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Details of the Faculty or Staff
Name   Fuli Wu Home Page     
Highest Education      Ph.D. Office      Building 3, Courtyard 16, Lin Cui Road, Chaoyang District, Beijing 100101P.R. China
Phone      010-84097056 Zip Code      100101
Fax      010-8409 7079 Email      wufuli@itpcas.ac.cn

Education and Appointments:

Education  

Ph. D. in Physical Geography, Lanzhou University, China, 2004 

B. S. in Geography Education, Qufu Normal University, China, 1999 

Appointments  

2007.08-present Associate Professor, Institute of Tibetan Plateau Research, CAS, China 

2004.07-2007.06 Postdoctoral Researcher, Institute of Geology and Geophysics, CAS, China 

2006.03-2006.05 Visiting Scholar, Tuebingen University, Germany 

Research Interest:

Research Interests: Ecological environmental change, Asian monsoon evolution, Desertification of Asian inland, Palaeoelevation of Tibetan Platea 

Research Fields: Cenozoic ecological environmental change 
Public Services:
 

Honors:
 
Selected Publications:
Publications in the recent 5 years (2016-2020)
Part 1: 5 representative publications 
1. Wu, F.L., 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. https://doi.org/10.1029/2018GC007775
2. Miao, Y.F.*, Wu, F.L.*, 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. https://doi.org/10.1130/G45720.1
3. Xie, Y.L., Wu, F.L.*, Fang, X.M.*, 2019. Middle Eocene East Asian monsoon prevalence over southern China: Evidence from palynological records. Global and Planetary Change. 175, 13-26. https://doi.org/10.1016/j.gloplacha.2019.01.019
4. Wu, F.L., 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. https://doi.org/10.1016/j.gloplacha.2017.09.008
5. Miao, Y.F., Wu F.L.*, 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. https://doi.org/10.1016/j.gr.2015.01.007 
Part 2: all other publications (exclude part 1)
1. 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. 
2. 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.
3. 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.
4. Wu, F.L.*, 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, 530, 190-199.
5. Mao, Z.Q., Meng, Q.Q., Fang, X.M., Zhang, T., Wu, F.L., Yang, Y.B., Zhang, W.L., Zan, J.B. and Tan, M.Q., 2019. Recognition of tuffs in the middle-upper Dingqinghu Fm., Lunpola Basin, central Tibetan Plateau: Constraints on stratigraphic age and implications for paleoclimate. Palaeogeography, Palaeoclimatology, Palaeoecology, 525, 44-56. 
6. Zhang, W.L., Fang, X.M., Song, C.H., Yan, M.D., Wang, J.Y., Zhang, Z.G., Wu, F.L., Zan, J.B., Zhang, T., Yang, Y.B., Tan, M.Q., 2019. Magnetostratigraphic constraints on the age of the Hipparion fauna in the Linxia Basin of China, and its implications for stepwise aridification. Palaeogeography, Palaeoclimatology, Palaeoecology, 537, 109413.
7. Wu, F.L., 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.
8. Zhao, Y., Wu, F.L.*, 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.
9. Yang, Y.B., Yang, R.S., Li, X., Han, W.X., Fang, X.M., Appel, E., Galy, A., Wu, F.L., Song, Y., Zan, J.B., Zhang, Z., Zhang, W.L., Ye, C.C., 2017. Glacial-interglacial climate change on the northeastern Tibetan Plateau over the last 600 kyr. Palaeogeography Palaeoclimatology Palaeoecology, 476, 181-191.
10. Yang, Y.B., Fang, X.M., Galy, A., Jin, Z.D., Wu, F.L., Yang, R.S., Zhang, W.L., Zan, J.B., Liu, X.M., Gao, S.P., 2016. Plateau uplift forcing climate change around 8.6 Ma on the northeastern Tibetan Plateau: evidence from an integrated sedimentary Sr record. Palaeogeography Palaeoclimatology Palaeoecology, 461, 418-431. 
11. Miao, Y.F., Fang, X.M., Song, C.H., Yan, X.L., Zhang, P., Meng, Q.Q., Wu, F.L., Wang, Y. 2016. Late Cenozoic fire enhancement response to aridification in mid-latitude Asia: Evidence from microcharcoal records. Quaternary Science Reviews, 139, 53-66.
12. Fang, X.M., Wang, J.Y., Zhang, W.L., Zan, J.B., Song, C.H., Yan, M.D., Appel, E., Zhang, T., Wu, F.L., Yang, Y.B., Lu, Y., 2016. Tectonosedimentary evolution model of an intracontinental flexural (foreland) basin for paleoclimatic research. Global and Planetary Change, 145, 78-97
13. Miao, Y.F., Song, C.H., Fang, X.M., Meng, Q.Q., Zhang, P., Wu, F.L., Yan, X.L., 2016. Late Cenozoic genus Fupingopollenites development and its implications for the Asian summer monsoon evolution. Gondwana Research, 29(1), 320-333.

Supported Projects:
  • 2009-2011, Neogene ecological change and the development of East Asian monsoon recorded by the sporopollen at the Tianshui Basin (40871098), NSFC
  • 2006-2010, “Cenozoic sporopollen records at the Northeast of Tibet Plateau” in the 1st Sub-Project "The Formation of Modern Geomorphology and Environmental Patterns of the Tibetan Plateau” in the “Environmental Changes on the Tibetan Plateau and Its Responses to Global Chance and Adaptability” (Grant No. 2005CB422001), Ministry of Science and Technology of China, 973
  • 2006–2009, sub-Project “Late Cenozoic sporopollen record from the deep drilling in the Qaidam Basin” in the “Records of Coupling Events of Uplift of the NE Tibetan Plateau and Environmental Change in the Qaidam-Linxia-Liupan Shan region (NE Tibetan Plateau)” (Grant No: kzcx2-yw-104). CAS Knowledge Innovation Program
  • 2006-2008, Ecological change recorded by the sporopollen from the red clay sequence on the Chinese Loess Plateau (No. 40501079), NSFC