研究员(二级),博士生导师,副所长。国务院特殊津贴专家。1997年7月毕业于湖南农业大学获农学学士学位,2000年7月获蔬菜学硕士学位,2003年7月毕业于武汉大学获植物学博士学位,2005年6月于南京大学生物学博士后出站,2006年3-6月在澳大利亚Flinders大学从事高级访问研究。现任洞庭湖国家野外站站长,兼任中国生态学会湿地专委会副主任委员、中国地理学会长江分会副主任委员、中国环境学会湿地环境分会副主任委员、湖南省生态学会副理事长等。《湿地科学》副主编,《地理科学》、《湖泊科学》等期刊编委。长期从事湿地科学研究。近年来主持国家基金重点和面上、国家基础性工作专项、国家科技支撑计划项目、国际合作等项目40余项。获得省部级科技奖励2项(排名第一1项);发表论文180余篇(其中SCI 110余篇),主编或合作出版专著14部,获发明专利授权14项,被中办/省委省政府采纳的咨询建议8份。
研究兴趣:湿地格局的维持机制;湿地生态修复
联系方式:0731-84615501;xyh@isa.ac.cn
1.谢永宏,薛萍 主编. 2022. 洞庭湖湿地生态环境状况(2015-2020). 长沙:湖南科技出版社
2.谢永宏,张 琛,蒋 勇,编著. 2019.湿地生态恢复技术与模式. 北京:中国林业出版社
3.谢永宏,张 琛,蒋 勇,编著. 2014. 洞庭湖湿地生态环境演变. 长沙:湖南科技出版社
4.Xie YJ, Li F, Xie YH*. 2023. Contrasting global patterns and trait controls of major mineral elements in leaf. Global Ecology and Biogeography, 8, 1452-1461.
5.Zhang PY, Zhang SQ, Zou YA*, Wu T, Li F, Deng ZM, Zhang H, Song YC, Xie YH*. 2023. Integrating suitable habitat dynamics under typical hydrological regimes as guides for the conservation and restoration of different waterbird groups. Journal of Environmental Management, 345, 118451.
6.Zhu LL, Deng ZM*, Xie YH*, Zhang CY, Chen XR, Li X, Li F, Chen XS, Zou YA, Wang W. 2022. Effects of hydrological environment on litter carbon input into the surface soil organic carbon pool in the Dongting Lake floodplain. Catena, 208, 105761.
7.Zhu F, Zou YA, Zhang PY, Zhang SQ, Chen XS, Li F, Deng ZM, Zhang H, Yu ZB, Zhu XY, Xie YH*, Zou DS. 2022. Dyke demolition led to a sharp decline in waterbird diversity due to habitat quality reduction: A case study of Dongting Lake, China. Ecology and Evolution,12, e8782
8.Huang Y, Chen XS, Zou YA, Zhang PY, Li F, Hou ZY, Li X, Zeng J, Deng ZM, Zhong JR, Xie YH*. 2022. Exploring the relative contribution of flood regimes and climatic factors to Carex phenology in a Yangtze River-connected floodplain wetland. Science of the Total Environment,847,157568.
9.Huang Y, Chen XS, Li F, Hou ZY, Li X, Deng ZM, Zou YA, Xie YH*. 2022. Concurrent effects of flooding regimes and floodwater quality on sedimentproperties in a Yangtze River-connected floodplain wetland: Insights from field investigations during 2011–2020. Science of the Total Environment,827,154225.
10.Chen XS, Huang Y, Cai YH, Hou ZY, Deng ZM, Li F, Zou YA, Xie YH*. 2022. Belowground seed and bud banks play complementary roles in the potential recruitment of dominant macrophyte communities in a Yangtze River-connected floodplain wetland. Frontiers in Plant Sciences,13:1075496
11.Zhu LL Deng ZM*, Xie YH*, Li X, Li F, Chen XS, Zou Y, Zhang CY, Wang W, 2021. Factors controlling Carex brevicuspis leaf litter decomposition and its contribution to surface soil organic carbon pool at different water levels. Biogeosciences, 18, 1-11.
12.Zhang SQ, Zhang PY, Pan BH, Zou Y, Xie YH*, Zhu F, Chen XS, Li F, Deng ZM, Zhang H, Yang S. 2021. Wetland restoration in the east Dongting Lake effectively increased water bird diversity by improving habitat quality. Global Ecology and Conservation. 01535.
13.Huang Y, Chen XS, Li F, Hou ZY, Li X, Zeng J, Deng ZM, Zou Y, Xie YH*. 2021. Community trait responses of three dominant macrophytes to variations in flooding during 2011-2019 in a Yangtze River-connected floodplain wetland (Dongting Lake, China). Frontiers in Plant Sciences. 12: 604677.
14.Zhang PY, Zou Y, Xie YH*, Zhang SQ, Zhu F, Chen XS, Li F, Deng ZM, Yao Y, SongYC. 2021. Phenological mismatch caused by water regime change may explain the population variation of the vulnerable lesser white-fronted goose in east Dongting Lake, China. Ecological Indicators 127: 107776.
15.Zhu LL, Deng ZM, Xie YH*, Zhang CY, Chen XR, Li X, Li F, Chen XS, Zou Y, Wang W. 2021. Effects of hydrological environment on litter carbon input into the surface soil organic carbon pool in the Dongting Lake floodplain. Catena, 208: 105761.
16.Geng MM, Wang KL, Yang N, Qian Z, Li F, Zou Y, Chen XS, Deng ZM, Xie YH*. 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.
17.Chen XR, Zhu LL, Deng ZM, Xie YH*, Zou Y. 2020. Effects of Clipping on Bud Bank and Population Regeneration of Triarrhena lutarioriparia in Dongting Lake Wetland, China. Wetlands, 40: 2635–2642.
18.Geng MM, Wang KL, Yang N, Li F, Xie YH*. 2020. 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.
19.Geng MM, Wang KL, Yang N, Li F*, Zou YA, Chen XS, Deng ZM, Xie YH*. 2020. Spatiotemporal water quality variations and their relationship with hydrological conditions in Dongting Lake after the operation of the Three Gorges Dam, China. Journal of Cleaner Production, 283, 124644.
20.Hu C, Li F, Yang N, Xie YH*, Chen XS, Deng ZM. 2020. Testing the growth rate hypothesis with two wetland macrophytes under different water level and sediment type conditions. Frontier in Plant Science, 11:1191.
21.Zhang PY, Zou Y, Xie YH*, Zhang SQ, Chen XS, Li F, Deng ZM, Zhang H, Tu W. 2020. Hydrology-driven responses of herbivorous geese in relation to changes in food quantity and quality. Ecology and Evolution, 2020, 10, 5281-5292
22.Ren YJ, Zhu LL, Deng ZM, Xie YH*, Zhang CY, Xiao FJ, Chen XS, Li F, Zou Y, Sheng R, Zhang XY, Chen X. 2020. Changes in methane emission and community composition of methane-cycling microorganisms along an elevation gradient in the Dongting Lake floodplain, China. Atmosphere, 11: 997
23.Wang W, Wu XH, Deng ZM, Yin CM, Xie YH*. 2020. Can integrated rice–duck farming reduce CH4 emissions? .Environmental Science and Pollution Research, 27:1004–1008
24.Xie YJ, Xie YH*, Xiao HY. 2019. Differential responses of litter decomposition to climate between wetland and upland ecosystems in China. Plant and Soil, 440: 1-9.
25.Chen XS, Li YF, Cai YH, Xie YH*, Deng ZM, Li F, Hou ZY. 2019. Different strategies to tolerate flooding in Polygonum hydropiper plants originating from low- and high-elevation habitats. Frontiers in Plant Science, 9: 1970.
26.Zou YA, Zhang PY, Zhang SQ, Chen XS, Li F, Deng ZM, Yang S, Zhang H, Li FY, Xie YH*. 2019. Crucial sites and environmental variables for wintering migratory waterbird population distributions in the natural wetlands in East Dongting Lake, China. Sciences of the Total Environments. 655: 147-157.
27.Xie YJ, Xie YH*, Xiao HY, Chen XS, Li F. 2019. The effects of simulated inundation duration and frequency on litter decomposition: A one-year experiment. Limnologica, 74: 8-13.
28.Deng ZM, Li YZ, Xie YH*, Peng CH, et al. 2018. Hydrologic and edaphic controls on soil carbon emission in Dongting Lake Floodplain, China. Journal of Geophydical Research: Biogeosciences, 123: 3088-3097.
29.Li F, Hu C, Xie YH*, Liu WZ, Chen XS, Deng ZM,, Hou ZY. 2018. Influence of differ P enrichment frequency on plant growth and plant C: N :P in a P-limited subtropical lake wetland, China. Frontiers in Plant Science, 9: e1608.
30.Li F,Yang N, Zhu LL, Xie YH*, Yang GS, et al. 2018. Competition and facilitation of two wetland macrophytes under different water levels and nutrient-heterogeneous conditions. Freshwater Sciences 37: 296-306.
31.Hu C, Li F, Xie YH *, Deng ZM, Chen XS. 2018. Soil carbon, nitrogen, and phosphorus stoichiometry of three dominant plant communities distributed along a small-scale elevation gradient in the East Dongting Lake. Physics and Chemistry of the Earth, 103: 28-34.
32.Zhang PY, Zou YA, Xie YH, et al. 2018. Shifts in distribution of herbivorous geese relative to hydrological variation in East Dongting Lake wetland, China. Science of the Total Environment, 636: 30-38.
33.Li F, Hu JY, Xie YH*, Yang GS, Hu C, Chen XS, Deng ZM. 2018. Foliar carbon, nitrogen and phosphorus stoichiometry of Carex brevicuspis along a small-scale elevation gradient. Ecological Indicators 92: 322-329.
34.Pan BH, Xie YH*, Li F, Zou YA, Deng ZM. 2018. Responses to sedimentation in ramet populations of the clonal plant Carex brevicuspis. Frontiers in Plant Science, 9: e512.
35.Hu JY, Xie YH*, Tang Y, Li F, Zou YA. 2018. Changes of vegetation distribution in the East Dongting Lake after the operation of the Three Gorges Dam, China. Frontiers in Plant Science, 9: 370685.
36.Xie YJ, Xie YH*, Xiao HY, Deng ZM, et al. 2017. Inhibition of litter decomposition of two emergent macrophytes by addition of aromatic plant powder. Scientific Reports, 7: e16685.
37.Chen XS, Liao YL, Xie YH*, Li F, Deng ZM, Hou ZY,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. Frontiers in Plant Science, 8: e1685.
38.Zou YA, Pan BH, Zhang H, Zhang PY, Yao Y, Liu XK, Gao DL, Xie YH*. 2017. Impacts of microhabitat changes on wintering waterbird populations. Scientific Reports, 7: e13934.
39.Li F, Gao H, Zhu LL, Xie YH*, et al. 2017. Foliar nitrogen and phosphorus stoichiometry of three wetland plants distributed along an elevation gradient in Dongting Lake, China. Scientific Reports, 7:e2820
40.Gao Y, Xie YH *, Zou DS. 2017. Using ANNs to analyze effects of the Three Gorges Dam on sedimentation in Dongting Lake, China. Hydrological Sciences Journal 10: 1583-1590.
41.Li F, Xie YH*, Zhu LL. 2017. Interactive influence of water level, sediment heterogeneity, and plant density on the growth performance and root characteristics of Carex brevicuspis. Limnologica, 62:111-117.
42.Xie YJ, Xie YH*, Xiao HX, Chen XS, Li F. 2017. Controls on litter decomposition of emergent macrophyte in Dongting Lake wetlands. Ecosystems, 20:1383-1389.
43.Zou YA, Tang Y, Xie YH*, Zhao QH, Zhang H. 2017. Response of herbivorous geese to wintering habitat changes: conservation insights from long-term population monitoring in the East Dongting Lake, China. Regional Environmental Change, 17: 879-888.
44.Chen XS, Liao YL., Xie YH*, Wu C., Li F., Deng ZM., Li X. 2017. The combined effects of sediment accretion (burial) and nutrient enrichment on the growth and propagation of Phalaris arundinacea. Scientific Reports, 7: e39963.
45.Deng ZM, Xie YH, Chen XS, Li F, Hu C, Liu N. 2017. Effect of clone size on submergence tolerance and post-submergence growth recovery in Carex brevicuspis (Cyperaceae). Journal of Linmology,76: 355-361.
46.Li F, Zhu LL, Xie YH*. 2016. Fragment growth performance of the invasive submerged macrophyte Myriophyllum spicatum under conditions of different water depths and sediment types. Aquatic Ecology, 50: 727-734.
47.Chen XS, Deng ZM, Xie YH*, Li F, Hou ZY, Wu C. 2016. Consequences of repeated defoliation on belowground bud banks of Carex brevicuspis (Cyperaceae) in the Dongting Lake wetlands, China. Frontiers in Plant Science, 7: e11119.
48.Li F, Qin YY, Zhu LL, Xie YH*, Liang SC, Hu C, Chen XS, Deng ZM. 2016. Effects of fragment size and sediment heterogeneity on the colonization and growth of Myriophyllum spicatum. Ecological Engineering, 95: 457-462.
49.Xie YJ, Xie YH*, Hu C, Chen XS, Li F. 2016. Interaction between litter quality and simulated water depth on decomposition of two emergent macrophytes. Journal of Limnology 75: 36-43.
50.Li F., Pan Y, Xie YH*, et al. 2016. Different roles of three emergent macrophytes in promoting sedimentation in Dongting Lake, China. Aquatic Science, 78(1):159-169.
51.Pan Y, Zhang H, Li X, Xie YH*. 2016. Effects of sedimentation on soil physical and chemical properties and vegetation characteristics in sand dunes at the Southern Dongting Lake region, China. Scientific Reports, 6: e36300.