. Chinese Science Bulletin, 49 (3): 295-302.