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劉鴻雁

北京大學城市與環境學院副院長

劉鴻雁 男,漢族,1968年出生於湖南省茶陵縣,2007年開始擔任城市與環境學院副院長、教授。

研究方向:植被生態學與生態遙感,第四紀生態學與全球變化;

所屬系別:生態學系。

個人簡介


劉鴻雁,男,漢族,1968年出生於湖南省茶陵縣,1985年9月考入北京大學地理系自然地理專業,1989年獲北京大學理學學士學位,1992年獲北京大學環境地學專業理學碩士學位,1994年開始攻讀在職博士,1995年在同濟大學留德預備部學習德語,1997年受原國家教委公派赴聯邦德國漢諾威大學生物系學習,1998/1999年獲漢諾威大學植物學專業和北京大學自然地理學專業博士學位。2000年10月至2001年3月獲中加學術交流計劃支持在加拿大卡爾加里大學訪問。2005年10月-2008年2月為德國波茨坦氣候影響研究所(PIK)洪堡學者(其間中斷回國)。
1992年開始在北京大學城市與環境學系(環境學院、城市與環境學院)任教,歷任助教、講師、副教授,2004年晉陞為教授。2007年開始擔任城市與環境學院副院長。

擔任職務


國際植被科學學會Ecoinformatics工作組成員(2015-)
亞洲樹輪學會理事(2015-)
中國生態學會理事(2013-)
中國第四紀科學研究會理事(2016-)
中國古生物學會孢粉分會理事(2005-)
中國生物地理研究會理事(2000-)
國際景觀生態學協會中國分會理事(1996-)

研究成果


已主持和參與完成科研課題共22項,共發表學術論文80餘篇,其中SCI論文35篇。SCI論文他引近200次。近年來獲得的獎勵包括高等學校科學研究優秀成果獎(教育部自然科學獎)二等獎(排名第一)(2010)、第七屆全國青年地理科技獎(2003)、北京大學教學成果一等獎(2004)、第五屆第四紀青年科學家獎(2005)。

榮譽與獎勵


北京市教學成果一等獎(排名第三,2013)
高等學校科學研究優秀成果獎(教育部自然科學獎)二等獎(排名第一,2010)
德國洪堡學者(2005-2008)
第五屆第四紀青年科學家獎(2005)
北京大學教學成果一等獎(2004)
第七屆全國青年地理科技獎(2003)

課程教學


當前主講:

1)本科生專業基礎課“植物學(下)(植物分類與植物地理)”
2)本科生專業必修課“野外生態學”(地理專業“植物地理土壤地理實習”)
3)本科生拔尖人才課程“生態學與地理學前沿”
4)研究生專業基礎課“生態學研究進展”(2015-)

參與講授

本科生專業基礎課“生態學基礎與應用”

曾經講授

本科生專業基礎課“植物地理學”(1992-2004)
本科生專業課“應用生態學”(合作講授,1992-2004)
研究生專業課“陸地自然生態系統學”(1992-2014)
研究生專業課“植被生態學”(1996)

科學研究


研究目標

以亞洲內陸旱區植被為研究對象,探討溫帶森林、草原、荒漠和濕地等生態系統如何響應氣候變化,它們的生態系統服務(如防風固沙、涵養水源等)在氣候變化過程中可能發生的變化以及生態恢復與生態系統服務改善之間的關係。近期側重以下幾個方面的研究:
1)季風氣候邊緣區過去氣候變化與植被的敏感性分析
2)溫帶不同生態系統類型生產力動態的驅動因子分析
3)水分和土壤營養對草原帶天然和人工林生長的限制
4)森林、灌叢和草原植被對氣候乾旱化的生態適應性機理
5)乾旱、半乾旱區植被退化和植被恢復對其生態系統服務的影響

在研項目

1)植物地理學(國家傑出青年基金項目,2014-2017,負責人)
2)中國半乾旱區東段動態森林動態及其對氣候變化的響應(國家自然科學基金重點項目,2016-2020,負責人)
3)華北地區自然植物群落資源綜合考察(科技部基礎性工作專項,2011-2016,總負責人)
4)北方農牧交錯帶草地退化過程與趨勢分析(國家重點研發計劃課題,2016-2020,負責人)
5)喀斯特關鍵帶生態系統服務形成機理與土地利用優化(中英合作地球關鍵帶計劃課題,2016-2019,負責人)
6)中國陸地植被的時空格局與生態功能(國家自然科學基金創新團隊項目,2011-2016,項目成員)

科研條件

1) 孢粉分析設備
2) 樹木年輪分析設備(TSAP)
3) 植被數量生態分析軟體
4) 植被遙感分析軟體
5) 動態全球植被模型
6)森林和草原固定樣地

教研成果


1. 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, in press.
2. 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
3. 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
4. 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
5. 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
6. 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
7. 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 forest–steppe ecotone in Northern China reconstructed from lacustrine sediments.Palaeogeography, Palaeoclimatology, Palaeoecology, 449: 79-84
8. Hao, Q.,Liu, H.-Y.*, Liu, X., 2016. Pollen-detected altitudinal migration of forests during the Holocene in the mountainous forest–steppe ecotone in northern China.Palaeogeography, Palaeoclimatology, Palaeoecology, 446: 70–77
9. 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
10. 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
11. 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
12. 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: 347–355
13. 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
14.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
15.Liu, H.-Y.*, Brueheide, H., Elward, J., Chytrý, M., 2015. Temperate forests in continental East Asia.Applied Vegetation Science,18: 3–4
16.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
17. 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
18.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
19. 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
20. 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
21. 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
22. 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
23.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
24. 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
25. 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
26.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
27.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.
28.Liu, H.-Y.*,Liu, K., Wei, F.-L., 2013.Aretemisiapollen-indicated steppe distribution in southern China during the Last Glacial Maximum.Journal of Palaeogeography,2: 297-305
29.Liu, H.-Y.*, Piao, S.-L., 2013. Drought threatened semi-arid ecosystems in the Inner Asia.Agricultural and Forestry Meteorology, 178-179: 1-2
30. 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
31. 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
32. 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
33. 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
34. 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
35. 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
36. 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.0042619
37. 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
38.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
39. 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 theArtemisia/Chenopodiaceae pollen ratio in arid and semi-arid China.The Holocene,22: 1385-1392
40. 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
41. 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, Palaeoecology307: 168–176
42. 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
43.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
44. 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
45. 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
46. 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
47. 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
48. 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
49. 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.
50.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
51.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
52. 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 ChinaEcological Indicators, 9:1280–1283
53. 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
54.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
55.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
56.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
57. 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
58. Liang, E.-Y.*, Shao, X.-M.,Liu, H.-Y., Eckstein, D., 2007, Tree-ring based PDSI reconstruction since AD1842 inthe Ortindag sand land, east Inner Mongolia. Chinese Science Bulletin, 52 (19): 2715-2721
59. 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
60.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
61. 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
62. 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
63. 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
64.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
65.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
66.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
67.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
68.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
69.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
70. Fang, J.-Y.*,Liu, H.-Y., Piao, S.-L., 2002,Vegetation-climate relationship and its application in vegetation regionalization in China.Acta Botanica Sinica,44(9): 1105-1122
71.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
72.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
73. 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
74.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
75.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
76. 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
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