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王亚锋
2023-05-11 19:40
  • 王亚锋
  • 王亚锋 - 副教授 硕士生导师-南京林业大学-生物与环境学院-个人资料

近期热点

资料介绍

个人简历


王亚锋,博士,副教授,硕士生导师。中国生态学会-高寒生态专业委员会委员。迄今,在PNAS、 Global Change Biology、Ecology、Forest Ecology and Management等国际权威期刊上发表SCI论文30多篇。已主持国家自然科学基金青年/面上项目等5项。
2007.9-2012.6 中国科学院青藏高原研究所 硕博连读
2012.7-2016.7 中国科学院高寒生态重点实验室 博士后
2016.9-2018.5 南京林业大学,生物与环境学院 讲师
2018.6 至今 南京林业大学,生物与环境学院 副教授
主要从事:生态学方面的教学、科研工作。
1) 青藏高原第二次科考项目-森林科考子课题,2019-2023年,参与。
2)国家自然科学基金-面上项目(41771222),2018-2021年, 70万,主持。
3)国家自然科学基金-青年项目(41301207),2014-2016年,25万,主持。
4)中国博士后基金面上项目(一等资助)(2013M530069),2013-2016年,8万元,主持。
5)中国科学院青藏高原研究所开放基金,2016-2017年,3万元,主持。
6)国家自然科学基金面上项目(41471158),2015-2018年, 110万,参与。
7)973项目专题“亚高山针叶林的脆弱性评价指标”(2010CB951301),
2010-2014年,100万,参与。

研究领域


1.森林生态学:探讨森林植被生长动态对全球变化的响应;
2.林线与全球变化:研究高山林线生态过程与气候变化之间的关系;
3.灌木群落动态:揭示灌木群落的结构、格局与动态变化。

近期论文


一、SCI论文
1) Yafeng Wang, Steven Paul Sylvester, Xiaoming Lu, Binod Dawadi, Shalik Ram Sigdel, Eryuan Liang, J. Julio Camarero. 2019. The stability of spruce treelines on the eastern Tibetan Plateau over the last century is explained by pastoral disturbance. Forest Ecology and Management 442 :34–45
2) Yafeng Wang, Bradley Case, Sergio Rossi, Binod Dawadi, Eryuan Liang, Aaron M. Ellison. 2019. Frost controls spring phenology of juvenile Smith fir along elevational gradients on the southeastern Tibetan Plateau. International Journal of Biometeorology, 63: 963-972
3) Yafeng Wang, Bradley Case, Xiaoming Lu, Aaron M. Ellison, Josep Penuelas, Haifeng Zhu, Eryuan Liang, J. Julio Camarero. Fire facilitates warming-induced upward shifts of alpine treelines by altering interspecific interaction. 2019. Trees-Structure and Function, 33: 1051-1061
4) Yafeng Wang*, Eryuan Liang, Shalik Ram Sigdel, Bo Liu, J. Julio Camarero. 2017. The Coupling of Treeline Elevation and Temperature is Mediated by Non-Thermal Factors on the Tibetan Plateau. Forests 2017, 8, 109; doi:10.3390/f8040109
5) Wang Y, Pederson N, Ellison AM*, Buckley HL, Case BS, Liang E, Camarero JJ. 2016. Increased stem density and competition may diminish the positive effects of warming on alpine treeline. Ecology, 97(7): 1668–1679.
6) Wang Y, Zhu H, Liang E*, Camarero JJ. 2016. Impact of plot shape and size on the evaluation of treeline dynamics in the Tibetan Plateau. Trees-Structure and Function, 30(4):1045–1056.
7) Wang Y, Liang E*, Ellison A, Lu X, Camarero JJ. 2015. Facilitation stabilizes moisture-controlled alpine juniper shrublines in the central Tibetan Plateau. Global and Planetary Change,132: 20-30.
8) Wang Y, Camarero JJ, Luo T, Liang E*. 2012. Spatial patterns of Smith fir alpine treelines on the south-eastern Tibetan Plateau support that contingent local conditions drive recent treeline patterns. Plant Ecology & Diversity, 5(3): 311-321.
9) Wang Y, Li X, Dawadi B, Eckstein D, Liang E*. 2013. Phenological variation in height growth and needle unfolding of Smith fir along an altitudinal gradient on the southeastern Tibetan Plateau. Trees-Structure and Function, 27(2): 401-407.
10) Wang Y, Cufar K, Eckstein D, Liang E*. 2012. Variation of maximum tree height and annual shoot growth of Smith fir at various elevations in the Sygera Mountains, southeastern Tibetan Plateau. PLOS ONE, 7(3): e31725.
11) Shalik Ram Sigdel, Yafeng Wang, Jesus Julio Camarero, Haifeng Zhu, Eryuan Liang, Josep Penuelas. 2018. Moisture‐mediated responsiveness of treeline shifts to global warming in the Himalayas. Global Change Biology 24:5549–5559.
12) Liang E*, Wang Y, Piao S, Lu X, Camarero JJ, Zhu H, Zhu L, Ellison AM, Ciais P, Penuelas J.. 2016. Species interactions slow warming-induced upward shifts of treelines on the Tibetan Plateau. PNAS, 113(16):4380-4385.
13) Liu B, Wang Y, Zhu H, Liang E*, Camarero JJ. 2016. Topography and age mediate the growth responses of Smith fir to climate warming in the southeastern Tibetan Plateau. International Journal of Biometeorology, 60(10): 1577–1587.
14) Liang E*, Wang Y, Ecktein D, Luo T. 2011. Little change of the fir tree-line position on the southeastern Tibetan Plateau after 200 yrs of warming. New Phytologist, 190(3):760-769.
15) Liang E*, Wang Y, Xu Y, Liu B, Shao X. 2010. Growth variations in Abies georgei var. smithii along altitudinal gradients in the Sygera Mts., southeastern Tibetan Plateau. Trees-Structure and Function, 24(2):363–373.
16) Lu X, Liang E, Wang Y, Babst, F, Leavitt SW, Camarero, JJ. 2019. Past the climate optimum: Recruitment is declining at the world’s highest juniper shrublines on the Tibetan Plateau. Ecology 100(2): e02557.
17) Xiaoming Lu, Shalik Ram Sigdel, Binod Dawadi, Yafeng Wang. 2019. Climate response of Salix oritrepha growth along a latitudinal gradient on the northeastern Tibetan Plateau. Dendrobiology 81:14–21.
18) Samresh Rai, Binod Dawadi, Yafeng Wang, Xiaoming Lu, Huang Ru, Shalik Ram Sigdel. 2019. Growth response of Abies spectabilis to climate along an elevation gradient of the Manang valley in the central Himalayas. Journal of Forestry Research, 22(5):274-281.
19) Lu X, Camarero JJ, Wang Y, Liang E*, Eckstein D. 2015. Up to 400-years old Rhododendron shrubs on the southeastern Tibetan Plateau: prospects for shrub-based dendrochrnology. Boreas, 44(4):760-768.
20) Lu X, Huang R, Wang Y, Sigdel SR, Dawadi B, Liang E*, Camarero JJ. 2016. Summer temperature drives radial growth of alpine shrub willows on the northern Tibetan Plateau. Arctic, Antarctic, and Alpine Research 48(3):461-468.
21) Buckley HL, Case BS, Vallejos R, Camarero JJ, Liang E, Wang Y, Ellison AM*. 2016. Detecting ecological patterns along environmental gradients: alpine treeline ecotones. Chance, 29(2):10-15.
22) Du Q, Rossi S, Lu X, Wang Y, Zhu H, Liang E, Camarero JJ. 2019. Negative growth responses to temperature of sympatric species converge under warming conditions on the southeastern Tibetan Plateau.Trees-Structure and Function. https://doi.org/10.1007/s00468-019-01924-4
23) Sigdel SR, Liang E, Wang Y, Dawadi B, Camarero JJ. 2020. Tree-to-tree interactions slow down Himalayan treeline shifts as inferred from tree spatial patterns.Journal of Biogeography,
DOI: 10.1111/jbi.13840
二、中文核心期刊论文
1)王亚锋,芦晓明,朱海峰,梁尔源. 2020.高山树线的调查与研究方法. 地球科学进展,35(1):38-51.
2) 王亚锋, 梁尔源. 2019.干扰对树线生态过程的影响研究进展.科学通报,64(16):1711-1721.
3) 王亚锋,刘波. 2018. 气候和地形对青藏高原树线位置的影响.生态学杂志,37(12):3508-3515.
4) 王亚锋, 梁尔源, 芦晓明, 朱海峰, 朴世龙, 朱立平. 2017. 气候变暖会使青藏高原树线一直上升吗? 自然杂志,39(3):179-183.
5)王亚锋, 梁尔源. 2012. 树线波动与气候变化研究进展. 地球环境学报, 3(3):758-764.
6) 张雨, 芦晓明, 王亚锋. 2018. 北半球树线波动及其驱动因素研究进展. 生态学杂志,7(11):3430-3439.
7)芦晓明, 付婷, 杜琪琪, 张林,王亚锋,梁尔源. 2019. 藏东南亚高山暗针叶林干扰迹地森林更新调查. 科学通报,64(27):2907-2914.
目前是Forest Ecology and Management、Trees、Frontiers in Plant Science、JMS等SCI期刊审稿人

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