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Details of the Faculty or Staff
Name   Qinfeng Ma Home Page     
Highest Education      Office      Building 3, Courtyard 16, Lincui Road, Chaoyang District, Beijing 100101, China
Phone      Zip Code     
Fax      Email      maqingfeng@itpcas.ac.cn

Education and Appointments:
Education 
Ph.D. Institute of Tibetan Plateau Research, Chinese Academy of Sciences, 2014
B. S. School of Geography and Tourism, Qufu Normal University, 2008
Appointments
Associate Professor, Key Laboratory of Tibetan Environment Changes and Land Surface Processes, Institute of Tibetan Plateau Research, Chinese Academy of Sciences, 2020-present
Post-Doctoral Fellow/Special Research Assistant, Institute of Tibetan Plateau Research, Chinese Academy of Sciences, 2020

Research Interest:
Research Interests: Paleoclimate and paleovegetation reconstruction, Paleolimnology, Palynology
Research Fields: Quaternary environment evolution, Lake's Sedimentology
Public Services:
 

Honors:
 
Selected Publications:

1. Ma QF, Zhu LP*, Wang JB, Ju JT, Wang Y, Lü XM, Kasper T, Haberzettl T. 2020. Late Holocene vegetation responses to climate change and human impact on the central Tibetan Plateau. Science of the Total Environment, 708 (135370): 1-10. 

2. Li J, Zhu LP, Li MH, Wang JB, Ma QF. 2020. Origin of modern dolomite in surface lake sediments on the central and western Tibetan Plateau. Quaternary International, 544:65-75. 

3. Wang JB, Huang L, Ju JT, Daut G, Ma QF, Zhu LP, Haberzettl T, Baade J, Mousbacher R, Hamilton A, Graves K, Olsthoorn J, Laval BE. 2020. Seasonal stratification of a deep, high-altitude, dimictic lake: Nam Co, Tibetan Plateau. Journal of Hydrology, 584, 124668. 

4. Ma QF*, Zhu LP, Lü XM, Wang JB, Ju JT, Kasper T, Daut G, Haberzettl T. 2019. Late glacial and Holocene vegetation and climate variations at Lake Tangra Yumco, central Tibetan Plateau. Global and Planetary Change, 174: 16-25. 

5. Gyawali AR, Wang JB, Ma QF, Wang Y, Xu T, Guo Y, Zhu LP. 2019. Paleo-environmental change since the Late Glacial inferred from lacustrine sediment in Selin Co, central Tibet. Palaeogeography, Palaeoclimatology, Palaeoecology, 516: 101-112. 

6. Xu T, Zhu LP, Lü XM, Ma QF, Wang JB, Ju JT, Huang L. 2019. Mid- to late-Holocene paleoenvironmental changes and glacier fluctuations reconstructed from the sediments of proglacial lake Buruo Co, northern Tibetan Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology, 517: 74-85. 

7. Chen H, Zhu LP, Ju JT, Wang JB, Ma QF. 2019. Temporal variability of 14C reservoir effects and sedimentological chronology analysis in lake sediments from Chibuzhang Co, North Tibet (China). Quaternary Geochronology, 52:88-102. 

8. Qiao BJ, Zhu LP,W ang JB, Ju JT, Ma QF, Huang L, Chen H, Liu C, Xu T. 2019. Estimation of lake water storage and changes based on bathymetric data and altimetry data and the association with climate change in the central Tibetan Plateau. Journal of Hydrology, 578:124052. 

9. Wang JB, Huang L, Ju JT, Daut G, Wang Y, Ma QF, Zhu LP, Haberzettl T, Baade J, Mousbacher R. 2019. Spatial and temporal variations in water temperature in a high-altitude deep dimictic mountain lake (Nam Co), central Tibetan Plateau. Journal of Great Lakes Research, 45 (2): 212-223. 

10. Zhu LP, Wang JB, Ju JT, Ma N, Zhang YS, Liu C, Han BP, Liu LS, Wang MD, Ma QF. 2019. Climatic and lake environmental changes in the Serling Co region of Tibet over a variety of timescales. Science Bulletin, 64: 422-424. 

11. Ma QF*, Zhu LP, Lü XM, Wang Y, Guo Y, Wang JB, Ju JT, Peng P, Tang LY. 2017. Modern pollen assemblages from surface lake sediments and their environmental implications on the southwestern Tibetan Plateau. Boreas, 46: 242-253. 

12. Ma QF*, Zhu LP, Wang JB, Ju JT, Lü XM, Wang Y, Guo Y, Yang RM, Kasper T, Haberzettl T, Tang LY. 2017. Artemisia/Chenopodiaceae ratio from surface lake sediments on the central and western Tibetan Plateau and its application. Palaeogeography, Palaeoclimatology, Palaeoecology, 479: 138-145. 

13. Yang RM, Zhu LP, Wang JB, Ju JT, Ma QF, Falko T, Guo Y. 2017. Spatiotemporal variations in volume of closed lakes on the Tibetan Plateau and their climatic responses from 1976 to 2013. Climatic change, 140: 621-633. 

14. Qiao BJ, Zhu LP, Wang JB, Ju JT, Ma QF, Liu C. 2017. Estimation of lakes water storage and their changes on the northwestern Tibetan Plateau based on bathymetric and Landsat data and driving force analyses. Quaternary International, 454: 56-67. 

15. Wang JB, Zhu LP, Wang Y, Peng P, Ma QF, Haberzettl T, Kasper T, Matsunaka T, Nakamura T. 2017. Variability of the 14C reservoir effects in Lake Tangra Yumco, Central Tibet (China), determined from recent sedimentation rates and dating of plant fossils. Quaternary International, 430: 3-11. 

16. Wang Y, Wang JB, Zhu LP, Lin X, Hu JF, Ma QF, Ju JT, Peng P, Yang RM. 2017. Mid- to late-Holocene paleoenvironmental changes inferred from organic geochemical proxies in Lake Tangra Yumco, Central Tibetan Plateau. The Holocene, 27(10): 1475-1486. 

17. Ju JT, Zhu LP, Wang JB, Cui YY, Huang L, Yang RM, Ma QF, Luo L, Wang YJ. 2017. Estimating the contribution of glacial meltwater to Ranwu Lake, a proglacial lake in SE Tibet, using observation data and stable isotopic analyses. Environmental Earth Sciences, 76: 229. 

18. Guo Y, Zhu LP, Peter F, Ma QF, Ju JT, Peng P, Wang JB, Daut G. 2016. Holocene lake level fluctuations and environmental changes at Taro Co, southwestern Tibet, based on ostracod-inferred water depth reconstruction. The Holocene, 26(1): 29-43. 

19. Turner F, Zhu LP, Lü XM, Peng P, Ma QF, Wang JB, Hou JZ, Lin QQ, Yang RM, Frenzel P. 2016. Pediastrum sensu lato (Chlorophyceae) assemblages from surface sediments of lakes and ponds on the Tibetan Plateau. Hydrobiologia, 771: 101-118. 

20. Zhu, L.P., Ma, Q.F., Zhang, J.F., Guo, Y., Liang, E.Y., Zhu, H.F., Wang, J.B., Lü, X.M., Wang, Y., 2016. Chapter23 Records of Environmental Changes in Physical Geography. In: Leng, S.Y. et al. (eds), Geographical Sciences During 1986–2015, Springer, pages 481-494 

21. Ma QF*, Zhu LP*, Lü XM, Guo Y, Ju JT, Wang JB, Wang Y, Tang LY. 2014. Pollen-inferred Holocene vegetation and climate histories in Taro Co, southwestern Tibetan Plateau. Chinese Science Bulletin, 59(31): 4101-4114. 

22. Hu X, Zhu LP, Wang Y, Wang JB, Peng P, Ma QF, Hu JF, Lin X. 2014. Climatic significance of n-alkanes and their compound-specific δD values from lake surface sediments on the Southwestern Tibetan Plateau. Chinese Science Bulletin, 59 (24): 3022-3033. 

23. Tang LY, Mao LM, Lü XM, Ma QF, Zhou ZZ, Yang CL, Kong ZC, Batten DJ. 2013. Palaeoecological and palaeoenvironmental significance of some important spores and micro-algae in Quaternary deposits. Chinese Science Bulletin, 58 (25): 3125-3139.


Supported Projects:

1. 2016-2018, “Modern pollen climatic significance from the Midwestern Tibetan Plateau and quantitative paleoclimate reconstruction on the Lake Taro Co”, grant no 41501223, National Natural Science Foundation of China Youth Foud, PI.