人才详细信息

姓名:梁丽乔
性别:
学历:博士
专家类别:副研究员
电话:010-84097172
传真:010-84097079
电子邮箱:liangliqiao@itpcas.ac.cn
职称:副研究员
通讯地址:北京市朝阳区林萃路16号院3号楼

简介

个人简介: 

梁丽乔,1980年生,中国科学院青藏高原研究所副研究员。主要从事冰川能量与物质平衡、流域水文过程等方向研究。以第一和通讯作者在Journal of Geophysical ResearchJournal of HydrologyAgricultural and Forest MeteorologyScience of the Total EnvironmentJournal of Climate等国际期刊发表论文20余篇。

 

教育背景: 

1998.09–2002.06,曲阜师范大学,地理系,学士 

2002.09–2005.06,中国科学院东北地理与农业生态研究所,硕士 

2005.09–2008.06,中国科学院地理科学与资源研究所,博士 

工作经历: 

2008.07–2011.10,中国科学院地理科学与资源研究所,博士后 

2011.10–2013.04,中国科学院青藏高原研究所,助理研究员 

2013.05–     今,中国科学院青藏高原研究所,副研究员 

研究方向

生态水文对气候变化的响应,冰川物质能量平衡等。

职务

社会任职

 

承担项目

1.  国家自然科学基金面上项目:青藏高原冰川消融与植被动态对径流的协同调控机制(2023-2026),主持

2.  国家自然科学基金面上项目:东帕米尔高原冰川流域冰川消融对径流过程的影响研究(2018-2021),主持

3.  国家自然科学青年基金:蒸散发对气候变化与植被格局演变的响应研究(2012-2014),主持

4.  中国博士后面上资助(2009–2010)和中国科学院王宽诚博士后工作奖励基金(2008-2010),主持

获奖及荣誉

2009.7   中国博士后科学基金 

2008.12 中科院王宽城博士后工作奖励基金 

2007      中国地理学会2007年学术年会青年优秀论文奖 

代表论著

第一作者及通讯作者:

1.        Qiang Liu*, Yuting Yang, Liqiao Liang*, et al. 2023. Thresholds for triggering the propagation of meteorological drought to hydrological drought in water-limited regions of China. Science of the Total Environment.

2.        Jialiang Zhou, Qiang Liu*, Liqiao Liang*, Jun He, Denghua Yan, Xuan Wang, Tao Sun, Shuzhen Li. 2022. More portion of precipitation into soil water storage to maintain higher evapotranspiration induced by revegetation on China’s Loess Plateau, Journal of Hydrology, 128707.

3.        Qiang Liu, Yuting Yang, Liqiao Liang*, Denghua Yan, Xuan Wang, Chunhui Li, Tao Sun. 2022. Shift in precipitation-streamflow relationship induced by multi-year drought across global catchments. Science of the Total Environment, 159560.

4.        Liqiao Liang*, Lan Cuo, Qiang Liu. 2022. The role of the snow ratio in mass balance change under a warming climate for the Dongkemadi Glacier, Tibetan Plateau. Journal of Climate. 35 (12), 3833–3844.

5.        Miao Li, Shuzhen Li, Qiang Liu*, Yinhong Kang, Liqiao Liang*, et al. 2022. Assessment of hydrological response to multiyear drought: Insights from lag characteristics and shift magnitude. Hydrological Process, 36, e14636.

6.        Qiang Liu, Sirui Yan, Miao Li, Xiaojing Ma, Liqiao Liang*, Junlong Zhang, Jihua Pan. 2021. Baseflow separation and its response to meteorological drought in a temperate water-limited basin, north China. Chinese Geographical Science, 31(5), 867–876.

7.        Qiang Liu*, Liqiao Liang*, XiaominYuan, et al. 2021. Regulation of vegetation and evapotranspiration by water level fluctuation in shallow lakes. Water, 13(19), 2651.

8.        Liqiao Liang, Lan Cuo, Qiang Liu*, 2020. Long-term temporal scale-dependent warming effects on the mass balance in the Dongkemadi Glacier, Tibetan Plateau. Journal of Geophysical Research: Atmospheres, 125, e2020JD033105.

9.        Qiang Liu, Jingling Liu, Haifei Liu, Liqiao Liang*, Yanpeng Cai, Xuan Wang, Chunhui Li, 2020. Vegetation dynamics under water-level fluctuations: Implications for wetland restoration. Journal of Hydrology, 581, 124418.

10.    Qiang Liu*, Liqiao Liang*, XiaominYuan, Xia Mou, Liya Su, 2020. Effects of groundwater level changes associated with coastline changes in coastal wetlands. Wetlands, 40(5), 1647-1656.

11.    Liqiao Liang*, Lan Cuo, Qiang Liu. 2019. Mass balance variation and associative climate drivers for the Dongkemadi Glacier in the central Tibetan Plateau. Journal of Geophysical Research: Atmospheres, 124, 10,814-10,825.

12.    Liqiao Liang, Lan Cuo*, Qiang Liu, 2018. The energy and mass balance of a continental glacier: Dongkemadi Glacier in central Tibetan Plateau. Scientific Reports, 8, 12788.

13.    Liqiao Liang*, Qiang Liu, 2014. Streamflow sensitivity analysis to climate change for a large water-limited basin. Hydrological Processes, 28, 1767-1774.

14.    Liqiao Liang*, Lijuan Li, Changming Liu, Lan Cuo, 2013. Climate change in the Tibetan Plateau Three Rivers Source Region: 1960–2009. International Journal of Climatology, 33, 2900–2916.

15.    Liqiao Liang, Lijuan Li*, Qiang Liu, 2011. Precipitation variability in Northeast China from 1961 to 2008. Journal of Hydrology, 404, 67-76. 

16.    Liqiao Liang, Lijuan Li*, Qiang Liu, 2011. Spatio–temporal variations of reference crop evapotranspiration and pan evaporation in West Songnen Plain of China. Hydrological Sciences Journal, 56(7), 1300-1313.

17.    Liqiao Liang, Lijuan Li*, Qiang Liu, 2010. Temporal variation of reference evapotranspiration during 1961-2005 in the Taoer River basin of Northeast China. Agricultural and Forest Meteorology, 50, 298–306.

18.    Liqiao Liang, Lijuan Li*, Qiang Liu, 2010. Spatial distribution of reference evapotranspiration considering topography in the Taoer River basin of Northeast China. Hydrology Research, 41(5), 424-437.

19.    Liqiao Liang, Lijuan Li*, Li Zhang, Jiuyi Li, Bin Li, 2008. Sensitivity of the Penman-Monteith reference crop evapotranspiration in the Taoer River basin. Chinese Geographical Science, 18(4), 340-347.

20.    梁丽乔, 李丽娟*, 张丽, 李九一, 姜德娟, 胥铭兴, 宋文献, 2008. 松嫩平原西部生长季参考作物蒸散发的敏感性分析. 农业工程学报, 24(5), 1-5.

21.    梁丽乔*, 闫敏华, 邓伟, 李丽娟, 2006. 松嫩平原西部参考作物蒸散量变化过程. 地理科学进展, 25(3): 22-31.

22.    梁丽乔*, 闫敏华, 邓伟, 2005. 湿地蒸散测算方法进展. 湿地科学, 3(1), 74-80.

 

其他合作论文:

1.        Xiaomin Yuan, Qiang Liu*, Baoshan Cui, Xiaofeng Xu, Liqiao Liang, et al. 2021. Effect of water-level fluctuations on methane and carbon dioxide dynamics in a shallow lake of Northern China: Implications for wetland restoration. Journal of Hydrology, 597, 126169.

2.        Jin Ding, Lan Cuo*, Yongxin Zhang, Cunjie Zhang, Liqiao Liang, Zhe Liu, 2021. Annual and Seasonal Precipitation and Their Extremes over the Tibetan Plateau and Its Surroundings in 1963-2015. Atmosphere, 12, 620.

3.        Sirui Yan, Miao Li, Tao Sun, Qiang Liu*, Liqiao Liang, Xuan Wang, Chunhui Li. 2021. The complex drought effects associated with the regulation of water-use efficiency in a temperate water-limited basin. Journal of Hydrology: Regional Studies, 36, 100864.

4.        严思睿, 刘强*, 孙涛, 梁丽乔, 李姝臻, 袁晓敏, 李苗. 湿地生态水文过程及其模拟研究进展. 湿地科学, 2021, 19(1), 98-105.

5.        Qiang Liu*, Liqiao Liang, Yanpeng Cai, Xuan Wang, Chunhui Li, 2020. Assessing climate and land-use change impacts on streamflow in a mountainous catchment. Journal of Water and Climate Change, 11(2), 503-513.

6.        Qiang Liu*, Xiaojing Ma, Sirui Yan, Liqiao Liang, Jihua Pan, Junlong Zhang, 2020. Lag in hydrologic recovery following extreme meteorological drought events: implications for ecologicalwater requirements. Water, 12, 837.

7.        Zhe Liu, Lan Cuo*, Qijiang Li, Xisheng Liu, Xuelian Ma, Liqiao Liang, Jin Ding, 2020. Impacts of Climate Change and Land Use/Cover Change on Streamflow in Beichuan River Basin in Qinghai Province, China. Water, 12, 1198-1198.

8.        刘强*梁丽乔. 依赖地下水生态系统的生态水文研究评述. 北京师范大学学报(自然科学版). 2020, 05, 693-699.

9.        Lan Cuo*, Ning Li, Zhe Liu, Jin Ding, Liqiao Liang, Yongxin Zhang, Tongliang Gong, 2019. Warming and human activities induced changes in the Yarlung Tsangpo basin of the Tibetan plateau and their influences on streamflow. Journal of Hydrology: Regional Studies, 25, 100625.

10.    Stephen M. Mudge*, Liqiao Liang, 2018. Permafrost – receptor or source? Environmental Forensics, 19(3), 165.

11.    Qiang Liu, Haige Yu, Liqiao Liang, Fan Ping, Xia Mou, Jing Liang, 2017. Assessment of ecological instream flow requirements under climate change Pseudorasbora parva. International Journal of Environmental Science and Technology, 14(3), 509–520

12.    Qiang Liu, Tim R. McVicar, Zhifeng Yang, Randall J. Donohue, Liqiao Liang, YutingYang, 2016. The hydrological effects of varying vegetation characteristics in a temperate water-limited basin: Development of the dynamic Budyko-Choudhury-Porporato (dBCP) model. Journal of Hydrology, 543, 595-611.

13.    Qiang Liu*, Liqiao Liang, 2015. Impacts of climate change on the water balance of a large nonhumid natural basin in China. Theoretical and Applied Climatology 121(3-4), 489-497.

14.    Qiang Liu*, Zhifeng Yang, Liqiao Liang, Nan Wang, 2014. Do changes in climate or vegetation regulate evapotranspiration and streamflow trends in water-limited basins? Theoretical and Applied Climatology, 112(3-4), 389-401.

15.    Lan Cuo*, Yongxin Zhang, Fuxin Zhu, Liqiao Liang, 2014. Characteristics and Changes of Streamflow on the Tibetan Plateau: A Review. Journal of Hydrology: Regional Studies, 2, 49-68.

16.    Hongwei Zeng, Lijuan Li*, Jinming Hu, Liqiao Liang, Jiuyi Li, Bin Li, Kai Zhang. 2012. Accuracy validation of TRMM Multisatellite Precipitation Analysis daily precipitation products in the Lancang River Basin of China. Theoretical and Applied Climatology 112(3-4), 389-401.

17.    Yumei Liu, Lijuan Li*, Liqiao Liang, Jiuyi Li, 2011. Study on the non-point source pollution in the upper and midele reaches of the Taoer River Basin. Chinese Journal of Population, Resources and Environment, 9(1), 48-54.

18.    柳玉梅, 李丽娟*, 梁丽乔, 曾红伟, 2011. 土地利用及其变化对洮儿河中上游地区非点源污染影响研究.水土保持通报, 31(1), 117-121.

19.    李斌, 李丽娟*, 覃驭楚, 梁丽乔, 李九一, 柳玉梅, 2011. 基于Budyko假设评估洮儿河流域中上游气候变化的径流影响. 资源科学, 33(1), 70-76.

20.    李斌, 李丽娟*, 李海滨, 梁丽乔,  李九一,  柳玉梅, 曾红伟, 2011. 1960-2005年澜沧江流域极端降水变化特征. 地理科学进展, 30(3), 90-298.

21.    Lijuan Li*, Bin Li, Liqiao Liang, Jiuyi Li, Yumei Liu, 2010. Effect of climate change and land use on stream flow in the upper and middle reaches of the Taoer River, northeastern China. Forestry Studies in China, 12(2), 1–9.

22.    李九一, 李丽娟*, 柳玉梅, 梁丽乔, 李斌, 2010. 区域尺度水资源短缺风险评估与决策体系——以京津唐地区为例. 地理科学进展, 29(9), 1041-1048.

23.    Lijuan Li*, Jiuyi Li, Liqiao Liang, Yumei Liu, 2009. Method for calculating Ecological water storage and Ecological Water Requirement of Marsh. Journal of Geographical Sciences, 19, 427-436.

24.    姜德娟, 李丽娟*, 侯西勇, 梁丽乔, 张丽, 李九一, 胥铭兴, 2009. 洮儿河流域中上游水循环要素变化及其原因. 地理研究, 289(1), 55-64.

25.    张丽, 李丽娟*, 梁丽乔, 李九一, 姜德娟, 胥铭兴, 宋文献, 2008. 流域生态需水的理论及计算研究进展.农业工程学报, 24(7), 307-312.

26.    Li Zhang, Lijuan Li*, Liqiao Liang, Jiuyi Li, 2007. Monitoring of vegetation coverage based on high-resolution images. Forestry Studies in China 9(4), 256-261.

27.    李丽娟*, 姜德娟, 李九一, 梁丽乔, 张丽, 2007. 土地利用/覆被变化的水文效应研究进展. 自然资源学报, 22(2), 211-224.

28.    闫敏华, 陈泮勤, 邓伟, 梁丽乔, 2005. 三江平原气候变暖的进一步认识:最高和最低气温的变化. 生态环境, 14(2), 151-156.