63956924.06 , 2018

刘鸿雁

职称:教授

研究方向:植被生态学与生态遥感,第四纪生态学与全球变化

所属系别:生态学系

Tel:010-62759319

Fax:

Email:lhy@urban.pku.edu.cn

教育经历

1985年9月考入北京大学地理系自然地理专业
1989年获北京大学理学学士学位
1992年获北京大学环境地学专业理学硕士学位
1998年获德国汉诺威大学自然科学博士学位

工作经历

1992年开始在北京大学城市与环境学系(环境学院、城市与环境学院)任教,历任助教、讲师、副教授

2004年晋升为教授

2000年10月-2001年3月获中加学术交流计划支持在加拿大卡尔加里大学访问

2005年10月-2008年2月为德国波茨坦气候影响研究所(PIK)洪堡学者

2007年开始担任城市与环境学院副院长

书籍编撰

学术任职

中国地理学会生物地理专业委员会主任(2017-)

中国第四纪科学研究会理事(2016-)

国际植被科学学会Ecoinformatics工作组成员(2015-)

亚洲树轮学会理事(2015-)

中国生态学会理事(2013-)

中国古生物学会孢粉分会理事(2005-)

国际景观生态学协会中国分会理事(1996-)

人才培养

课程教学

当前主讲:

1)本科生专业基础课“植物学(下)(植物分类与植物地理)”

2)本科生拔尖人才课程“生态学与地理学前沿”

3)研究生专业基础课“生态学研究进展”(2015-)

参与讲授

本科生专业基础课“生态学基础与应用”

曾经讲授

本科生专业必修课“野外生态学”(地理专业“植物地理土壤地理实习”,1992-2016)

本科生专业基础课“植物地理学”(1992-2004)

本科生专业课“应用生态学”(合作讲授,1992-2004)

研究生专业课“陆地自然生态系统学”(1992-2014)

研究生专业课“植被生态学”(1996)


在站博士后

蒋子涵(2016年进站):岩性对喀斯特关键带植被的调控作用

在读博士研究生

许重阳(2012级,具体指导教师):亚洲内陆边缘森林的生长、死亡与更新

郭伟超(2013级):干旱半干旱区植被响应和反馈气候变化的模拟

韩玥(2014级):基于相对花粉产量(PPE)的林草交错带全新世景观重建

柳絮(2015级):草原带木本植物的格局、动态及成因

岳永彧(2016级):北方针叶林南缘气候变化、冻土动态及植被响应

戴景钰(2017级):植物构型与水分利用

在读硕士研究生

上官淮亮(2015级):干旱林线木本植物非结构性碳水化合物的季节动态及生长策略

薛佳鑫(2016级):树木适应气候干旱的形态解剖特征

李昀赟(2017级):冻土融化对树木生长的影响

本科生拔尖人才

李朴涵(2014级):进化和环境因素对树木水分利用效率的影响

周凌宇(2014级):中国北方半干旱区近3000年以来植被动态对土壤风蚀的影响

蒋璐冰(2016级):草原植物功能属性与水分利用效率之间的关系

彭昭宇(2016级):植物属性特征对草地退化的指示意义

本科毕业论文

帕丽扎(2014级):蒙古树木枝叶非结构性碳水化合物的空间格局及其解释


毕业生

硕士研究生

年级

姓 名

论文题目

毕业去向

2000

田育红

内蒙古高原东南部荒漠化与风沙活动研究

香港大学博士生

(现北京师范大学资源学院副教授)

2001

邢秋茹

广东过渡热带和天山高山林线树轮生长及其与

气候因子的关系

《生命世界》编辑部

(现居英国)

2002

纪中奎

基于现代植被与表土花粉的新疆玛纳斯河流域

全新世气候变化与植被演化

自办环境咨询公司

(现北京21世纪空间技术应用有限公司)

2003

朱江玲

半干旱区关键地段全新世植被演化及其对气候

变化的响应

北京大学生态学系

(高级工程师)

2004

郭允允

天山云杉树木生长及生态系统生产力对气候

变化的响应

中国印刷集团

(现居美国)

2005

任 佶

气候变化与放牧活动对内蒙古草地植被退化影响

的定量研究

北京21世纪空间技术应用有限公司

(现自主创业)

2006

何思源

干旱极限条件下温带森林对气候变化的敏感性

剑桥大学地理系博士研究生

(现WWF及北京师范大学博士后)

2007

张语克

半干旱草原区湖泊水面面积变化及其干旱的原因

九寨沟管理局

(现四川大学博士生)

2008

陈 曦

土地利用对温带草原区土壤有机碳和全氮的影响研究

普华永道公司

(美国Wayfair公司)

2011

王 韬

京津冀暖温带山地灌丛生态地理特征及其影响因子

绿洲能源集团公司

2013

王秋懿

中国北方典型草原带近3500年环境变迁

中华人民共和国外交部

2014
邱 爽
中国温带草原C4植物分布及环境影响机制
北京大学附属中学朝阳未来学校


博士研究生

年级

姓 名

论文题目

毕业去向

2000

徐丽宏

天山典型荒漠-绿洲系统景观格局与过程研究

中国林业科学研究院

(副研究员)

2006

印 轶

中国半湿润半干旱区全新世森林演化及其驱动因子

澳大利亚麦考垂大学博士后

(现加州理工大学教职)

2007

吴秀臣

东亚旱区树木生长和植被物候对气候变化的响应

德国马普生物地球化学研究所博士后

(现北京师范大学资源学院副教授)

2008

赵烽君

中国温带草原植物空间格局与成因

中国人民大学附属中学

2009

胡国铮

典型草原带人工林水分利用与生长过程对干旱的响应及其机制

中国农业科学院

(助理研究员)

2010

徐晓天

养分与水分调控下内蒙古草原的生长与恢复

中国林业科学研究院

(博士后)

2010

祁兆寰

中国北方代表性林线森林生长及其对气候变化的响应

中国人民大学附属中学

2011

郝 倩

中国北方林草交错带主要树种末次冰盛期的分布与冰后期迁移

天津大学表层地球科学研究院

(讲师)


指导本科毕业论文学生

1993年-2017年,共指导46人的本科毕业论文,其中:

黄永梅(1991级)的论文“围场-好鲁库生态过渡带植被空间分布格局研究”曾被北大教务部收录为北大环境科学专业本科毕业论文范文

杜泉滢(2003级)科研论文在《生物多样性》发表

王怡(2000级)论文修改后在SCI刊物“Review of Palaeobotany and Palynology”发表

任佶(2001级)论文修改后在SCI刊物“Geophysical Research Letter”发表

韦芳玲(2002级)论文修改后在SCI刊物“Review of Palaeobotany and Palynology”发表

刘果(2008级)论文修改后在SCI刊物“Environmental Research Letters”和"PLOS ONE"发表

冯明敏(2010级)论文修改后在SCI刊物"Palaeogeography, Palaeoclimatology, Palaeoecology"发表

邱爽(2010级)论文修改后在SCI刊物"Journal of Arid Environments"发表

科学研究

研究目标
以亚洲内陆旱区植被为研究对象,探讨温带森林、草原、荒漠和湿地等生态系统如何响应气候变化,它们的生态系统服务(如防风固沙、涵养水源等)在气候变化过程中可能发生的变化以及生态恢复与生态系统服务改善之间的关系。近期侧重以下几个方面的研究:
1)季风气候边缘区过去气候变化与植被的敏感性分析
2)温带不同生态系统类型生产力动态的驱动因子分析
3)水分和土壤营养对草原带天然和人工林生长的限制
4)森林、灌丛和草原植被对气候干旱化的生态适应性机理
5)干旱、半干旱区植被退化和植被恢复对其生态系统服务的影响


在研项目

1)中国北方干旱半干旱区森林植被对气候变化的响应(国家自然科学基金重大项目课题,2018-2022,负责人)

2)中国半干旱区东段森林动态及其对气候变化的响应(国家自然科学基金重点项目,2016-2020,负责人)

3)北方农牧交错带草地退化过程与趋势分析(国家重点研发计划课题,2016-2020,负责人)

4)喀斯特关键带生态系统服务形成机理与土地利用优化(中英合作地球关键带计划课题,2016-2019,负责人)

5)中国北方干旱半干旱区森林植被对气候变化的响应(国家自然科学基金重大项目课题,2018-2022,负责人)

6)北半球木本植物多样性大尺度格局及其与全球变化的关系(国家重点研发计划课题,2017-2022,主要参加人员)


科研条件

1) 孢粉分析设备

2) 树木年轮分析设备(TSAP)

3) 植被数量生态分析软件

4) 植被遥感分析软件

5) 动态全球植被模型

6)森林和草原固定样地

教研成果

1.  Cheng, Y., Liu, H.-Y.*, Wang, H.-Y., Hao, Q., 2018. Differentiated climate-driven Holocene biome migration in western and eastern China as mediated by topography. Earth Science Reviews, 182: 174-185

2.  Hu, G.-Z., Liu, H.-Y.*, Shangguang, H.-L., Wu, X.-C., Xu, X.-T., Williams, M., 2018. The role of heartwood water storage for sem-arid trees under drought. Agricultural and Forest Meteorology, 256-257: 534-541

3.  Erdős, L., Ambarlı, D., Anenkhonov, O.A., Bátori, Z., Cserhalmi, D., Kröel-Dulay, G., Liu, H.-Y., Magnes, M., Molnár, Z., Naqinezhad, A., Semenishchenkov, Y.A., Tölgyesi, C., Török, P. 2018. The edge of two worlds: A new review and synthesis on Eurasian forest-steppes. Applied Vegetation Science. DOI: 10.1111/AVSC.12382

4.  Xu, X.-T., Liu, H.-Y.*, Wang, W., Song, Z.-L., 2018. Patterns and determinants of the response of plant biomass to addition of nitrogen in semi-arid and alpine grasslands of China. Journal of Arid Environments, 153: 11-17

5.  Guo, W.-C., Liu, H.-Y.*, Anenkhonov, O.A., Shangguan , H.-L., Sandanov, D.V., Korolyuk, A., Yu, Hu, G.-Z., Wu, X.-C. Vegetation can strongly regulate permafrost degradation at its southern edge through changing surface freeze-thaw processes. Agricultural and Forest Meteorology, 23: 10-17

6.  Ru, N., Yang, X.-M., Song, Z.-L.*, Liu, H.-Y., Hao, Q., Liu, X., Wu, X.-C., 2018. Phytoliths and phytolith carbon occlusion in aboveground vegetation of sandy grasslands in eastern Inner Mongolia, China. Science of the Total Environment, 625, 1283-1289

7.  Wu, X.-C.*, Liu, H.-Y., Li, X.-Y., Liang, E.-Y., Beck, P.S.A., Huang, Y.-M., Seasonal divergence in the interannual responses of Northern Hemisphere vegetation activity to variations in diurnal climate. Scientific Reports, 6:19000, DOI: 10.1038/srep19000

8.  Xu, C.-Y., Liu, H.-Y.*, Zhou, M., Xue, J.-X., Zhao, P.-W., Shi, L., Shangguan, H.-L., 2018. Enhanced sprout-regeneration offsets warming-induced forest mortality through shortening the generation time in semiarid birch forest. Forest Ecology and Management, 409: 298-306

9.  Hao, Q., de Lafontaine, G., Guo, D.-S., Gu, H.-Y., Hu, F.-S., Han, Y., Song, Z.-L., Liu, H.-Y.*, 2018. The critical role of local refugia in postglacial colonization of Chinese pine: joint inferences from DNA analyses, pollen records, and species distribution modeling. Ecography, 41: 592-606

10.  Cheng, Y., Liu, H.-Y.*, Wang, H.-Y.*, Piao, S.-L., Yin, Y., Ciais, P., Wu, X.-C., Luo, Y., Zhang, C.-N., Song, Y.-Q., Gao, Y.-S., Qiu, A.-A., 2017. Contrasting effects of winter and summer climate on alpine timberline evolution in monsoon-dominated East Asia. Quaternary Science Reviews, 169, 278-287

11.  Han, Y., Liu, H.-Y.*, Hao, Q., Liu, X., Guo, W.-C., Shangguan H.-L., 2017. More reliable pollen productivity estimates and relative source area of pollen in a forest-steppe ecotone with improved vegetation survey. The Holocene, doi: 10.1177/0959683617702234

12.  Liu, X., Liu, H.-Y.*, Qiu, S., Wu, X.-C., Tian, Y.-H., Hao, Q., 2017. An improved estimation of regional fractional woody/herbaceous cover using combined satellite data and high-quality training samples. Remote Sensing, 9, 32; doi:10.3390/rs9010032

13.  Pan, W.-J., Song, Z.-L.*, Liu, H.-Y.*, van Zwieten, L., Li, Y.-T., Yang, X.-M., Han, Y., Liu, X., Zhang, X.-D., Xu, Z.-J., Wang, H.-L., 2017. The accumulation of phytolith-occluded carbon in soils of different grasslands. Journal of Soils and Sediments, 17: 2420-2427

14.  Wu, X.-C.*, Liu, H.-Y., Li, X.-Y.*, Ciais, P., Babst, F., Guo, W.-C., Zhang, C.-C., Magliulo, V., Pavelka, M., Liu, S.-M., Huang, Y.-M., Wang, P., Shi, C.-M., Ma, Y.-J., 2017. Differentiating drought legacy effects on vegetation growth over the temperate Northern Hemisphere. Global Change Biology, doi: 10.1111/gcb.13920

15.  Wu, X.-C., Liu, H.-Y., Li, X.-Y.*, Piao, S.-L., Ciais, P., Guo, W.-C., Yin, Y., Poulter, B., Peng, C.-H., Viovy, N., Vuichard, N., Wang, P., Huang, Y.-M., 2017. Higher temperature variability reduces temperature sensitivity of vegetation growth in Northern Hemisphere. Geophysical Research Letters, 44: 6174-6181

16.  Wu, X.-C., Liu, H.-Y., Li, X.-Y.*, Tian, Y.-H., Mahecha, M.D., 2017. Responses of winter wheat yields to warming-mediated vernalization variations across temperate Europe. Frontiers in Ecology and Evolution, 5:126, doi: 10.3389/fevo.2017.00126

17.  Lashchinskiy, N.*, Korolyuk, A., Makunina, N., Anenkhonov, O., Liu, H.-Y., 2017. Longitudinal changes in species composition of forests and grasslands across the North Asian forest steppe zone. Folia Geobotanica, 52:175–197

18.  Xu, C.-Y., Liu, H.-Y.*, Anenkhonov, O.A., Korolyuk, A.Y, Sandanov, D.V., Balsanova, L.D., Naidanov, B.B., Wu, X.-C., 2017. Long-term forest resilience to climate change indicated by mortality, regeneration and growth in semi-arid southern Siberia. Global Change Biology, doi:10.1100/gcb13582

19.  Wang, H.-Y.*, Song, Y.-Q., Cheng Y., Luo, Y., Zhang, C.-N., Gao, Y.-S., Qiu, A.-A., Deng, L., Liu, H.-Y., 2016. Mineral magnetism and other characteristics of sediments from a sub-alpine lake (3080m a.s.l.) in central east China and their implications on environmental changes for the last 5770 years. Earth and Planetary Science Letters, 452: 44-59

20.  Jiang, P., Liu, H.-Y.*, Wu, X.-C., Wang, H.-Y., 2016. Tree-ring-based SPEI reconstruction in central Tianshan Mountains of China since AD 1820 and links to westerly circulation. Journal of Climatology, doi: 10.1002/joc4884

21.  Xu, C.-Y., Liu, H.-Y.*, Williams, A.P., Yin, Y., Wu, X.-C., 2016. Trends toward an earlier peak of the growing season in Northern Hemisphere mid-latitudes. Global Change Biology, 22: 2852-2860

22.  Xu, Y., Shen, Z.-H.*, Ying, L.-X., Ciais, P., Liu, H.-Y., Piao, S.-L., Wen, C., Kiang, Y.-X., 2016. The exposure, sensitivity and vulnerability of natural vegetation in China to climate thermal variability (1901-2013): An indicator-based approach. Ecological Indicators, 63: 258-272

23.  Yang, X., Chi, X.-L., Ji, C.-J., Liu, H.-Y., Ma, W.-H., Mohhammat, A., Shi,, Z., 2016. Variations of leaf N and P concentrations in shrubland biomes across northern China: phylogeny, climate, and soil. Biogeoscience, 13: 1-10

24.  Li, B.-G. Gasser, T., Ciais, P., Piao, S.-L., Tao, S., Balkanski, Y., Hauglustaine, D., Boisier, J.-P., Chen, Z., Huang, M.-T., Li, L.-Z., Li, Y., Liu, H.-Y., Liu, J.,-F., Peng, S.-S., Shen, Z.-H., Sun, Z.-Z., Wang, R., Wang, T., Yin, G.-D., Yin, Y., Zeng, H., Zeng, Z.-Z., Zhou, F., 2016. The contribution of China’s emissions to global climate forcing. Nature, 531: 357-362

25.  Qiu, S., Liu, H.-Y.*, Zhao, F.-J., Liu, X., 2016. Inconsistent changes of biomass and species richness along a precipitation gradient in temperate steppe. Journal of Arid Environments, 132: 42-48

26.  Feng, M.-M., Wang, Q.-Y., Hao, Q., Yin, Y., Song, Z.-L., Wang, H.-Y., Liu, H.-Y.*, 2016. Determinants of soil erosion during the last 1600 years in the foreststeppe ecotone in Northern China reconstructed from lacustrine sediments. Palaeogeography, Palaeoclimatology, Palaeoecology, 449: 79-84

27.  Hao, Q., Liu, H.-Y.*, Liu, X., 2016. Pollen-detected altitudinal migration of forests during the Holocene in the mountainous foreststeppe ecotone in northern China. Palaeogeography, Palaeoclimatology, Palaeoecology, 446: 7077

28.  Yin, Y., Liu, H.-Y.*, Hao, Q., 2016. The role of fire in the late Holocene forest decline in semi-arid North China. The Holocene, 26(1): 93-101

29.  Wu, X.-C.*, Liu, H.-Y., Li, X.-Y., Liang, E.-Y., Beck, P.S.A., Huang,Y.-M., 2016. Seasonal divergence in the interannual responses of Northern Hemisphere vegetation activity to variations in diurnal climate. Scientific Reports, 6:19000

30.  Xu, X.-T., Liu, H.-Y.*, Song, Z.-L., Wang, W., Hu, G.-Z., Qi, Z.-H., 2015. Response of aboveground biomass and diversity to nitrogen addition along a degradation gradient in the Inner Mongolian steppe, China. Scientific Reports, 5:10284, DOI: 10.1038/srep10284

31.  Yang, X.-M., Song, Z.-L., Liu, H.-Y., Bolan, N.S., Wang, H.-L., Li, Z.-M., 2015. Plant silicon content in forests of north China and its implications for phytolith carbon sequestration. Ecological Research, 30: 347355

32.  Hu, G.-Z., Liu, H.-Y.*, Yin, Y., Song, Z.-L., 2015. The role of legumes in plant community succession of degraded grasslands in northern China. Land Degradation & Development, 27: 366-372

33.  Anenkhonova, O.A., Korolyukb, A. Yu, Sandanov, D.V., Liu, H.-Y., Zverev, A.A., Guo, D.-L., 2015. Soil-moisture conditions indicated by field-layer plants help identifyvulnerable forests in the forest-steppe of semi-arid Southern Siberia. Ecological Indicators, 57: 196-207

34.  Liu, H.-Y.*, Brueheide, H., Elward, J., Chytrý, M., 2015. Temperate forests in continental East Asia. Applied Vegetation Science, 18: 3–4

35.  Liu, H.-Y.*, Yin, Y., Wang, Q., He, S., 2015. Climatic effects on plant species distribution within the forest steppe ecotone in northern China. Applied Vegetation Science, 18: 43–49

36.  Qi, Z.-H., Liu, H.-Y.*, Wu, X.-C., Hao, Q., 2015. Climate-driven speedup of alpine treeline forest growth in the Tianshan Mountains, Northwestern China. Global Change Biology, 21: 816-826

37.  Liu, H.-Y.*, Yin, Y., Hao, Q., Liu, G., 2014. Sensitivity of temperate vegetation to Holocene development of East Asian monsoon. Quaternary Science Reviews, 98: 126-134

38.  Hao, Q., Liu, H.-Y.*, Yin, Y., Wang, H.-Y., Feng, M.-M., 2014. Varied responses of forest at its distribution margin to Holocene monsoon development in northern China. Palaeogeography, Palaeoclimatology, Palaeoecology, 409: 239-248

39.  Yang, X., Tang, Z.-Y.*, Ji, C.-J., Liu, H.-Y., Ma, W.-H., Mohhamot, A., Shi, Z.-Y., Sun, W., Wang, T., Wang, X.-P., Wu, X., Yu, S.-L., Yue, M., Zheng, C.-Y., 2014. Scaling of nitrogen and phosphorus across plant organs in shrubland biomes across Northern China. Scientific Reports, 4: 5448, DOI: 10.1038/srep05448

40.  Song, Z.-L.*, Liu, H.-Y.*, Zhao, F.-J., Xu, C.-Y., 2014. Ecological stoichiometry of N:P:Si in China’s grasslands. Plant and Soil, 380: 165-179

41.  Wu, X.-C., Liu, H.-Y.*, He, L.-B., Qi, Z.-H., Anenkhonov, O. A., Korolyuk, A. Yu., Yu, Y., Guo, D.-L., 2014. Stand-total tree-ring measurements and forest inventory documented climate-induced forest dynamics in the semi-arid Altai Mountains. Ecological Indicators, 34: 231-241

42.  Liu, H.-Y.*, Yin, Y.*, Piao, S.-L., Zhao, F.-J., Engels, M., Ciais, P., 2013. Disappearing lakes in semiarid northern China: drivers and environmental impact. Environmental Science and Technology, 47: 12107-12114

43.  Liu, G., Yin, Y., Liu, H.-Y.*, Hao, Q., 2013. Quantifying regional vegetation cover variability in North China during the Holocene: implications for climate feedback. PLOS ONE, 8: e71681, doi:10.1371/journal.pone.0071681

44.  Song, Z.-L.*, Liu, H.-Y.*, Li, B.-B., Yang, X.-M., 2013. The production of phytolith-occluded carbon in China’s forests: implications to biogeochemical carbon sequestration. Global Change Biology, 19: 2907-2915

45.  Liu, H.-Y.*, Williams, A.P., Allen, C.D.*, Guo, D.-L., Wu, X.-C., Anenkhonov, O.A., Liang, E.-Y., Sandanov, D.V., Yin, Y., Qi, Z.-H., Badmaeva, N.K., 2013. Rapid warming accelerates tree growth decline in semi-arid forests of Inner Asia. Global Change Biology, 19: 2500-2510

46.  Liu, H.-Y.*, Yin, Y., 2013. Response of forest distribution to past climate change: An insight into future predictions. Chinese Science Bulletin, 58: 4426-4436

47.  Liu, H.-Y.*, Liu, K., Wei, F.-L., 2013. Aretemisia pollen-indicated steppe distribution in southern China during the Last Glacial Maximum. Journal of Palaeogeography, 2: 297-305

48.  Liu, H.-Y.*, Piao, S.-L., 2013. Drought threatened semi-arid ecosystems in the Inner Asia. Agricultural and Forestry Meteorology, 178-179: 1-2

49.  Liu, G, Liu, H.-Y.*, Yin, Y., 2013. Global patterns of NDVI-indicated vegetation extremes and their sensitivity to climate extremes. Environmental Research Letters, 025009, doi:10.1088/ 1748-9326/8/2/025009

50.  Wu, X.-C., Liu, H.-Y.*, Wang, Y.-F., Deng, M.-H., 2013. Prolonged limitation of tree growth due to warmer spring in semi-arid mountain forests of Tianshan, northwest China. Environmental Research Letters, 024016, doi:10.1088/1748-9326/8/2/024016

51.  Hu, G.-Z., Liu, H.-Y.*, Anenkhonov, O., Korolyuk, A., Sandanov, D., Guo, D.-L.,2013. Forest buffers soil temperature and postpones soil thaw as indicated by a three-year large-scale soil temperature monitoring in the forest-steppe ecotone in Inner Asia. Global and Planetary Change, 104: 1-6

52.  Poulter, B*, Pedersen, N, Liu, H.-Y., Zhu, Z.-C., D’Arrigo R., Ciais, P., Davi, N., Frank, D., Myneni, R., Piao, S.-L., Wang, T. 2013. Recent trends in Inner Asian forest dynamics to temperature and precipitation indicate high sensitivity to climate change. Agriculture and Forest Meteorology, 178-179: 31-45

53.  Yin, Y., Liu, H.-Y.*, Liu, G., Hao, Q., Wang, H.-Y., 2013. Vegetation responses to mid-Holocene extreme drought events and subsequent long-term drought on the southeastern Inner Mongolian Plateau, China. Agricultural and Forestry Meteorology, 178-179: 3-9

54.  Wu X.-C., Liu, H.-Y.*, 2013. Consistent shifts in spring vegetation green-up date across temperate biomes in China, 1982–2006. Global Change Biology, 19: 870-880

55.  Wu, X.-C., Liu, H.-Y.*, Guo, D.-L., Anenkhonov, O., Badmaeva, N., Sandanov, D., 2012. Growth Decline Linked to Warming-Induced Water Limitation in Hemi-Boreal Forests. PLOS ONE, 7(8): e42619. doi:10.1371/journal. pone.004261

56.  Song, Z.-L.*, Liu, H.-Y., Si, Y., Yin, Y., 2012. The Production of Phytoliths in China`s Grasslands: Implications to the Biogeochemical Sequestration of Atmospheric CO2. Global Change Biology, 18: 3647-3653

57.  Liu, H.-Y.*, He, S.-Y., Anenkhonov, O, Hu, G.-Z., Sandanov, D., Badmaeva, N., 2012. Topography-controlled soil water content and the coexistence of forest and steppe in northern china. Physical Geography, 33: 561-573

58.  Zhao, Y.*, Liu, H.-Y., Li, F.-R., Huang, X.-Z., Sun, J.-H., Zhao, W.-W., Herzschuh, U., Tang, Y., 2012. Application and limitations of the Artemisia/Chenopodiaceae pollen ratio in arid and semi-arid China. The Holocene, 22: 1385-1392

59.  Wang, H.-Y.*, Liu, H.-Y., Zhao, F.-J., Yin, Y., Zhu, J.-L., Snowball, I., 2012. Early- and mid-Holocene palaeoenvironments as revealed by mineral magnetic, geochemical and palynological data of sediments from Bai Nuur and Ulan Nuur, southeastern inner Mongolia Plateau, China. Quaternary International, 250: 100-118

60.  Yin, Y., Liu, H.-Y.*, He, S.-Y., Zhao, F.-J., Zhu, J.-L., Wang, H.-Y., Liu, G., Wu, X.-C., 2011. Patterns of local and regional grain size distribution and their application to Holocene climate reconstruction in semi-arid Inner Mongolia, China. Palaeogeography, Palaeoclimatology, Palaeoecology 307: 168176

61.  Zhao F.-J., Liu, H.-Y.*, Yin, Y., Hu, G.Z., Wu, X.C., 2011. Vegetation succession prevents dry lake beds from becoming dust sources in the semiarid steppe region of China. Earth Surface Processes and Landforms, 36: 864-871

62.  Liu, H.-Y.*, Yin, Y., Zhu, J.-L., Zhao, F.-J., Wang, H.-Y., 2010. How did forest respond to Holocene climate drying at the forest-steppe ecotone in northern China? Quaternary International, 227: 46-52

63.  Zhang, Y.-K., Liu, H.-Y.*, 2010. How did climate drying reduce ecosystem carbon storage in the forest–steppe ecotone? A case study in Inner Mongolia, China. Journal of Plant Research, 123: 543-549

64.  Wang, H.-Y.*, Liu, H.-Y., Zhu, J.-L., Yin, Y., 2010. Holocene environmental changes as recorded by mineral magnetism of sediments from Anguli-nuur Lake, southeastern Inner Mongolia Plateau, China. Palaeogeography Palaeoclimatology Palaeoecology, 285(1-2): 30-49

65.  Wang, H.-Y.*, Liu, H.-Y., Liu, Y.-H., Cui, H.-T., Abrahamsen, N., 2010. Mineral magnetism and other characteristics of sediments from an alpine lake (3,410 m a.s.l.) in central China and implications for late Holocene climate and environment. Journal of Paleolimnology, 43(2): 345-367

66.  Herzschuh, U.*, Birks, H.J.B., Ni, J., Zhao, Y., Liu, H.-Y., Liu, X.-Q., Gross, G., 2010. Holocene land-cover changes on the Tibetan Plateau. Holocene, 20 (1): 91-104

67.  Li, A., Guo, D.-L.*, Wang, Z.-Q., Liu, H.-Y., 2010. Nitrogen and phosphorus allocation in leaves, twigs, and fine roots across 49 temperate, subtropical and tropical tree species: a hierarchical pattern. Functional Ecology, 24(1): 224-232  

68.  Piao, S.-L.*, Ciais, P., Lomas, M., Beer, C., Liu, H.-Y., Fang, J.-Y., Friedlingstein, F., Huang, Y., Muraoka, H., Son, Y., Woodward, I., 2010. Contribution of climate change and rising CO2 to terrestrial carbon balance in East Asia: A multimodel analysis. Global and Planetary Change, 75(3-4): 133-142.

69.  Piao, S.-L.*, Cias, P., Huang, Y., Shen, Z.-H., Peng, S.-S., Li, J.-S., Zhou, L.-P., Liu, H.-Y., Ma, Y.-C., Ding, Y.-H., Friedlingstein, P., Liu, C.-Z., Tan, K., Yu, Y.-Q., Zhang, T.-Y., Fang, J.-Y., 2010. The impacts of climate change on water resources and agriculture in China. Nature, 467, 43-51

70.  Liu, H.-Y.*, Cui, H.-T., 2009. Patterns of plant biodiversity in the woodland-steppe ecotone in southeastern Inner Mongolia. Contemporary Problems of Ecology, 2(4): 322-329

71.  Liang, E.-Y.*, Eckstein, D., Liu, H.-Y., 2009. Assessing the recent grassland greening trend in a long-term context based on tree-ring analysis: A case study in North China Ecological Indicators, 9:12801283

72.  Wu, X.-C., Liu, H.-Y.*, Ren, J., He, S.-Y., Zhang, Y.-K., 2009.Water-dominated vegetation activity across biomes in mid-latitudinal eastern China. Geophysical Research Letters,36, L04402, doi:10.1029/2008GL036940

73.  Liu, H.-Y.*, Ji, Z.-K., Tian, J., 2008. Reconstruction of former halophilous desert vegetation at the present cropland sites using soil conditions analogy. Folia Geobotanica, 43(1): 35-47

74.  Liu, H.-Y.*, Wei, F.-L., Liu, K. and Zhu, J.-L., 2008. Determinants of pollen dispersal in the East Asian steppe at different spatial scales. Review of Palaeobotany and Palynology, 149(3-4): 219-228

75.  Liu, H.-Y.*, Yin, Y., Ren, J., Tian, Y.-H., Wang, H.-Y., 2008. Climatic and anthropogenic controls of topsoil features in the semi-arid East Asian steppe. Geophysical Research Letters, 35(4): L04401, doi:10.1029/2007GL032980

76.  Liang, E.-Y.*, Eckstein, D., Liu, H.-Y., 2008. Climate-growth relationships of relict Pinus tabulaeformis at the northern limit of its natural distribution in northern China. Journal of Vegetation Science 19: 393-406

77.  Liang, E.-Y.*, Shao, X.-M., Liu, H.-Y., Eckstein, D., 2007, Tree-ring based PDSI reconstruction since AD 1842 in the Ortindag sand land, east Inner Mongolia. Chinese Science Bulletin, 52 (19): 2715-2721

78.  Ren, J., Liu, H.-Y.*, Yin, Y., He, S.-Y., 2007. Drivers of greening trend across vertically distributed biomes in temperate arid Asia. Geophysical Research Letters, 34: L07707, doi:10.1029/2007GL029435

79.  Liu, H.-Y.*, Wang, Y., Tian, Y.-H., 2006. Climatic and anthropogenic controls of surface pollen in East Asian steppes. Review of Palaeobotany and Palynology, 138(3-4): 281-289

80.  Xu, L.-H., Liu, H.-Y.*, Chu, X.-Z., Su, K., 2006, Desert vegetation patterns at the northern foot of Tianshan Mountains: The role of soil conditions. Flora, 206(1): 44-50

81.  Piao, S.-L.*, Fang, J.-Y., Liu, H.-Y., Zhu, B., 2005. Dynamics of desertification in China over the past two decades from satellite data. Geophysical Research Letter, 32, L06402, doi:10.1029/2004 GL021764

82.  Wang, H.-Y.*, Liu, H.-Y., Liu, Y.-H., Cui, H.-T., 2004. Mineral magnetism of lacustrine sediments and Holocene palaeoenvironmental changes in Dali Nor area, southeast Inner Mongolia Plateau, China. Palaeogeography, Palaeoclimatology, Palaeoecology, 208(3-4):173-190

83.  Liu, H.-Y.* Xing, Q.-R., Ji, Z.-K., Xu, L.-H., Tian, Y.-H., 2003. An outline of Quaternary development of Fagus forest in China: palynological and ecological perspectives. Flora, 198(4): 249-259

84.  Liu, H.-Y.*, Tian, Y.-H., Ding, D., 2003. Contribution of different land cover types to the material source of dust stormy weather in Beijing. Chinese Science Bulletin, 48(17):1853-1856

85.  Liu, H.-Y.*, Xu, L.-H., Cui, H.-T., 2002, Holocene history of desertification along the woodland-steppe border in northern China. Quaternary Research, 57: 259-270

86.  Liu, H.-Y.*, Cui, H.-T., Yu, P.-T., Huang, Y.-M., 2002, The origin of remnant forest stands of Pinus tabulaeformis in southeastern Inner Mongolia, China. Plant Ecology, 158(3): 139-151

87.  Liu, H.-Y.*, Cui, H.-T., Tang, Z.-Y., Dai, J.-H., Tang, Y.-X., 2002, Larch timberline and its development in temperate China. Mountain Research and Development, 22(4): 359-367

88.  Liu, H.-Y.*, Xu, L.-H., Cui, H.-T., Chen C.-D., Xu, X.-Y., 2002, Vegetation pattern and conservation strategy of the extremely-arid desert of Anxi region, NW China. Journal of Environmental Sciences, 14(3): 380-387

89.  Fang, J.-Y.*, Liu, H.-Y., Piao, S.-L., 2002Vegetation-climate relationship and its application in vegetation regionalization in China. Acta Botanica Sinica, 44(9): 1105-1122

90.  Liu, H.-Y.*, Xu, L.-H., Tian, Y.-H., Cui, H.-T., 2002, Tempo-spatial variances of Holocene precipitation at the marginal area of the eastern Asia monsoon influences from pollen evidence. Acta Botanica Sinica, 44(7): 864-871

91.  Liu, H.-Y.*, Cui, H.-T., Huang, Y.-M., 2001, Detecting Holocene movements of the woodland-steppe ecotone in northern China using discriminant analysis. Journal of Quaternary Science, 16(3): 237-244

92.  Wang, H.-Y.*, Liu, H.-Y., Cui, H.-T., Abrahamsen, H., 2001, Terminal Pleistocene/Holocene palaeoenvironmental changes revealed by mineral-magnetism measurements of lake sediments for Dali Nor area, southeastern Inner Mongolia Plateau, China. Palaeogeography, Palaeoclimatology, Palaeoecology, 170: 115-132

93.  Liu, H.-Y.*, Cui, H.-T., Pott, R., Speier, M., 2000, Vegetation of the woodland-steppe ecotone in southeastern Inner Mongolia, China. Journal of Vegetation Science, 11(4): 525-532

94.  Liu, H.-Y.*, Cui, H.-T., Pott, R., Speier, M., 1999, Surface pollen of the woodland-steppe ecotone in southeastern Inner Mongolia, China. Review of Palaeobotany and Palynology, 105(3-4): 237-250

95.  Cui, H.-T.*, Liu, H.-Y., Yao, X.-S., 1997, The finding of the paleo-spruce timber in the Hunshandak sandy land and its paleoecological significance. Science in China (Series D), 40(6): 599-604



著作

1. 刘鸿雁,2002,《第四纪生态学与全球变化》,科学出版社

2. 崔海亭、刘鸿雁、戴君虎,2005,《山地生态学与高山林线研究》,科学出版社