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劉曉宏
作者:wy2009106          發布時間:2018-05-30          瀏覽次數:




     







姓    名

劉曉宏

性    別

出生年月


19727


最終學歷

博士

職    稱

教授(博導)

電   話

 

13893378787


學    位

博士

電子郵箱


xhliu@snnu.edu.cn


通信地址


陜西師范大學99號信箱

(710062)


研究方向


樹輪穩定同位素與全球變化生態學



個人簡介

      19967月畢業于西北農林科技大學(原西北農業大學)土壤農化系,獲農學學士學位;19969-19996月在中國科學院水利部水土保持研究所學習,獲土壤學理學碩士學位;19999-20036月中國科學院寒區旱區環境與工程研究所攻讀博士學位,獲自然地理學理學博士學位;20037-20053月在中國科學院地理科學與資源研究所開展博士后合作研究。20117-20127月,美國亞利桑那大學訪問學者。陜西師范大學地理科學與旅游學院教授,中國科學院西北生態環境資源研究院研究員,中國科學院地球環境研究所客座研究員,中國科學院大學兼職教授。  

主要利用樹木年輪穩定碳、氧及氫同位素比率,結合寬度資料,開展我國西部氣候變化和樹木生長動態與長期水分利用效率變化方面的研究。在我國西北干旱半干旱區和西南季風影響區取得重要進展,拓展和推進了我國樹輪穩定同位素氣候學和生態學的發展及其在全球變化研究中的應用。在國內外已發表學術論著70余篇,其中SCI期刊收錄45篇(第一和通訊作者論文38篇)。

國際及國內20余種學術期刊審稿人(Earth Planetary Science Letters, Journal of Geophysical Research, Geophysical Research Letters, Quaternary Science Reviews, Chemical Geology, The Holocene, Biogeoscience, Quaternary Research, Quaternary International, Climatic DynamicsClimatic Change, Journal of Hydrology, Trees, Tree-ring Research, Dendrochronologia, Global Planetary Change, Water Resource Research, Ecological Indicator, International Journal of Biography, Journal of Mountain Science, Boreas, PLOS One, Frontiers in Plant Science, 中國科學-地球科學,科學通報和第四紀研究等國內外學術期刊)


學術研究


1. 代表性科研項目

1)國家重點基礎研究發展計劃(973計劃)專題:冰凍圈要素的樹木年輪重建及變化研究。20131- 2017-12月,負責人。

2)國家自然科學基金:我國夏季風北邊緣區樹輪早晚材及年內δ13Cδ18O變化型季節性氣候信號的識別及其氣候意義。20161-201912月,負責人。

3國家自然科學基金:黑河流域樹輪同位素記錄的樹木長期水分利用效率和水分來源變化。20121-201512月,負責人。

4)中國科學院知識創新工程方向性項目(青年人才類):橫斷山區樹輪穩定碳氧氫同位素比率氣候意義。20101月-201212月,負責人。

5)國家自然科學基金:柴達木盆地東緣祁連圓柏樹輪碳氧氫同位素長序列的建立及其氣候意義。20091月-201112月,負責人。

6)全球變化研究國家重大科學研究計劃項目子課題:歐亞大陸典型地區樹輪氣候學研究。20101月-201412月,負責人。

7)國家重點基礎研究發展計劃(973計劃)專題:西部樹輪氣候記錄與典型冰川資料及環境要素對比。20078月-20118月,負責人。

8)國家自然科學基金:祁連山青海云杉樹輪碳同位素空間變化。20051月-200812月,負責人。


2. 發表論文*通訊作者)

1) Xiaomin Zeng, Xiaohong Liu*, Treydte K., Evans M, Wenzhi Wang, Wenling An, et al., 2017. Common variability and climate signals in intra-seasonal, earlywood, latewood and multi-decadal tree-ring δ18O from southeastern Tibet compared to δ13C: insights from observations and forward modeling. New Phytologist, doi: 10.1111/nph.14750

2) Xuanwen Zhang, Xiaohong Liu*, Qiuliang Zhang et al., 2018. Species-specific tree growth and intrinsic water-use ef?ciency of Dahurian larch (Larix gmelinii) and Mongolian pine (Pinus sylvestris var. mongolica) growing in a boreal permafrost region. Agricultural and Forest Meteorology, 248, 145-155

3) Xiaohong Liu *, Xuanwen Zhang, Liangju Zhao, et al., 2017. Tree-ring δ18O reveals no long-term change of atmospheric water demand since 1800 in the northern Great Higgnan Mountains, China. Journal of Geophysical Research – Atmosphere, 1226697-6712DOI: 10.1002/2017JD026660.

4) Dawen Li, Keyan Fang, Yingjun Li, Deliang Chen, Xiaohong Liu, et al., 2017. Climate, intrinsic water-use efficiency and tree growth over the past 150 years in humid subtropical China. PLOS one, 12(2): e0172045.

5) Ru Huang, Haifeng Zhu, Xiaohong Liu*, et al., 2017. Does increasing intrinsic water use efficiency (iWUE) stimulate tree growth at natural alpine timberline on the southeastern Tibetan Plateau? Global Planetary Change,148, 217-226

6) Bo Wang, Tuo Chen, Guobao Xu, Xiaohong Liu, et al., 2016.Alpine timberline population dynamics under climate change: a comparison between Qilian juniper and Qinghai spruce tree species in the middle Qilian Mountains of northeast Tibetan Plateau. Boreas, doi:10.1111/bor.12161

7) Liangju Zhao, Lixin Wang, Lucas A Cernusak, Xiaohong Liu, et al., 2016. Significant difference in hydrogen isotope composition between xylem and tissue water in Populus euphratica. Plant Cell & Environment, 39, 1848-1857, doi: 10.1111/pce.12753.

8) Xiaoming Zeng, Xiaohong Liu*, Evans MN, et al., 2016. Seasonal incursion of Indian Monsoon humidity and precipitation onto the southeastern Qinghai-Tibetan Plateau inferred from tree ring δ18O values with intra-seasonal resolution. Earth Planetary Science Letters, 4439-19doi:10.1016/j.epsl.2016.03.011.

9) Wenzhi Wang, Xiaohong Liu*, Guobao Xu, et al., 2016. Climatic instability of millennium tree-ring δ13C chronology in the northeastern part of Qaidam Basin. Global Planetary Change, 139, 165-172, 10.1016/j.gloplacha.2016.02.006

10)Guoju Wu, Xiaohong Liu*, Tuo Chen, et al. 2015. Elevation-dependent variations of tree growth and iWUE in Schrenk spruce (Picea schrenkiana) in the western Tianshan Mountains, China. Frontiers in Plant Science6: 309. doi: 10.3389/fpls.2015.00309

11)Guobao Xu, Xiaohong Liu*, Guoju Wu, et al., 2015. Tree ring δ18O’s indication of a shift to a wetter climate since the 1880s in the western Tianshan Mountains of northwestern China. Journal of Geophysical Research - Atmosphere, 120, 6409-6425, doi: 10.1002/2014 JD023027.

12)Wenzhi Wang, Xiaohong Liu*, Xuemei Shao, et al., 2015. Differential response of the Qilian juniper radial growth to climate variations in the middle of Qilian Mountains and the northeastern Qaidam Basin. Climatic Change, 133, 237-251, doi: 10.1007/s1058 4-015-1467-2.

13)Guoju Wu, Xiaohong Liu*, Tuo Chen, et al., 2015. Long-term variation of tree growth and intrinsic water-use efficiency in Schrenk spruce with increasing CO2 concentration and climate change in China's Tianshan Mountains. Acta Physiologiae Plantarum, 37, 150, 10.1007/s11738-015-1903-y.

14)Xiaohong Liu, Wenling An, Kerstin Treydte, et al., 2015.Pooled versus separate tree-ring δD measurements, and implications for reconstruction of the Arctic Oscillation in northwestern China. Science of Total Environment, 511, 584-594, doi: 10.1016/j.scitotenv. 2015. 01. 002

15)Zhao Liangju, Wang Lixin, Liu Xiaohong et al., 2014. The patterns and implications of diurnal variations in d-excess of plant water, shallow soil water and air moisture. Hydrology and Earth System Sciences, 18, 4129-4151, doi:10.5194/hess-18-1-2014.

16)Xiaohong Liu, Wenzhi Wang, Guobao Xu, et al., 2014. Tree growth and intrinsic water-use efficiency of inland riparian forest in NW China: evaluation via δ13C and δ18O analysis of tree rings. Tree Physiology, 34(9), 966-980, doi:10.1093/treephys/tpu067.

17)Liu Xiaohong, Xu Guobao, Jussi Grie?inger, et al., 2014. A shift in cloud cover over the southeastern Tibetan Plateau since 1600: evidence from regional tree-ring δ18O and its linkages to tropical oceans. Quaternary Science Reviews, 88, 55-68, doi: 10.1016/j.quascirev. 2014.01.009.

18)Zeng Xiaomin, Liu Xiaohong *, Guobao Xu, et al., 2014. Tree-ring growth recovers, but δ13C and δ15N do not change, after the removal of point-source air pollution: a case study for poplar (P. cathayana) in northwestern China. Environment Earth Sciences, 72, 2173-2182doi: 10.1007/s12665-014-3127-7.

19)Xiaomin Zeng, Xiaohong Liu*, Guobao Xu, et al., 2014. No altitude-dependent effects on climatic signals record in tree-ring δ18O contrast to the shift in tree growth: A case study on southeastern Tibetan Plateau. Boreas, 43, 588-599, doi: 10.1111/bor.12053.

20)Wenling An, Xiaohong Liu*, Steven W. Leavitt, et al., 2014. Relative humidity history on the Batang–Litang Plateau of western China since 1755 reconstructed from tree-ring δ18O and δD data. Climatic Dynamics, 42, 2639-2654, doi: 10.1007/s00382-013-1937-z

21)Xiaohong Liu, Wenling An, Steven Leavitt, et al., 2014. Recent strengthening of correlations between tree-ring δ13C and δ18O in mesic western China: implications to climatic reconstruction and physiological responses. Global Planetary Change, 113, 23-33, doi: 10.1016/j.gloplacha.2013.12.005.

22)Guobao Xu, Xiaohong Liu*, Dahe Qin, et al., 2014. Relative humidity reconstruction for the Altay Mountains, in China using tree-ring δ18O. Chinese Science Bulletin, 59(2), 190-200, doi: 10.1007/s11434-013-0055-y

23)Guobao Xu, Xiaohong Liu*, Dahe Qin, et al. 2014. Reconstruction of a drought history for the eastern Tianshan Mountains of northwestern China since 1700 AD: evidence from tree-ring δ18O. International Journal of Climatology, 34, 3336-3347, doi: 10.1002/joc.3911.

24)Guobao Xu, Xiaohong Liu*, Dahe Qin, et al., 2014. Drought history inferred from tree-ring δ13C and δ18O at the Middle Tianshan Mountains from Northwestern China, and it’s linkage to North Atlantic Oscillation, Theory Apply Climatology, 116, 385-401, doi: 10.1007/s00704-013-0958-1.

25)Xiaohong Liu, Xiaomin Zeng, Steven Leavitt, et al., 2013. A 400-year tree-ring δ18O for the southeastern Tibetan Plateau: implications to variations of regional hydroclimate. Global Planetary Change, 10423-3310.1016/j.gloplacha.2013.02.005.

26)Guobao Xu, Xiaohong Liu*, Dahe Qin, et al. 2013. Climate warming and increasing atmospheric CO2 have contributed to increased intrinsic water-use efficiency on the northeastern Tibetan Plateau since 1850. Trees - Structure and Function, 27 465-475doi 10.1007/s00468-013-0855-3.

27)Wenzhi Wang, Xiaohong Liu*, Guobao Xu, et al., 2013. Moisture variations during last millennium reflected by tree-ring δ18O in the Qaidam Basin. Chinese Science Bulletin, 32, 3956-3961doi: 10.1007/s11434-013-5913-0

28)Liangju Zhao, Honglang Xiao, Lixin Wang, Xiaohong Liu. 2013. The effects of short-term rainfall variability on leaf isotopic traits of desert plants in sand-binding ecosystems. Ecological Engineer 60 116-125

29)Guoju Wu, Guobao Xu, Tuo Chen, Xiaohong Liu, et al., 2013. Age-dependent tree-ring growth responses of Schrenk spruce (Picea schrenkiana) to climate - A case study in the Tianshan Mountain, China. Dendrochronologia 31, 318-326

30)Xiaohong Liu, Wenling An, K Treydte et al., 2012. Regional Cloud Cover and SST Variations Recorded in Tree-ring δ18O of a Temperate Forest in Southwestern China. Chemical Geology, 291104-115doi:10.1016/j.chemgeo.2011.10.001.

31)Wenling An, Xiaohong Liu *, Steven W. Leavitt, et al., 2012. Specific climatic signals recorded in earlywood and latewood δ18O of tree rings in southwestern China. Tellus B, 64, 18703

32)Wenzhi Wang, Xiaohong Liu *, Wenling An., Guobao Xu., Xiaomin Zeng. 2012. Increased intrinsic water-use efficiency against the persisting decreased tree-radial growth in eastern part of northwestern China: causes and implications. Forest Ecology and Management, 275 14-2210.1016/j.foreco.2012.02.027

33)Xiaohong Liu, Liangju Zhao, Tuo Chen, et al., 2011. Combined tree-ring width and δ13C to reconstruct snowpack depth: a pilot study in the Gongga Mountain, west China. Theor Appl Climatol 103, 133-144.

34)Xiaohong Liu, Wenling An, Eryuan Liang, et al., 2011. Spatiotemporal variability in tree ring’s δ13C of Picea crassifolia in the Qilian Mountains: climatic significance and responses to rising CO2. Sciences in Cold and Arid Regions3(2), 93-102, doi: 10.3724/SP.J.1226.2011.00093

35)Xu Guobao, Chen Tuo, Liu Xiaohong*, Jin Liya, An Wenling, Wang Wenzhi. 2011. Summer temperature variations recorded in tree-ring δ13C values in the north-eastern Tibetan Plateau. Theory Apply Climatology, 105, 51-63

36)Guobao Xu, Tuo Chen, Xiaohong Liu*, Wenling An, Wenzhi Wang, Hanbo Yun. 2011. The Possible Linkages between the moisture variability on the northeastern Qaidam Basin, China Since 1800 AD and the East Asian Summer Monsoon Reflected by Tree-ring δ18O. Journal of Geophysical Research - Atmosphere 116, D09111, doi: 10.1029/2010JD015053

37)Wenzhi Wang, Xiaohong Liu*, Xuemei Shao, et al. 2011. A 200-yr temperature record from tree-ring δ13C at the Qaidam Basin of the Tibetan Plateau after identifying the optimum method to correct for changing atmospheric CO2 and δ13C. Journal of Geophysical Research 116, G04022, doi:10.1029/ 2011JG001665

38)Xiaohong Liu, Xuemei Shao, Eryuan Liang et al., 2009. Climatic significance of tree-ring δ18O in the Qilian Mountains, northwestern China and its relationship to atmospheric circulation patterns. Chemical Geology 268, 147-154

39)Xiaohong Liu, Xuemei Shao, Wang Lily, et al., 2008. Response and dendroclimatic implications of δ13C in tree rings to increasing drought on the northeastern Tibetan Plateau. Journal of Geophysical Research 113, G03015, doi: 10.1029/2007JG000610

40)Xiaohong Liu, Xuemei Shao, Liangju Zhao, et al., 2007.Dendroclimatic temperature record derived from tree-ring width and stable carbon isotope chronologies in the middle Qilian Mountains, China. Arctic Antarctic and Alpine Research39(3), 651-657

41)Xiaohong Liu, Xuemei Shao, Eryuan Liang et al., 2007. Species-dependent responses of juniper and spruce to increasing CO2 concentration and to climate in semi-arid and arid areas of northwestern China. Plant Ecology, 193: 195-209

42)Xiaohong Liu, Xuemei Shao, Lily Wang, et al., 2007. Climatic significance of the stable carbon isotope composition of tree-ring cellulose: comparison of Chinese hemlock (Tsuga chinensis Pritz) and alpine pine (Pinus densata Mast) in a temperate-moist region of China. Science in China series D- Earth sciences 50(7): 1076-1085.

43)Xiaohong Liu, Liangju Zhao, Menassie G, et al., 2007. Foliar δ13C and δ15N values of C3 plants in the Ethiopia Rift Valley and their environmental controls. Chinese Science Bulletin 52(9): 1265-1273

44)Xiaohong Liu, Dahe Qin, Xuemei Shao, et al., 2005. Temperature variations recorded in tree-rings of middle Qilian Mountains during the last millennium. Science in China, series D- Earth sciences 2005, 8: 521-529

45)Xiaohong Liu, Dahe Qin, Xuemei Shao, et al., 2003. Climatic significance of stable carbon isotope in tree-rings of Abies spectabibis in south-eastern Tibet. Chinese Science Bulletin 48(18): 2000-2004

46)Eryuan Liang, Xuemei Shao, Xiaohong Liu. 2009. Annual precipitation variation inferred from tree rings since AD 1770 for the western Qilian Mountains, northern Tibetan Plateau. Tree-ring Research 65(2)95-103

47)Eryuan Liang, Xiaohong Liu, Yujiang Yuan, et al. 2006. The 1920s drought recorded by tree rings and historical documents in the semi-arid and arid areas of northern China. Climatic Change 70: 403-432

48)Eryuan Liang, Xuemei Shao, D Eckstein, Xiaohong Liu. 2006. Topography- and species-dependent growth responses of Sabina przewalskii and Picea crassifolia to climate on the northeast Tibetan Plateau. Forest Ecology and management 26: 268-277

49)Eryuan Liang, Xuemei Shao, D Eckstein, Xiaohong Liu. 2010. Spatial variability of tree growth along a latitudinal transect in the Qilian Mountains, northeastern Tibetan Plateau. Can J For Research 40: 200-211

50)Liangju Zhao, Honglang Xiao, Xiaohong Liu, et al., 2010. Correlations between δ13C and δ15N in C4 and C3 plants of natural and artificial sandbinding microhabitats in the Tengger Desert of China. Ecological Informatics 5, 177-186

51)Liangju Zhao, Honglang Xiao, Xiaohong Liu, et al. 2007. Correlations of foliar Delta with K concentration and ash content in sand-fixing plants in the Tengger Desert of China: patterns and implications. Environmental Geology 51(6): 1049-1056

52)Liangju Zhao, Honglang Xiao, Xiaohong Liu. 2007. Relationships between carbon isotope discrimination and yield of spring wheat under different water and nitrogen levels. Journal of Plant Nutrition, 30(6), 947-963.

53)Liangju Zhao, Honglang Xiao, Xiaohong Liu, et al., 2007. Foliar stable carbon isotope discrimination and nutrients contents in two desert plant species. Polish Journal of Ecology, 55(1), 57-66

54)Liangju Zhao, Honglang Xiao, Xiaohong Liu. 2006. Variations of foliar carbon isotope discrimination and nutrient concentrations in Artemisia ordosica and Caragana korshinskiiat at the southeastern margin of China’s Tengger Desert. Environ Geol., 50, 285-294

55)張軒文,楊麗,劉曉宏*,等2017)大興安嶺北部多年凍土區落葉松和樟子松生長的氣候響應差異研究。冰川凍土,391, 165-173

56)劉曉宏, 徐國保, 王文志, (2015) 樹輪穩定同位素記錄:進展、問題及展望。第四紀研究,35(5), 1245-1260

57)徐國保,劉曉宏*,陳拓,等(2015) 中國西部樹木年輪δ18的氣候信號。第四紀研究,35(5), 1218-1216

58)王文志,劉曉宏*,徐國保, 等(2013柴達木盆地樹輪δ18O記錄的過去1000年濕度變化。科學通報,58, 3458-3463.

59)徐國保,劉曉宏*,秦大河,等(2014) 樹木年輪δ18O記錄的中國西北阿爾泰山區相對濕度變化。科學通報,591478.

60)劉曉宏, 劉禹, 徐國保, (2010) 樹木年輪穩定同位素分析樣品前處理方法探討. 冰川凍土, 32(6): 1242-1250.

61)劉曉宏, 安文玲, 梁爾源, (2010) 祁連山青海云杉樹輪δ13C的時空變化及其氣候意義. 冰川凍土, 32(04): 666-676.

62)王文志, 劉曉宏*, 陳拓, (2010). 基于祁連山樹輪寬度指數的區域NDVI重建. 植物生態學報, 201034(9): 1033-1044.

63)徐國保, 劉曉宏*, 陳拓, 等(2009)新疆哈密八大石森林上限樹輪記錄的溫度變化信息. 山地學報,04: 402-410.

64)安文玲, 劉曉宏*, 陳拓,等(2009)云南麗江樹輪δ18O記錄的大氣環流變化信息。地理學報64(09): 1103-1112.

65)贠漢伯, 陳拓, 劉曉宏, (2010) 祁連山青海云杉葉片δ13C特征及其與生理指標關系. 冰川凍土, 32(1): 152-156.

66)劉曉宏, 邵雪梅, 王麗麗, (2007) 溫暖濕潤區鐵杉和高山松樹輪δ13C的氣候意義. 中國科學 D : 地球科學, 37(4): 544-552.

67)劉曉宏,趙良菊,Menassie Gasaw,等 (2007) 東非大裂谷埃塞俄比亞段內C3植物葉片的δ13C和δ15N及其環境指示意義。科學通報,52(2): 199-206

68)劉曉宏,秦大河,邵雪梅,等 (2004) 祁連山中部近千年溫度變化的樹輪記錄。中國科學(D: 地球科學,34(1)8995

69)劉曉宏,秦大河,邵雪梅,等 (2003) 西藏喜馬拉雅冷杉年輪δ13C氣候意義。科學通報, 48(11): 1209-1213

70)劉曉宏,秦大河,邵雪梅,等 (2002) 西藏林芝冷杉樹輪穩定碳同位素對氣候的響應。冰川凍土,245):57457

71)劉曉宏,秦大河,邵雪梅,等。(2003) 西藏林芝地區自公元1650年來降水變化及突變分析。冰川凍土, 25(4): 448-452


3. 人才培養及科研獎勵

指導研究生7名:現在讀碩士生2人,博士生1, 合作博士后2人。指導研究生獲中國科學院優秀博士論文1人次,中國科學院院長特別獎1人次,院長優秀獎3人次,獲研究生國家獎學金3人次,獲盧嘉錫優秀研究生獎1人次,獲朱李月華優秀博士生獎2人次,獲BHBP優秀研究生獎1人次。獲2014年中科院蘭州分院優秀研究生導師和2014年中科院BHPB導師科研獎。