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中国科学院亚热带农业生态研究所导师教师师资介绍简介-李峰

本站小编 Free考研考试/2021-09-02


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研究员
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changshalifeng@163.com
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研究员
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湖南长沙市芙蓉区远大二路644号
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博士,研究员,中国科学院洞庭湖湿地生态系统观测研究站副站长(CERN站),湖南省生态学会理事,中南林业科技大学兼职导师,《应用生态学报》编委。2004年毕业于聊城大学生物教育专业,获理学学士学位,2007年毕业于广西师范大学获生态学硕士学位,2010年毕业于中科院亚热带农业生态研究所获生态学博士学位。2015-2018年中科院南京地理与湖泊研究所博士后。2015-2016美国Florida Gulf Coast University访问****。主要从事湿地植被演替、湿地生态化学计量学、湿地生态恢复等方面研究。基金委通讯评审专家。先后担任青年地学论坛第三届理事、中国自然资源学会青年委员会委员、洞庭湖流域生态保护修复国家创新联盟副理事长。曾获中科院地奥奖学金、中科院青年创新促进会会员及优秀会员、湖南省121创新人才培养工程第三层次人选等荣誉称号。先后主持湖南省-国家自然科学基金委区域创新发展联合基金课题、国家自然科学基金青年及面上项目、湖南省科技支撑计划重点项目、中国科学院科技服务网络计划(STS)课题及中国科学院重点部署课题等20余项,并作为主要人员参与国家重点基础研究发展计划(973)、国家水体污染控制与治理科技重大专项、国家科技支撑计划、中国科学院知识创新工程重大项目等40余项。共发表研究论文123篇,其中SCI源刊70余篇,参编专著5部,申请发明专利4项。获湖南省科技自然科学奖二等奖一项。

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1.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)
2.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)
3.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.
4.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)
5.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. Europeon Journal of Soil Science 70:128-1140 (Corresponding author)
6.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)
7.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)
8.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.
9.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)
10.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
11.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
12.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)
13.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)
14.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
15.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
16.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
17.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
18.Gao, H., Tan, H.Z., Xie, Y.H., Zhou, M.X., Li, F., Zhu, L.L. 2016. Morphological responses to different flooding regimes in Carex brevicuspis. Nordic Journal of Botany. 34:435-441(Co-first author)
19.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
20.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.
21.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
22.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): e**.
23.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.
24.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.
25.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.
26.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.
27.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.
28.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.
29.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.
30.Zhu, L.L., Deng, Z.M., Xie, Y.H., Li, X., Li, F., Chen, X.S., Zou, Y.A., Zhang, C.Y.,Wang, W. 2021. Factors controlling Carex brevicuspis leaf litter decomposition and its contribution to surface soil organic carbon pool at different water levels. Biogeosicence. 18, 1-11.
31.Ren, Y.J., Zhu, L.L., Deng, Z.M., Xie, Y.H., Zhang, C.Y., Xiao, F.J., Chen, X.S., Li, F., Zou, Y.A., Zhang X.Y., Chen, X. 2020. Changes in methane emission and community composition of methane-cycling microorganisms along an elevation gradient in Dongting Lake floodplain, China. Atmosphere. 11,997.
32.Chen, X.R., Zhu, L.L., Xie, Y.H., Chen, X.S., Li, F., Zou, Y.A. 2020. Effects of clipping on bud bank population renegeration of Triarrhena lutarioriparia population in Dongting Lake wetland,China. Wetlands. doi.org/10.1007/s13157-020-01311-7
33.Zhang, P.Y., Zou, Y.A., Xie, Y.H., Zhang, S.Q., Chen, X.S., Li, F., Deng, Z.M., Zhang, H.,Tu, W.. 2020. Hydrology-driven responses of herbivorous geese in relation to changes in food quantity and quality. Ecology and Evolution.10:5281-5292.
34.Lan, Z.C., Chen, Y.S., Li, L., Li, F., Jin, B.S., Chen, J.K. 2019. Testing mechanisms underlying elevational patterns of lakeshore plant community assembly in Poyang Lake, China. Journal of plant ecology. 12(3):438-447
35.Xie, Y.j., Xie, Y.H., Xiao, H.Y., Chen, X.S., Li, F. 2019. The effects of siulated inundation duration and frequency on litter decomposition: a one-year experiment. Limnologica. 74: 8-13.
36.Zou, Y.A., Zhang, P.Y., Xie, Y.H., Li, F., Deng, Z.M. 2019. Crucial sites and environmental variables for wintering migratory waterbird population distributions in the natural wetlands in the East Dongting Lake, China. Science of the Total Environment. 655:147-157.
37.Chen, X.S., Li, Y.F., Cai, Y.H., Xie, Y.H., Deng, Z.M., Li, F., Hou, Z.Y. 2019. Contrasting flooding tolerance strategies in Polygonum hydropiper plants originating from low- and high-elevation habitats. Frontier in plant science. 9:1970
38.Deng Z., Chen X., Xie Y. *, Pan Y., Li F. et al. 2018. Hydrologic and edaphic controls on soil carbon emission in Dongting Lake floodplain, China. Biogeosciences. 123(9):3088-3097.
39.Hu, J.Y., Xie, Y.H., Tang,Y., Li, F., Zou, Y.A. 2018. Changes of vegetation distribution in the East Dongting Lake after the running of the Three Gorge Dam, China. Frontier in plant science.9:582.
40.Pan, B.H., Xie, Y.H., Li, F., Zou, Y.A., Deng, Z.M. 2018. Responses to sedimentation in ramet populations of the clonal plant Carex brevicuspis. Frontier in plant science. 9:512.
41.Yao, L., Chen, C.G., Liu, G.H., Li, F., Liu, W.Z. 2018. Environmental factors rather than abundance and diversity of nitrifying microorganisms control sediment nitrification rates in Yangtze lakes. RSC Advances. 8:1875.
42.Chen, X.S., Deng, Z.M., Xie, Y.H., Li, F., Hou, Z.Y., Wu, C. 2017. Concurrent effects of sediment accretion and nutrient availability on the clonal growth strategy of Carex brevicuspis: a wetland sedge that produces both spreading and clumping ramets. Frontier in Plant Science.8:1685.
43.Xie, Y.J., Xie, Y.H., Xiao, H.Y., Chen, X.S., Li, F. 2017. Controls on litter decomposition of emergent macrophyte in Dongting Lake Wetlands. Ecosystems. 20:1383-1389
44.Deng, Z.M., Xie, Y.H., Chen, X.S., Li, F., Liu, N. 2017. Effect of clone size on submergence tolerance and post-submergence growth recovery in Carex brevicuspis (Cyperaceae). Journal of Limnology. 76(1):355-361.
45.Pan, Y., Liu, C., Li, F., Zhou, C.Q., Yan, S.W., Dong, J.Y., Li, T., Duan, C.Q.. 2017. Norfloxacin disrupts Daphnia magna-induced colony formation in Scenedesmus quadricauda and facilitates grazing. Ecological Engineering. 102:255-261.
46.Chen, X.S., Liao, Y.L., Xie, Y.H., Wu, C., Li, F., Deng, Z.M., Li, X. 2017. Enhanced growth and propagation of Phalaris arundinacea following burial is related to nutrient enrichment, not sand accretion. Scientific Reports 6:39963
47.Chen, X.S., Deng, Z.M., Xie, Y.H., Li, F., Hou, Z.Y., Wu, C. 2016. Consequences of repeated defoliation on belowground bud banks of Carex brevicuspis (Cyperaceae) in the Dongting Lake wetlands, China. Frontier in Plant Science 7:1119
48.Xie, Y.J., Xie, Y.H., Hu, C., Chen, X.S., Li, F. 2016. Non-additive effects of water availability and litter quality on decomposition of litter mixtures. Journal of freshwater Ecology. 31: 153-168
49.Xie, Y.J., Xie, Y.H., Hu, C., Chen, X.S., Li, F. 2016. Interaction between litter quality and simulated water depth on decomposition of two emergent macrophytes. Journal of Limnology. 75: 36-43.
50.Chen, X.S., Li, Y.F., Xie, Y.H., Deng, Z.M., Li, X., Li, F., Hou, Z.Y. 2015. Trade-off between allocation to reproductive ramets and rhizome buds in Carex brevicuspis populations along a small-scale elevational gradient. Scientific Reports. 5:12688
51.Hu, C, Deng, Z.M., Xie, Y.H., Chen X.S., Li, F. 2015. The risk assessment of sediment heavy metal pollution in the East Dongting Lake wetland. Journal of Chemistry. ID:835487
52.Xie, Y.H., Tang, Y., Chen, X.S., Li, F., Deng, Z.M. 2015. The impact of Three Gorges Dam on the downstream eco-hydrological environment and vegetation distribution of East Dongting Lake. Ecohydrology 8:738-746
53.Chen, X.S., Li, X., Xie, Y.H., Li, F., Hou, Z.Y., Zeng, J. 2015. Combined influence of hydrological gradient and edaphic factors on the distribution of macrophyte communities in Dongting Lake wetlands, China. Wetland Ecology and Management. 23:481-490
54.Chen, X.S., Cao, C.S., Deng, Z.M., Xie, Y.H., Li, F., Hou, Z.Y., Li, X. 2015. Assessment of regeneration potential in the clonal macrophyte Miscanthus sacchariflorus (Poaceae) after burial disturbance based on bud bank size and sprouting capacity. Plos one 10(3):e**
55.Deng, Z.M., Chen, X.S., Xie, Y.H., Xie, Y.J., Hou, Z.Y., Li, F. 2015. The role of seedling recruitment from juvenile populations of Carex brevicuspis (Cyperaceae) at the Dongting Lake wetlands, China. Scientific Reports. 5:8646.
56.Chen, X.S., Deng, Z.M., Xie, Y.H., Li, F., Hou, Z.Y., Li, X. 2015. Belowground bud banks of four dominant macrophytes along a small-scale elevational gradient in Dongting Lake wetlands, China. Aquatic Botany. 122:9-14.
57.Chen, X.S., Deng, Z.M., Xie, Y.H., Li, F., Hou, Z.Y., Li, X. 2014. Effects of sediment burial disturbance on the vegetative propagation of Phalaris arundinacea with different shoot statuses. Aquatic Ecology. 48: 409-416
58.Li, Y.Z., Chen, X.S., Xie, Y.H., Li, X., Li, F., Hou, Z.Y. 2014. Effects of poplar plantations on understory plant diversity in the Dongting Lake wetlands. Scientific Reports. 4:6339.
59.Chen, X.S., Deng, Z.M., Xie, Y.H., Li, F., Li, X. 2014. Differential growth and vegetative reproduction by two co-occurring emergent macrophytes along a water table gradient. Pakistan Journal of Botany. 46(3):881-886.
60.Chen, X.S., Deng, Z.M., Xie, Y.H., Li, F., Hou, Z.Y., Li, X. 2014. Demography of Rhizome Population of Carex brevicuspis (Cyperaceae): a Wetland Sedge Produces both Elongated and Shortened Rhizomes. Nordic Journal of Botany. 32:251-256.
61.Qin, X.Y., Li, F., Chen, X.S., Xie, Y.H. 2013. The responses of growth and non-structural carbohydrate to submergence and de-submergence in three emergent macrophytes from Dongting Lake wetlands. Acta Physiologiae Plantarum. 35:2069-2074.
62.Deng, Z.M., Chen, X.S., Xie, Y.H., Pan, Y., Li, F., Hou, Z.Y., Li, X., Xie, Y.J. 2013. Plasticity of the clonal growth in the wetland sedge Carex brevicuspis along a small-scale elevation gradient in Dongting Lake wetlands, China. Ann. Bot. Fennici. 50: 151-159.
63.Deng, Z.M., Chen, X.S., Xie, Y.H., Li, X., Pan, Y., Li, F. 2013. Effects of size and vertical distribution on bud sprouting and plan growth of the clonal emergent macrophyte Miscanthus sacchariflorus (Poaceae). Aquatic Botany. 104:121-126.
64.Pan, Y., Xie, Y.H., Li, F., Pan, B. H. 2012. Morphological and physiological responses to burial depth and sediment type in the wetland macrophyte Miscanthus sacchariflorus. Fundamental & Applied Limnology. 180(3):271-277.
65.Pan, Y., Xie, Y.H., Chen, X.S., Li, F. 2012. Effects of flooding and sedimentation on the growth and physiology of two emergent macrophytes from Dongting Lake. Aquatic Botany, 100: 35-40.
66.Chen, X.S., Xie, Y.H., Deng, Z.M., Li, F., et al. 2011. A change from phalanx to guerrilla growth form is an effective strategy to acclimate to sedimentation in a wetland sedge species Carex brevicuspis (Cyperaceae). Flora. 206: 347-350.
67.Luo, W., Xie, Y., Chen, X., Li, F., Qin, X. 2010. Competition and facilitation in three marsh plants in response to a water-level gradient. Wetlands,30: 525-530
68.Xie, Y., Ren, B., Li, F. 2008. Increased nutrient supply facilitates acclimation to high water level in the marsh plant Deyeuxia angustifolia: the response of root morphology. Aquatic Botany, 91:1-5.
69.Xie, Y., Luo, W., Ren, B., Li, F. 2007. Morphological and Physiological Responses to Sediment Type and Light Availability in Roots of the Submerged Plant Myriophyllum spicatum. Annals of botany, 100(7): 1517-1523.
参编著作:
1.谢永宏,陈心胜,李峰等. 2019. 洞庭湖洪泛湿地生态过程与变化. 见秦伯强主编:水域生态系统过程与变化.高等教育出版社. p169-214
2.李峰. 湿地生态系统结构与过程. 2019. 见谢永宏,张琛,蒋勇主编:湿地生态修复技术与模式. 中国林业出版社
3.梁士楚,胡刚,张忠华,李峰,甘肖梅,廖盛夏,杨红兰,王丽君. 2018. 桂林岩溶石山常见木本植物生态学研究. 科学出版社
4.李峰. 洞庭湖水资源状况,洞庭湖植被生态与格局演变 . 2014. 见谢永宏,张琛,蒋勇主编:洞庭湖湿地生态环境. 湖南科学技术出版社.
5.谢永宏,李峰. 2012. 沉水植物水生态过程与机理. 见邓伟,白军红主编《湿地系统水生态过程与格局耦合机理》. 科学出版社.

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1.湖南省-国家自然科学基金委区域创新发展联合基金课题:洞庭湖流域景观格局变化及对水生态服务影响及机理(课题负责人,U19A2051,2020-2023)
2.国家自然科学基金面上项目:基于生态化学计量学的洞庭湖湿地植被演替规律及水文驱动机制(**,2016-2019)
3.国家自然科学基金青年项目:洞庭湖典型群落交错带植被动态及群落维持机制(**,2013-2015)
4.中国科学院青年创新促进会优秀会员项目:洞庭湖湿地演变生态环境效应及退化风险评估. (Y201861, 2019-2021)
5.中国科学院科技服务网络计划(STS)课题:洞庭湖站利用绿狐尾藻去除城镇生活污水示范项目(KFJ-EW-ZY-006 , 2015-2016)
6.中国科学院重点部署项目专题:洞庭湖生态系统服务变化评估(KFZD-SW-318, 2018-2019)
7.中国科学院青年创新促进会项目:洞庭湖典型水文情势对湿地植被种间关系的影响及调控机理. (**, 2014-2017)
8.湖南省高新技术产业科技创新引领计划课题:洞庭湖湖滨带污染物生态拦截关键技术及示范(课题负责人,2020SK2019, 2021-2023)
9.湖南省重大水利科技项目课题: 洞庭湖生态环境水文驱动效应研究(XSKJ**-05, 2020-2023).
10.湖南省科技支撑计划重点项目:洞庭湖湖洲滩地养殖容量评估及植物资源化利用关键技术(2014NK2009,2014-1016)
11.中国科学院知识创新工程领域前沿项目:洞庭湖次生裸地湿地植被演替特征及其调控机理研究(ISACX-LYQY-QN-1208, 2013-2015)
12.益阳市林业局:湖南益阳南洞庭湖自然保护区岸线、洲滩及缓冲区、实验区生态修复工程实施方案编制(YYZFCG-2020-011,2020-2020)
13.长沙市重点研发项目:长沙市湿地景观格局及生态服务功能演变及驱动机制(kq**, 2019-2021)
相关话题/亚热带农业生态研究所 中国科学院