个人简介 / Personal Information
|
饶志国,民盟盟员,理学博士,二级教授,博士生导师,湖南师范大学“潇湘学者”特聘教授,教育部新世纪优秀人才,湖南省杰出青年基金获得者,湖南省首批青年芙蓉学者,第二届湖南省优秀研究生导师,湖南师范大学优秀研究生导师团队成员,2020-2021湖南师范大学科研标兵。兼任“洞庭湖流域生态环境变化与固碳增汇”湖南省重点实验室副主任,湖南省普通高校科技创新团队带头人,湖南省地理学会副理事长。现任湖南省政协委员,湖南省高院特约监督员,民盟中央生态环境委员会委员、民盟湖南省委员会常委、民盟湖南省委员会资源环境委员会主任委员,民盟湖南师范大学委员会主任委员。
学习经历:
2001.07:兰州大学,地理学学士学位
2004.07:兰州大学,自然地理学硕士学位
2007.07:中科院广州地球化学研究所,地球化学博士学位
2007.12-2012.07:兰州大学自然地理学博士后流动站,博士后
2009.09-2010.09:美国明尼苏达大学,访问学者
2014.02-2014.07:台湾大学地质科学系,访问学者
工作经历:
2007.08-2010.04:兰州大学西部环境与气候变化研究院,讲师
2010.05-2014.04:兰州大学西部环境与气候变化研究院,副教授
2014.05-2016.12:兰州大学西部环境与气候变化研究院,教授
2017.01-至今:湖南师范大学地理科学学院,教授
主要研究领域:
利用有机地球化学和同位素地球化学研究方法,以黄土/泥炭/石笋/湖泊沉积物等为研究对象,从现代过程与沉积记录两个方面,开展与全球变化相关的研究。
主持的主要科研项目:
国家自然科学基金面上和青年项目,共5项
教育部新世纪优秀人才支持计划和科学技术研究重点项目
人社部博士后科学基金会一般项目和特别资助项目
湖南省杰出青年基金项目
科研获奖:
2022,广东省自然科学一等奖(排名5/14)
2021,湖南省自然科学二等奖(排名1/5)
2021,教育部自然科学一等奖(排名4/6)
2018,科技部中国科学年度十大进展(无排名)
2018,中国地质学会年度十大地质科技进展(排名5/9)
已发表的主要学术论文(*为通讯作者):
[1] Wei Shikai, Lin Tianyan, Li Yunxia, Cao Jiantao, Jia Guodong, Chen Mingzhi, Rao Zhiguo*. Influence of vegetation type on brGDGTs: Results from surface soils beneath sub-alpine forest and grassland under the same climatic conditions. Organic Geochemistry, 2024, 196, 104831 (SCI-3区).
[2] Tian Yiping, Li Yunxia*, Li Jiayan, Yang Chenxi, Du Angli, Li Miaofa, Zhang Xinping, Zhao Lin, Liu Lidan, Rao Zhiguo*. Transmission characteristics and the factors influencing stable oxygen isotopes in precipitation, soil water, and drip water in Remi Cave, Western Hunan, China. Journal of Hydrology, 2024, 635, 131222 (SCI-1区; top journal).
[3] Li Yunxia, Qin Qianqian, Tian Yiping, Li Jiayan, Yang Chenxi, Peng Shiyin, Shi Fuxi, Rao Zhiguo*. Newly-found ferns in an artificially illuminated deep karst cave have the most negative known carbon isotope values. Science Bulletin, 2024, 69, 881-884 (SCI-1区; top journal).
[4] Zhao Lin*, Zeng Yaoyao, Rao Zhiguo*, Huang Chao, Li Yunxia, Liu Lidan, Ma Chunmei. Quantitative Holocene climate reconstruction and anthropogenic impact analysis based on the pollen records in peat sediment in Southern China. Global and Planetary Change, 2024, 234, 104390 (SCI-1区; top journal).
[5] Lin Tianyan, Rao Zhiguo*, Zeng Yaoyao, Li Yunxia, Zhao Lin, Liu Lidan, Xiao Xiong, Zhang Cicheng, Shen Zhongwei, Cao Jiantao, Jia Guodong. Sedimentary brGDGTs in China: An overview of modern observations and proposed land Holocene paleotemperature records. Earth-Science Reviews, 2024, 250, 104694 (SCI-1区; top journal).
[6] Li Yunxia, Guang Kaiyue, Tian Lijun, Tian Yiping, Li Jiayan, Yang Chenxi, Rao Zhiguo*. Re-evaluation of the effects of precipitation amount and temperature on precipitation δ18O at the monthly and interannual timescales. Journal of Water and Climate Change, 2023, 14(6), 1816-1830 (SCI-4区).
[7] Wei Shikai, Rao Zhiguo*, Cao Jiantao, Jia Guodong, Li Yunxia, Guo Haichun, Feng Zixian, Guang Kaiyue, Qin Qianqian, Tian Yiping, Li Jiayan, Li Siqi, Chen Mingzhi. Holocene warming trend based on peat brGDGTs records from southeastern humid to northwestern arid China. Palaeogeography, Palaeoclimatology, Palaeoecology, 2023, 619, 111528 (SCI-2区; top journal).
[8] Rao Zhiguo*, Guo Haichun, Wei Shikai, Cao Jiantao, Jia Guodong. Influence of water conditions on peat brGDGTs: A modern investigation and its paleoclimatic implications. Chemical Geology, 2022, 606, 120993 (SCI-2区; top journal).
[9] Wei Shikai, Guo Haichun, Cao Jiantao, Jia Guodong, Chen Mingzhi, Rao Zhiguo*. In-situ provenance of brGDGTs in peat sediments: A case study from southern China and a comparison of global results. Organic Geochemistry, 2022, 167, 104373 (SCI-3区).
[10] Rao Zhiguo*, Tian Yiping, Guang Kaiyue, Wei Shikai, Guo Haichun, Feng Zixian, Zhao Lin, Li Yunxia*. Pollen data as a temperature indicator in the late Holocene: A review of results on regional, continental and global scales. Frontiers in Earth Science, 2022, 10, 845650 (SCI-3区).
[11] Cao Jiantao, Rao Zhiguo*, Shi Fuxi, Lian Ergang, Jia Guodong*. Novel lake-level records support a mid-Holocene maximum precipitation in northern China. Science China Earth Sciences, 2021, 64(12), 2161-2171 (SCI-2区).
[12] Rao Zhiguo*, Wei Shikai, Li Yunxia*, Guo Haichun, Chen Fahu. Cooling or warming climatic background for the expansion of human activity in arid inland China and the Tibetan Plateau over the past ~4000 years? Science Bulletin, 2021, 66, 1936-1938 (SCI-1区; top journal).
[13] Rao Zhiguo*, Guo Haichun, Cao Jiantao, Shi Fuxi, Jia Guodong, Li Yunxia, Chen Fahu. Consistent long-term Holocene warming trend at different elevations in the Altai Mountains in arid central Asia. Journal of Quaternary Science, 2020, 35(8), 1036-1045 (SCI-2区).
[14] Huang Chao, Rao Zhiguo*, Li Yunxia, Yang Wen, Liu Lidan, Zhang Xinping, Wu Yi. Holocene summer temperature in arid central Asia linked to millennial-scale North Atlantic climate events and driven by centennial-scale solar activity. Palaeogeography, Palaeoclimatology, Palaeoecology, 2020, 556, 109880 (SCI-2区; top journal).
[15] Cao Jiantao, Rao Zhiguo*, Shi Fuxi, Jia Guodong*. Ice formation on lake surfaces in winter causes warm-season bias of lacustrine brGDGT temperature estimates. Biogeosciences, 2020, 17, 2521-2536 (SCI-2区).
[16] Rao Zhiguo*, Tian Yiping, Li Yunxia, Guo Haichun, Zhang Xinzhu, Han Guang, Zhang Xinping. Holocene precipitation δ18O as an indicator of temperature history in arid central Asia: an overview of recent advances. Sciences in Cold and Arid Regions, 2020, 12(6), 371-3799 (ESCI).
[17] Li Yunxia, Tian Yiping, Guo Haichun, Wei Shikai, Cao Jiantao, Huang Chao, Shi Fuxi, Rao Zhiguo*. Complex ‘human-vegetation-climate’ interactions in the late Holocene and their significance for paleotemperature reconstructions. Proceedings of the National Academy of Sciences of the United States of America, 2020, 117(11), 5568-5570 (SCI-1区; top journal).
[18] Li Yunxia, Rao Zhiguo*, Xu Qinghai, Zhang Shengrui, Liu Xiaokang, Wang Zongli, Cheng Hai, R. Lawrence Edwards, Chen Fahu. Inter-relationship and environmental significance of stalagmite δ13C and δ18O records from Zhenzhu Cave, north China, over the last 130 ka. Earth and Planetary Science Letters, 2020, 536, 116149 (SCI-1区; top journal).
[19] Rao Zhiguo*, Shi Fuxi, Li Yunxia, Huang Chao, Zhang Xinzhu, Yang Wen, Liu Lidan, Zhang Xinping, Wu Yi. Long-term winter/summer warming trends during the Holocene revealed by α-cellulose δ18O/δ13C records from an alpine peat core from central Asia. Quaternary Science Reviews, 2020, 232, 106217 (SCI-1区; top journal).
[20] Wu Dandan, Cao Jiantao, Jia Guodong, Guo Haichun, Shi Fuxi, Zhang Xinping, Rao Zhiguo*. Peat brGDGTs-based Holocene temperature history of the Altai Mountains in arid Central Asia. Palaeogeography, Palaeoclimatology, Palaeoecology, 2020, 538, 109464 (SCI-2区; top journal).
[21] Shi Fuxi, Rao Zhiguo*, Li Yunxia, Cao Jiantao, Shi Xiaoyi, Li Chaozhu, Sun Weizhen. Precipitation δ18O recorded by the α‐cellulose δ18O of plant residues in surface soils: Evidence from a broad environmental gradient in inland China. Global Biogeochemical Cycles, 2019, 33, 1440-1468 (SCI-1区; top journal).
[22] Rao Zhiguo*, Huang Chao, Shi Fuxi, Zhang Xinzhu, Zhang Xinping. Reply to the comments on “Reconciling the ‘westerlies’ and ‘monsoon’ models: A new hypothesis for the Holocene moisture evolution of the Xinjiang region, NW China” by Dongliang Zhang and Yunpeng Yang. Earth-Science Reviews, 2019, 198, 102943 (SCI-1区; top journal).
[23] Liu Xiaokang, Rao Zhiguo, Shen Chuan‐Chou, Liu Jianbao, Chen Jianhui, Chen Shengqian, Wang Xianfeng, Chen Fahu*. Holocene Solar Activity Imprint on Centennial‐ to Multidecadal‐Scale Hydroclimatic Oscillations in Arid Central Asia. Journal of Geophysical Research: Atmospheres, 2019, 124, 2562-2573 (SCI-2区; top journal).
[24] Rao Zhiguo*, Wu Dandan, Shi Fuxi, Guo Haichun, Cao Jiantao, Chen Fahu. Reconciling the ‘westerlies’ and ‘monsoon’ models: A new hypothesis for the Holocene moisture evolution of the Xinjiang region, NW China. Earth-Science Reviews, 2019, 191, 263-272 (SCI-1区; top journal).
[25] Shi Fuxi, Rao Zhiguo*, Cao Jiantao, Huang Chao, Wu Dandan, Yang Wen, Weizhen Sun. Meltwater is the dominant water source controlling α-cellulose δ18O in a vascular-plant-dominated alpine peatland in the Altai Mountains, Central Asia. Journal of Hydrology, 2019, 572, 192-205 (SCI-1区; top journal).
[26] Li Yunxia, Zhang Shengrui, Liu Xiaokang, Gao Yongli, Rao Zhiguo*. Variations of the stable isotopic composition of precipitation and cave drip water at Zhenzu Cave, north China: A two-year monitoring study. Journal of Cave and Karst Studies, 2019, 81(2), 123-135 (SCI-4区).
[27] Rao Zhiguo*, Huang Chao, Xie Luhua, Shi Fuxi, Zhao Yan, Cao Jiantao, Gou Xiaohua, Chen Jianhua, Chen Fahu. Long-term summer warming trend during the Holocene in central Asia indicated by alpine peat a-cellulose δ13C record. Quaternary Science Reviews, 2019, 203, 56-67 (SCI-1区; top journal).
[28] Zhu Zhaoyu*, Dennell Robin*, Huang Weiwen, Wu Yi, Qiu Shifan, Yang Shixia, Rao Zhiguo, Hou Yamei, Xie Jiubing, Han Jiangwei, Ouyang Tingping. Hominin occupation of the Chinese Loess Plateau since about 2.1 million years ago. Nature, 2018, 559(7715), 608-612 (SCI-1区; top journal).
[29] Cao Jiantao, Rao Zhiguo*, Jia Guodong, Xu Qinghai, Chen Fahu. A 15 ka pH record from an alpine lake in north China derived from the cyclization ratio index of aquatic brGDGTs and its paleoclimatic significance. Organic Geochemistry, 2017, 109, 31-46 (SCI-2区).
[30] Li Yunxia*, Rao Zhiguo, Cao Jiantao, Jiang Hong, Gao Yongli. Highly negative oxygen isotopes in precipitation in southwest China and their significance in paleoclimatic studies. Quaternary International, 2017, 440, 64-71 (SCI-3区).
[31] Rao Zhiguo*, Guo Wenkang, Cao Jiantao, Shi Fuxi, Jiang Hong, Li Chaozhu. Relationship between the stable carbon isotopic composition of modern plants and surface soils and climate: A global review. Earth-Science Reviews, 2017, 165, 110-119 (SCI-1区; top journal).
[32] Rao Zhiguo*, Li Yunxia, Zhang Jiawu, Jia Guodong, Chen Fahu. Investigating the long-term palaeoclimatic controls on the δD and δ18O of precipitation during the Holocene in the Indian and East Asian monsoonal regions. Earth-Science Reviews, 2016, 159, 292-305 (SCI-1区; top journal).
[33] Rao Zhiguo*, Jia Guodong, Li Yunxia, Chen Jianhui, Xu Qinghai, Chen Fahu. Asynchronous evolution of the isotopic composition and amount of precipitation in north China during the Holocene revealed by a record of compound-specific carbon and hydrogen isotopes of long-chain n-alkanes from an alpine lake. Earth and Planetary Science Letters, 2016, 446, 68-76 (SCI-1区; top journal).
[34] Li Guoqiang*, Rao Zhiguo, Duan Yanwu, Xia Dunsheng, Wang Leibin, Madsen David, Jia Jia, Wei Haitao, Qiang Mingrui, Chen Jianhui, Chen Fahu. Paleoenvironmental changes recorded in a luminescence dated loess/paleosol sequence from the Tianshan Mountains, arid central Asia, since the Penultimate Glaciation. Earth and Planetary Science Letters, 2016, 448, 1-12 (SCI-1区; top journal).
[35] Rao Zhiguo*, Qiang Mingrui, Jia Guodong, Li Yunxia, Dan Dan, Chen Fahu. A 15 ka lake water δD record from Genggahai Lake, northeastern Tibetan Plateau, and its paleoclimatic significance. Organic Geochemistry, 2016, 97, 5-16 (SCI-2区).
[36] Rao Zhiguo*, Guo Wenkang, Xie Luhua, Huang Chao, Liu Xiaokang, Hua Hui, Chen Fahu. High resolution δ13CTOC and magnetic susceptibility data from the late Early Pleistocene southern margins of the Chinese Loess Plateau. Organic Geochemistry, 2015, 87, 78-85 (SCI-2区).
[37] Liu Xiaokang, Rao Zhiguo*, Zhang Xiaojian, Huang Wei, Chen Jianhui, Chen Fahu. Variations in the oxygen isotopic composition of precipitation in the Tianshan Mountains region and their significance for the Westerly circulation. Journal of Geographical Sciences, 2015, 25(7), 801-816 (SCI-2区).
[38] Rao Zhiguo*, Liu Xiaokang, Hua Hui, Gao Yongli, Chen Fahu. Evolving history of the East Asian summer monsoon intensity during the MIS5: inconsistent records from Chinese stalagmites and loess deposits. Environmental Earth Sciences, 2015, 73, 3937-3950.
[39] Rao Zhiguo*, Jia Guodong, Qiang Mingrui, Zhao Yan. Assessment of the difference between mid- and long chain compound specific δDn-alkanes values in lacustrine sediments as a paleoclimatic indicator. Organic Geochemistry, 2014, 76, 104-117 (SCI-2区).
[40] Rao Zhiguo, Chen Fahu, Cheng Hai, Liu Weiguo, Wang Guo’an, Lai Zhongping, Jan Bloemendal. High-resolution summer precipitation variations in the western Chinese Loess Plateau during the last glacial. Scientific Reports, 2013, 3, 2785 (SCI-2区).
[41] Rao Zhiguo, Xu Yuanbin, Xia Dunsheng, Xie Luhua, Chen Fahu. Variation and paleoclimatic significance of organic carbon isotopes of Ili loess in arid Central Asia. Organic Geochemistry, 2013, 63, 56-63 (SCI-2区).
[42] Rao Zhiguo, Chen Fahu, Zhang Xiao, Xu Yuanbin, Xue Qian, Zhang Pingyu. Spatial and temporal variations of C3/C4 relative abundance in global terrestrial ecosystem since the Last Glacial and its possible driving mechanisms. Chinese Science Bulletin, 2012, 57(31), 4024-4035.
[43] Rao Zhiguo, Zhu Zhaoyu, Jia Guodong, Zhang Xiao, Wang Suping. Compound-specific hydrogen isotopes of long-chain n-alkanes extracted from topsoil under a grassland ecosystem in northern China. Science China (Earth Sciences), 2011, 54(12), 1902-1911.
[44] Xue Qian, Rao Zhiguo*, Wang Suping, Zhang Pingyu, Chen Fahu. Stable carbon and oxygen isotopic study of carbonate along a loess/paleosol section located in southeastern edge of the Chinese Loess Plateau. Environmental Earth Sciences, 2011, 64(1), 237-246.
[45] Rao Zhiguo, Wu Yi, Zhu Zhaoyu, Jia Guodong, Andrew C.G. Henderson. Is the maximum carbon number of long-chain n-alkanes an indicator of grassland or forest? Evidence from surface soils and modern plants. Chinese Science Bulletin, 2011, 56(16), 1714-1720.
[46] Rao Zhiguo, Zhu Zhaoyu, Jia Guodong, Chen Fahu, Loukas Barton, Zhang Jiawu, Qiang Mingrui. Relationship between climatic conditions and the relative abundance of modern C3 and C4 plants in three regions around the North Pacific. Chinese Science Bulletin, 2010, 55(18), 1931-1936.
[47] Rao Zhiguo, Zhu Zhaoyu, Jia Guodong, Andrew C.G. Henderson, Xue Qian, Wang Suping. Compound-specific δD of long-chain n-alkanes derived from terrestrial higher plants are indicative of the δD of meteoric waters: Evidence from surface soils in eastern China. Organic Geochemistry, 2009, 40(8), 922-930 (SCI-2区).
[48] Rao Zhiguo, Jia Guodong, Zhu Zhaoyu, Wu Yi, Zhang Jiawu. Comparison of the carbon isotope composition of total organic carbon and long-chain n-alkanes from surface soils in eastern China and their significance. Chinese Science Bulletin, 2008, 53(24), 3921-3927.
[49] Rao Zhiguo, Zhu Zhaoyu, Zhang Jiawu. Different climatic controls of soil δ13Corg in three mid-latitude regions of the Northern Hemisphere since the Last Glacial period. Chinese Science Bulletin 2007, 52(2), 259-266.
[50] Rao Zhiguo, Zhu Zhaoyu, Chen Fahu, Zhang Jiawu. Does δ13Ccarb of the Chinese loess indicate past C3/C4 abundance? A review of research on stable carbon isotopes of the Chinese loess. Quaternary Science Reviews, 2006, 25(17/18), 2251-2257 (SCI-1区, top journal).
[51] Rao Zhiguo, Zhu Zhaoyu, Wang Suping, Jia Guodong, Qiang Mingrui, Wu Yi. CPI values of terrestrial higher plant-derived long-chain n-alkanes: a potential paleoclimatic proxy. Frontier of Earth Science in China, 2009, 3(3), 266-272 (非SCI).
[52] 杨晨曦, 李云霞*, 李嘉燕, 田怡苹, 光凯悦, 章新平, 饶志国*. 湘东北地区大气降水和地下水的氢氧稳定同位素研究. 地球环境学报, 2024, 15(2), 326-341.
[53] 饶志国*, 赵明华, 郭文康, 石福习, 李云霞, 刘利丹, 赵琳, 张赐成, 肖雄. 表土δ13C揭示C4植物比C3植物更易分解和消化. 地理学报, 2024, 79(9), 2324-2340.
[54] 秦倩倩, 田怡苹, 李云霞, 石福习, 李嘉燕, 赵明华, 林添妍, 曾瑶瑶, 饶志国*. 湖南城步十万古田泥炭地现生莎草δ13Ccell观测研究. 科学通报, 2024, 69(17), 2429-2440.
[55] 光凯悦, 李云霞*, 田怡苹, 李嘉燕, 杨晨曦, 朱同彬, 黄庭悦, 李苗发, 雷国良, 饶志国*. 稳定碳同位素在湘中千佛洞上覆土壤-滴水-现代沉积物的迁移特征研究. 第四纪研究, 2023, 43(5), 1328-1342.
[56] 饶志国*, 秦倩倩, 魏士凯, 郭海春, 李云霞. 全新世温度研究回顾及对历史人地关系的启示. 地理学报, 2022, 77(5), 1169-1180.
[57] 曹建涛, 饶志国*, 石福习, 连尔刚, 贾国东*. 湖泊水位记录支持中国北方全新世中期降水达到最高值. 中国科学: 地球科学, 2022, 52(1), 113-125.
[58] 郭海春, 曹建涛, 魏士凯, 石福习, 贾国东, 卞昊昆, 顾兆炎, 饶志国*. 中亚阿勒泰山南坡表土和泥炭沉积物GDGTs综合研究. 第四纪研究, 2021, 41(4), 1069-1093.
[59] 饶志国*, 郭海春. 北疆阿勒泰哈拉沙子高山泥炭岩芯孢粉记录是否指示全新世温度变化历史? 第四纪研究, 2021, 41(2), 612-620.
[60] 郭海春, 田怡苹, 魏士凯, 易嘉慧, 杨敏, 欧阳睿, 张东良, 饶志国*. 我国全新世泥炭α纤维素稳定碳同位素记录的对比与分析. 第四纪研究, 2020, 40(5), 1136-1144.
联系方式:raozhg@hunnu.edu.cn; 15211035248.
欢迎专业和英语基础好,思维活跃,能吃苦耐劳的有志青年报考硕士和博士研究生。