删除或更新信息,请邮件至freekaoyan#163.com(#换成@)

华东师范大学生态与环境科学学院导师教师师资介绍简介-夏建阳

本站小编 Free考研考试/2021-01-16

夏建阳 生态与环境科学学院









导航
个人资料
个人概况
研究方向
开授课程
科研项目
学术成果
荣誉及奖励





10 访问







个人资料
部门: 生态与环境科学学院
性别: 男
专业技术职务: 教授
研究标签:
毕业院校: 中国科学院研究生院
学位: 博士
学历: 研究生
联系电话:
电子邮箱: jyxia@des.ecnu.edu.cn
办公地址: 华东师范大学闵行校区实验A楼513室
通讯地址: 上海市东川路500号华东师范大学生态与环境科学学院 (200241)
邮编: 200241
传真: 无

教育经历

工作经历


个人简介

社会兼职
学术兼职
F1000 Faculty Member (Ecosystem Ecology Section; 2019.10-present)
Journal of Plant Ecology 杂志编委(2020-present)
Ecological Processes 杂志编委(2017-present)
Remote Sensing (Review Board)(2019-present)
Scientific Reports 杂志编委 (2014-2017)

为以下期刊审稿:
中国科学通报| 生态学杂志| Biogeosciences | Catena | Earth System Dynamics | Ecological Applications | Ecology & Evolution | Ecology Letters | Ecological Modeling | Ecological Research | Ecosystems | Environmental Science and Technology | Global Change Biology | Geoderma| Geographical Research Letters | Geoscientific Model Development | Journal of Arid Environment | Journal of Applied Ecology | Journal of Advances in Modeling EarthSystems (JAMES) | Journal of Geophysical Research ? Biogeosciences | Journalof Plant Ecology | Nature Climate Change | Nature Communications |New Phytologist | Scientific Reports| Science


研究方向

主要从事全球变化生态学方向的研究,主要采用陆地生态系统模型、数据挖掘与受控实验相结合的手段,研究全球陆地生态系统响应和适应全球变化(包括气候变暖、大气CO2富集、降雨格局变化、极端气候事件、大气氮沉降加剧等)的格局与内在机理,从而降低地球系统模式预测未来气候变化的不确定性。目前重点开展两方面的研究:
1、陆地生态系统模型评估:基于全球尺度生态学数据分析、全球变化控制实验等揭示的生态学规律,评估目前陆地生态系统模型存在的共性问题与亟待研究的生态学机理。
2、利用控制实验、联网观测、区域或全球尺度数据分析与生态系统模型等手段研究陆地生态系统对极端性气候/天气事件(尤其是持续高温、干旱、台风等)的响应和适应机理。
??我们研究组热忱欢迎对以上研究内容有兴趣的同学报考,同时欢迎有志于从事科学研究的本科同学提前和我们联系。研究组欢迎生态学、地理学、林学等相关学科,也非常欢迎数学、统计学、计算机科学等专业的优秀同学加入。因为每年招生名额有限,十分建议提前与本人取得联系,以了解课题研究的各方面情况。
才培养情况
1.出站博士后
高强(2016-2018)(上海市政工程设计研究总院集团有限公司)
黄昆(2015-2019)(华东师范大学青年研究员)
2.毕业博士生
王婧(2019)(华东师范大学学科博士后)
3.毕业本科生
何诗敏(2016)(日本早稻田大学硕士生)
魏宁(2018)(华东师范大学硕士生)


开授课程


科研项目


学术成果

课题组代表性论文
夏建阳,鲁芮伶,朱辰,崔二乾,杜莹,黄昆,孙宝玉.2020.陆地生态系统过程对气候变暖的响应与适应.植物生态学报. (已录用)
Xia J,Wang J, Niu S. 2020. Research challenges and opportunities for using big data in global change biology.Global Change Biology(In press) [Link]
Sun B,Yan L,Jiang M, Li X, Han G,Xia J. 2020. Reduced magnitude and shifted seasonality of CO2sink by experimental warming in a coastal wetland.Ecology(accepted)
Cui E,Weng E,Yan E,Xia J. 2020. Robust leaf trait relationships across species under global environmental changes.Nature Communications11, 2999[PDF] [Link] [Recommended by Faculty Opinion:https://doi.org/10.3410/f..]
Du Y,Lu R,Xia J. 2020. Impacts of global environmental change drivers on non-structural carbohydrates in terrestrial plants.Functional Ecology34, 1525-1536. [PDF] [Link]
Huang K,Xia J. 2019.High ecosystem stability of evergreen broadleaf forests under severe droughts.Global Change Biology, 25, 3494-3503.
Cui E,Huang K, Arain A, Fisher J, Huntzinger D, Ito A, Luo Y, Jain A, Mao J, Michalak A, Niu S, Parazoo N,Peng C, Peng S, Poulter B, Ricciuto D, Schaefer K, Schwalm C, Shi X, Tian H, Wang W, Wang J, Wei Y, Yan E,Yan L, Zeng N, Zhu Q,Xia J. 2019.Vegetation functional properties determine uncertainty of simulated ecosystem productivity: a traceability analysis in the East Asian monsoon region.Global Biogeochemical Cycles, 33, 668-689 (Cover paper: https://agupubs.onlinelibrary.wiley.com/doi/pdf/10.1002/gbc.20773)
Xu X,Lu L,Yan L,Xia J. 2019.PlantNE: a global database of plant biomass from nitrogen-addition experiments.Ecology,e02840(data paper)
Huang K,Xia J, Wang YP, Ahlstrom A, Chen J, Cook R,Cui E, Fang Y, Fisher J, Huntzinger D,Li Z, Michalak A,Qiao Y, Schaefer K, Schwalm C,Wang J,Wei Y,Xu X,Yan L,Bian C, Luo Y. 2018. Enhanced peak growth of global vegetation and its key mechnisms.Nature Ecology Evolution2, 1897-1905
Xia J, McGuire AD, Lawrence D, Burke E, Chen G, Chen X, Delire C, Koven C, MacDougall A, Peng S, Rinke A, Saito K, Zhang W, Alkama R, Bohn TJ, Ciais P, Decharme B, Gouttevin I, Hajima T, Hayes DJ, Huang K, Ji D, Krinner G, Lettenmaier DP, Miller PA, Moore JC, Smith B, Sueyoshi T, Shi Z, Yan L, Liang J, Jiang L, Zhang Q, Luo Y. 2017. Terrestrial ecosystem model performance in simulating productivity and its vulnerability to climate change in the northern permafrost region.Journal of Geophysical Research: Biogeosciences122: 430-446. (AGU Research Spotlight:http://agupubs.onlinelibrary.wiley.com/hub/article/10.1002/2016JG003384/editor-highlight/)
Xia J, Niu S, Ciais P, Janssens I, Chen J, Ammann C, Blanken PD, Cescatti A, Bonal D, Buchmann N, Curtis PS, Chen S, Dong J, Flanagan LB, Frankenberg C, Georgiadis T, Gough CM, Hui D, Kiely G, Li J, Lund M, Magliulo V, Marcolla B, Merbold L, Montagnani L, Moors E, Olesen JE, Piao S, Raschi A, Roupsard O, Suyker A, Urbaniak M, Vaccari F, Varlagin A, Vesala T, Wilkinson M, Weng E, Wohlfahrt G, Yan L, Luo Y. 2015. Joint control of annual terrestrial carbon dioxide uptake by plant phenology and physiology.PNAS112, 2788-2793.
Xia J, Chen J, Piao S, Ciais P, Luo Y, Wan S. 2014. Terrestrial carbon cycle affected by non-uniform climate warming.Nature Geoscience7, 173-180 (Reported byScience Daily:http://www.sciencedaily.com/releases/2014/03/**9.htmand Highlighted by Nature Asia:http://www.natureasia.com/en/research/highlight/9141)
Xia J, Luo Y, Wang Y-P,Hararuk O.2013. Traceable components of modeled carbon storage capacity in terrestrial ecosystem.Global Change Biology, 19, 2104-2116.
Xia J, Luo Y, Wang Y-P, Weng E, Hararuk O. 2012. A semi-analytical solution to accelerate spin-up of coupled carbon and nitrogen land models to steady states.Geoscientific Model Development5, 1259-1271.
Xia J, Han Y, Zhang Z, Zhang Z, and S. Wan. 2009. Effects of diurnal warming on soil respiration are not equal to the summed effects of day and night warming in a temperate steppe.Biogeosciences, 6: 1-10. (Nature Research Highlights:http://www.nature.com/nature/journal/v460/n7257/full/460783c.html; Nature Blog:http://blogs.nature.com/inthefield/2009/08/esa_2009_nights_in_inner_mongo.html)
Xia J, Niu S, Wan S. 2009. Response of ecosystem carbon exchange to warming and nitrogen addition during two climatologically contrasting growing seasons in a temperate steppe.Global Change Biology15 (6): 1544-1556.
Wan S#,Xia J#, Liu W, Niu S. 2009. Photosynthetic over-compensation under nocturnal warming enhances grassland carbon sequestration.Ecology. 90: 2700-2710(#equally contribution)
Xia J and Wan S. 2008. Global response patterns of terrestrial plant species to nitrogen addition.New Phytologist179: 428-439. (Faculty 1000 Ranking 8.0 as 'must read':http://f1000.com/**)




荣誉及奖励









相关话题/生态 华东师范大学