中文 |
Faculty

Li FengPh.D, Professor

Positions:

Phone:(86)-731-84619739

Fax:(86)-731-84612685

E-mail:changshalifeng@163.com

Resume
 Li Feng, born in 1981, received his Ph.D degree from Institute of Subtropical Agriculture, the Chinese Academy of Sciences in 2010. Now, He is a professor of Institute of Subtropical Agriculture, CAS. His research interests are focused on succession, diversity and competition of wetland plants. In recent years, he is undertaking several national projects mainly on wetland ecology, such as the National Natural Science Funds, The Knowledge Innovation Program of the Institute of Subtropical Agriculture, CAS. Based on these researches, he has published more than 40 papers, which including 11 papers indexed by SCI.
Direction
 
Current project
1. National Natural Science Foundation of China: vegetation dynamic and community maintaining mechanism in typical community ecotones in the Dongting Lake(31200271),2013-2015.
2. The Knowledge Innovation Program of the Institute of Subtropical Agriculture, CAS: Characteristics of succession and its regulating mechanisms of wetland plants in the secondary bare land of Dongting Lake(ISACX-LYQY-QN-1208),2012-2014.
3. State Key Laboratory of Lake Science and Environment: successful colonization and its regulating mechanisms of wetland plant in the secondary bare land of Dongting Lake(2012SKL010), 2013-2014.
Community service
 
Achievements
 
Article

1.Hu, C., Xu, C.H., Hu, G., Zhang, Z.H., Li, F.*, Xie, Y.H.. 2023. Effect of water level and submergence time on leaf growth, stoichiometry and homeostasis of Carex brevicuspis. Applied Ecology and Environmental Research.21(1):623-635.( Corresponding author)

2.Geng, M.M., Niu, Y.D., Liao, X.H., Wang, K.L., Yang, N., Qian, Z., Li, F.*, Zou, Y.A., Chen, X.S., Deng, Z.M., Xie, Y.H.. 2022. Inter- annual and intra-annual variations in water quality and its response to water level fluctuations in a river-connected lake, Dongting Lake, China. Environmental Science and Pollution Research. 29:14083-14097(Corresponding author)

3.Geng, M.M., Wang, K.L., Yang, N., Qian, Z., Li, F.*, Zou, Y.A., Chen, X.S., Deng, Z.M., Xie, Y.H.. 2021. Is water quality better in wet years or dry years in river-connected lakes? A case study from Dongting Lake, China. Environmental pollution. 290:118115 (Corresponding author)

4.Geng, M.M., Wang, K.L., Yang, N., Li, F.*, Zou, Y.A., Chen, X.S., Deng, Z.M., Xie, Y.H.. 2021. Spatiotemporal water quality variations and their relationship with hydrological conditions in Dongting Lake after operation of the Three Gorge Dam, China. Journal of Cleaner Production. 283:124644(Corresponding author)

5.Geng, M.M., Wang, K.L., Nan, Yang, Li, F.*, Zou, Y.A., Chen, X.S., Deng, Z.M., Xie, Y.H.. 2021. Evaluation and variation trends analysis of water quality in respones to water regime changes in a typical river-connected lake(Dongting Lake), China. Environmental pollution. 268:115761.( Corresponding author)

6.Geng, M.M., Li, F., Gao, Y., Li, Z.Z., Chen, X.S., Deng, Z.M., Zou, Y.A., Xie, Y.H., Wang, Z.Q.. 2021. Wetland area change from 1986-2016 in the Dongting lake watershed at the sub-watershed scale. Pol. J. Environ. Stud. 30(2):1-10. .(Co-first author)

7.Hu, C., Li, F., Nan Yang, Xie, Y.H., Liu, W.Z., Chen, X.S., Deng, Z.M., Fu, X.H. 2020. Testing the growth rate hypothesis with two wetland macrophytes under different water level and sediment type conditions. Frontier in Plant Science. 11:1191.(Co-first author)

8.Hu, C., Li, F.*, Xie, Y.H., Deng, Z.M., Hou, Z.Y., Li, X. 2019. Spatial distribution pattern and stoichiometry of soil carbon, nitrogen, and phosphorus along elevation gradient in wetlands, China. European Journal of Soil Science 70:128-1140 (Corresponding author)

9.Wu, H.P., Li, F., Hao, B.B., Zhou, W., Xing, W., Liu, W.Z., Liu, G.H. 2019. Does hydrological reconnection enhance nitrogen cycling rates in lakeshore wetlands of a eutrophic lake? Ecological Indicator. 96:241-249.(Co-first author)

10.Liu, W.Z, Jiang, X.L., Zhang, Q.F., Li, F.*, Liu, G.H. 2018. Has submerged vegetation loss altered sediment denitrification, N2O production and denitrifying microbial communities in subtropical lakes? Global Biogeochemical Cycles. 32: 1195-1207. (Corresponding author)

11.Li, F., Hu, C., Xie, Y.H., Liu, W.Z., Chen, X.S., Deng, Z.M. 2018. Influence of different P enrichment frequency on plant growth and plant C:N:P in a P-limited subtropical lake wetland, China. Frontier in Plant Science. 9:1608

12.Fu, X.H., Li, F.*, Zhu, L.L., Xie Y.H., Hu, C., Chen, X.S., Deng, Z.M. 2018. Change in ecological stoichiometry of Carex brevicuspis in response to sampling time and elevation in Dongting Lake, China. Nordic Journal of Botnay. e01821 (Corresponding author)

13.Li, F., Hu, J.Y., Xie Y.H., Yang, G.S., Hu, C., Chen, X.S., Deng, Z.M.. 2018. Foliar carbon, nitrogen and phosphorus stoichiometry of Carex brevicuspis along a small-scale elevation gradient. Ecological Indicator. 92:322-329

14.Li, F., Yang, N., Zhu, L.L., Xie Y.H., Yang, G.S., Hu, C., Chen X.S., Deng Z.M. 2018. Competition and facilitation of two typical wetland macrophytes under different water level and nutrient heterogeneous conditions. Freshwater Science. 37(2):296-306

15.Hu, C., Li, F., Xie, Y.H., Deng, Z.M., Chen, X.S. 2018. Soil carbon, nitrogen and phosphorus stoichiometry of three dominate plant communities distributed along a small-scale elevation gradient in the East Dongting Lake. Physics and Chemistry of the Earth. 103: 28-34.(Co-first author)

16.Bai, Y.P., Li, F., Yang, G., Shi, S.W., Dong, F.Q., Liu, M.X., Nie, X.Q., Hai, J.B. 2018. Meta-analysis of experimental warming on soil invertase and urease activities. Acta Agriculture Scandinavia, Section B - Plant Soil Science 68:104-109(Co-first author)

17.Li, F., Gao, H., Zhu, L.L., Xie Y.H., Yang, G.S., Hu, C., Chen, X.S., Deng, Z.M. 2017. Foliar nitrogen and phosphorus stoichiometry of three wetland plants distributed along an elevation gradient in Dongting Lake, China. Scientific Reports. 7:2820

18.Li, F., Xie Y.H., Yang, G.S., Zhu, L.L., Hu, C., Chen X.S., Deng Z.M. 2017. Interactive influence of water level, nutrient heterogeneity and plant density on the growth performance and root characteristics of Carex brevicuspis. Limnologica. 62:111-117

19.Li, F., Zhu, L.L., Xie Y.H., Liang S.C., Hu, C., Chen, X.S., Deng, Z.M. 2016. Fragment growth performance of the invasive submerged macrophyte Myriophyllum spicatum under conditions of different water depths and sediment types. Aquatic Ecology. 50(4): 727-734

20.Li, F., Qin Y.Y., Zhu, L.L., Xie Y.H., Liang S.C., Hu, C., Chen, X.S., Deng, Z.M. 2016. Effects of fragment size and sediment heterogeneity on the colonization and growth of Myriophyllum spicatum. Ecological Engineering. 95: 457-462

21.Li, F., Pan, Y., Xie Y.H., Chen X.S., Deng, Z.M., Li, X., Hou, Z.Y., Tang, Y. 2016. Different role of three emergent macrophytes in promoting sedimentation in the Dongting Lake, China. Aquatic sciences. 78: 159-169

22.Li, F., Yang, G.., Xie Y.H., Chen X.S., Deng Z.M., Hu J.Y. 2015. Competition between two wetland macrophytes under different levels of sediment saturation. Journal of Limnology. 74(3):623-630.

23.Li, F., Zhu, L.L., Xie Y.H., Jiang, L., Chen, X.S., Deng Z.M., Pan, B.H. 2015. Colonization by fragments of the submerged macrophyte Myriophyllum spicatum under different sediment type and density conditions. Scientific Reports. 5. 11821.

24.Li, F., Xie Y.H., Zhu L.L., Jiang, L., Chen X.S., Pan B.H., Deng Z.M. 2015. Changed clonal growth form induced by sand burial facilitates Carex brevicuspis to acclimate to competition Plos one .10(3): e0121270.

25.Li, F., Xie Y.H., Zhang C., Chen X.S., Song B.B., Li, Y.Z., Tang, Y., Hu J.Y. 2014. Increased density facilitates plant acclimation to drought stress in the emergent macrophyte Polygonum hydropiper. Ecological Engineering.71: 66-70.

26.Li, F., Xie Y.H., Tang Y., Liu Y.Y., Chen X.S., Deng Z.M. , Hu J.Y., Liu N. 2014. Negative influence of burial stress on plant growth was ameliorated by increased plant density in Polygonum hydropiper. Limnologica. 45: 33-37.

27.Li, F., Xie Y.H., Chen X.S., Hou Z.Y., Li X., Deng Z.M. , Liu Y.Y., Hu J.Y., Liu N. 2013. Succession of aquatic macrophytes in the Modern Yellow River Delta after permanent alluviation over 150 year. Wetland Ecology and Management.21:219-228.

28.Li, F., Qin, X.Y., Xie, Y.H., Chen, X.S., Hu, J.Y., Hou, Z.Y. 2013. Physiological mechanisms for plant distribution pattern: responses to flooding and drought in three wetland plants from Dongting Lake, China. Limnology. 14:71-76.

29.Li, F., Xie Y., Chen, X.S., Pan, Y., Deng, Z.M., Li, X. 2011. Plant distribution can be reflected by physiological responses to salinity of three submerged macrophytes from the Modern Yellow River Delta. Fundamental & Applied Limnology.179:159-167.

30.Li, F., Li Y., Qin, H.., Xie, Y. 2011. Plant distribution can be reflected by the different growth and morphological responses to water level and shade in two emergent macrophyte seedlings in the Sanjiang Plain. Aquatic Ecology. 45:89-97.

31.Li, F., Xie, Y.. 2009. Spacer elongation and plagiotropic growth are the primary clonal strategies used by Vallisneria spiralis to acclimate to sedimentation. Aquatic Botany, 91:219- 223.