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姓 名:
苗运法
性    别:
专家类别:
“万人计划”青年拔尖人才/硕士生导师
学 历:
研究生
电 话:
0931-4967544
传 真:
电子邮件:
yunfine2000@sina.com
个人主页:
邮政编码:
730000
通讯地址:
甘肃省兰州市东岗西路320号

简历:

  1997.07-2007.07  兰州大学资源环境学院 自然地理学 (学士、博士) 

  2007.07-2010.06  中国科学院青藏高原研究所 (博士后 

  ( 2010.3-2010.5   德国Senckenberg Naturmuseum访问学者) 

  2010.06-2010.12  中国科学院寒区旱区环境与工程研究所, 助理研究员 

  2011.01-2017.12  中国科学院寒区旱区环境与工程研究所, 副研究员 

  ( 2015.12-2016.12  美国Louisiana State University访问学者) 

  2018.01-          中国科学院寒区旱区环境与工程研究所, 研究员 

研究方向:
自然地理学 (沙漠与沙漠化)、孢粉学(古环境和古气候变化)
职称:
研究员
职务:
社会任职:
获奖及荣誉:
1.国家第四批“万人计划”青年拔尖人才
2.中国科学院青年创新促进会优秀会员
3.自然资源部科学技术二等奖(排名第六)
代表论著:

1.      Miao YF, Wu FL, Warny S, et al., 2019. Miocene fire intensification linked to continuous aridification on the Tibetan Plateau. Geology, 47(4), 303-307.31, 241–252.

2.      Miao YF, Warny S, Clift PD et al., 2018. Climatic or tectonic control on organic matter deposition in the South China Sea? A lesson learned from a comprehensive Neogene palynological study of IODP Site U1433. Intern J Coal Geology, 190, 166-177.

3.      Miao YF, Warny S, Clift PD et al., 2017. Evidence of continuous Asian summer monsoon weakening as a response to global cooling over the last 8 Ma. Gondwana Research, 52, 48-58.

4.      Miao YF, Warny S, Liu C, et al., 2017. Neogene fungal record from IODP Site U1433, South China Sea: Implications for paleoenvironmental change and the onset of the Mekong River. Marine Geology, 394, 69–81.

5.      Miao YF, Zhang DJ, Cai XM et al., 2017. Holocene fire on the northeast Tibetan Plateau in relation to climate change and human activity. Quat Intern, 1-8.

6.      Miao YF, Jin HL, Cui JX, 2016. Human activity accelerating the rapid desertification of the Mu Us Sandy Lands, North China. Scientific Report, 6, 23003.

7.      Miao YF, Fang XM, Song CH, et al., 2016. Late Cenozoic fire enhancement response to aridification in mid-latitude Asia: evidence from microcharcoal records. Quat Sci Rev, 139, 53-66.

8.      Miao YF, Fang X, Liu Y S C, et al., 2016. Late Cenozoic pollen concentration in the western Qaidam Basin, northern Tibetan Plateau, and its significance for paleoclimate and tectonics. Rev Palaeobot Palynol, 231, 14-22.

9.      Miao YF, Song CH, Fang XM et al., 2016. Late Cenozoic genus Fupingopollenites development and its implications for the Asian summermonsoon evolution. Gondwana Res, 29 (1), 320–333.

10.   Miao YF, Wu FL, Chang H, et al., 2016. A Late-Eocene palynological record fromthe Hoh Xil Basin, northern Tibetan Plateau, and its implications for stratigraphic age, paleoclimate and paleoelevation. Gondwana Res,

11.   Miao YF, Zhang P, Lu S, et al., 2015. Late Quaternary pollen records from the Yangtze River Delta, East China, and its implications for the Asian monsoon evolution. Arabian J Geosci, 1-10.

12.   Miao YF, Jin HL, Liu B, et al., 2015. Holocene climate change on the northeastern Tibetan Plateau inferred from mountain-slope pollen and non-pollen palynomorphs. Rev Palaeobot Palynol, 221, 22–31.

13.   Miao YF, Jin HL, Liu B, et al., 2014. Natural ecosystem response and recovery after the 8.2 ka cold event: Evidence from slope sediments on the northeastern Tibetan Plateau. J Arid Environ, 104, 17-22.

14.   Miao YF, Wu, FL, Herrmann M, et al., 2013. Late early Oligocene East Asian summer monsoon in the NE Tibetan Plateau: Evidence from a palynological record from the Lanzhou Basin, China. J Asian Earth Sci, 75 (2013) 46–57.

15.   Miao YF, Fang XM, Wu FL, et al., 2013. Late Cenozoic continuous aridification in the western Qaidam Basin: evidence from sporopollen records. Clim Past, 9, 1863–1877.

16.   Miao YF, Fang XM, Song CH, et al., 2013. Pollen and fossil wood’s linkage with Mi-1 Glaciation in northeastern Tibetan Plateau, China. Palaeoworld, 22, 101–108 (SCI).

17.   Miao YF, Herrmann M, Wu FL, et al., 2012. What controlled Mid-Late Miocene long-term aridification in Central Asia?Global cooling or Tibetan Plateau uplift: A review. Earth-Sci Rev, 112, 155–172.

18.   Miao YF, Fang XM, Herrmann M, et al., 2011. Miocene pollen record of KC–1 core in the Qaidam Basin, NE Tibetan Plateau and implications for evolution of the East Asian monsoon. Palaeogeogr, Palaeoclimat, Palaeoecol, 299, 30–38.

19.   Miao YF, Meng QQ, Fang XM, et al., 2011. Origin and development of Artemisia (Asteraceae) in Asia and its implications for the uplift history of the Tibetan Plateau: a review. Quat Intern, 236, 3–12.

20.   Miao YF, Fang XM, Song ZC et al., 2008. Late Eocene pollen records and palaeoenvironmental changes in northern Tibetan Plateau. Sci. China, Ser. D: Earth Sci, 51(8), 1089–1098.

21.   Yan XL, Miao YF*, Zan JB, et al., 2014. Late Cenozoic fluvial- acustrine susceptibility increases in the Linxia Basin and their implications for Tibetan Plateau uplift. Quat Intern, 334–335, 132–140.

22.   Zhang P, Miao YF*, Zhang ZY, et al., 2013. Late Cenozoic sporopollen records in the Yangtze River Delta, East China and implications for East Asian summer monsoon evolution. Palaeogeogr, Palaeoclim, Palaeoecol, 388, 153–165.

23. 苗运法, 邵亚军, 吴福莉, 段引娣. 发明专利: 微体古生物提取自动换水装置(ZL201310063374.3).

承担科研项目情况:

  1. 中科院西部之光(2018-2020): 黄土高原-毛乌素沙地生态环境变化中的人为和自然因素贡献率. 50万元, 主持

  2. 中科院A类先导专项(子专题)(2018-2022): 高原北部重大古气候事件的孢粉记录, 120万元, 主持

  3. 国家自然科学基金面上项目(2018-2021): 晚新生代大空间尺度上炭屑-古火记录与亚洲干旱-季风气候演化研究(41772181), 80万元, 主持

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