聶軍勝

男

研究生

博士

教授

0931-8912861

地貌與第四紀地質(zhì)研究所

新生代環(huán)境

1996-2000 蘭州大學 自然地理學 學士

2000-2003 蘭州大學 自然地理學 碩士

2003-2008 University of Rhode Island 海洋學 博士

2008-2010 University of Texas at Austin 地質(zhì)學 博士后

2010-今    蘭州大學                      第四紀地質(zhì)與自然地理 教授

古氣候?qū)W

中國第四紀研究會干旱區(qū)環(huán)境專業(yè)委員會副主任

Nature, Nature Geoscience, EPSL, GCA等二十多家雜志審稿人

(1) 較系統(tǒng)的研究了黃土高原紅粘土的磁學性質(zhì)，為利用磁學手段對紅粘土進行進一步古氣候研究提供了新思路和新手段。這方面成果先后受邀在歐洲地球科學學會年會(EGU)、美國地球物理學會(AGU)、中國地球物理學會(CGU)和國際第四紀聯(lián)合會(INQUA)會議環(huán)境磁學分會作特邀報告。

(2) 較系統(tǒng)的對比了6Ma來黃土紅粘土磁化率記錄與深海氧同位素記錄的異同，發(fā)現(xiàn)了一系列古氣候事件和問題，深化了對海陸古氣候耦合機制的理解。成果被Nature Geoscience等雜志引用。

(3) 發(fā)現(xiàn)多指標物源分析能夠最大限度的真實的重建物源歷史，恢復了安第斯山北部的隆升歷史，為理解安第斯山脈隆升與新生代氣候變化的關(guān)系提供了重要年代限制�；謴土它S土高原8百萬以來的物源歷史，探討了重礦物方法對研究黃土物源變化的限制和有效性，深化了對黃土高原物源變化的認識。成果被Science等雜志引用。

教育部新世紀人才 2009

中國地球物理學會“傅承義青年科技獎” 2013

青藏高原青年科技獎 2013

"Palaeogeography palaeoclimatology palaeoecology" excellent reviewer, 2013

基金委“優(yōu)秀青年基金” 2014

自然科學基金優(yōu)青項目，41422204、第四紀地質(zhì)學、2015/01-2017/12、在研、主持。

國家“973”項目課題，2013CB956400、中國西部西風區(qū)新生代剝蝕風化記錄與古氣候變化、2013/1-2017/12、在研、參與。

國家“973”項目課題，2011CB403301、黃河上游沙漠寬谷段風沙水沙過程與調(diào)控機理、2011/01-2015/08、在研、參與。

自然科學基金面上項目，41172329、柴達木盆地記錄的晚中新世氣候轉(zhuǎn)型期（ 10－5.5 Ma）軌道尺度氣候變化及驅(qū)動機制研究、2012/01-2015/12、在研、主持。

34. J. Nie, T. Stevens, Y. Song, J. King, R. Zhang, S. Ji, L. Gong, and D. Cares, Pacific freshening drives Pliocene cooling and Asian monsoon intensification. Scientific Reports, 4, 5474, doi:10.1038/srep05474, 2014.

      媒體報道：

33. J. Nie, W. Peng, Y. Song, A. Möller, B. Horton, S. Liu, A. Bird, J. Oalmann, H. Gong, X. Fang, Provenance of the upper Miocene–Pliocene Red Clay deposits of the Chinese loess plateau. Earth and Planetary Science Letters, 407, 35-47, 2014.

32. J. Nie, R. Zhang, C. Necula, D. Heslop, Q. Liu, L. Gong, and S. Banerjee, Late Miocene-early Pleistocene paleoclimate history of the Chinese Loess Plateau revealed by remanence unmixing. Geophysical Research Letters, 41, 2163-2168, 2014.

31. J. Nie and W. Peng, Automated SEM-EDS heavy mineral analysis reveals no provenance shift between glacial loess and interglacial paleosol on the Chinese Loess Plateau. Aeolian Research 13, 71-75, 2014.

30. J. Nie, M. Jackson, J. King, and X. Fang, Characterizing the superparamagnetic grain distribution of Chinese red-clay sequences by thermal fluctuation tomography. Global and Planetary Change, 110, 364-367, 2013.

29. J. Nie, W. Peng, K. Pfaff, A. Möller, E. Garzanti, S. Andò, , T. Stevens, A. Bird, H. Chang, Y. Song, S. Liu, and S. Ji, Controlling factors on heavy mineral assemblages in Chinese loess and Red Clay. Palaeogeography, Palaeoclimatology, Palaeoecology, 381-382, 110-118, 2013.

28. J. Nie, Y., Song , J. W. King, R. Zhang, and X. Fang, Six million years of magnetic grain-size records reveal that temperature and precipitation were decoupled on the Chinese Loess Plateau during ~4.5-2.6 Ma. Quaternary Research, 79, 465-470, 2013.

27. J. Saylor, J. Knowles, B. Horton, J. Nie, and A. Mora, Mixing of source populations recorded in detrital zircon U-Pb age spectra of modern river sands, Journal of Geology, 121, 17-33, 2013.

26. G. Li, J. Nie, S. Clemens, W. Liu, J. Sun, R. Zech, and Y. Huang, The importance of solar insolation on the temperature variations for the past 110 kyr on the Chinese Loess Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology, 317-318, 128-133, 2012.

25. J. Nie, B. Horton, J. Saylor, A. Mora, M. Mange, C. Garzione, and A. Basu, Integrated provenance analysis of a retroarc fold-thrust belt: U-Pb geochronology, heavy minerals, and Nd isotopes of the Magdalena Valley basin, northern Andes, Colombia. Earth Science Reviews, 110, 111-126, 2012.

24. J. Nie, Coupled 100-kyr cycles between 3 and 1 Ma in terrestrial and marine paleoclimatic records. doi:10.1029/2011GC003772, in press, Geochemistry, Geophysics, Geosystems, 12, Q10Z32, 10 PP., doi:10.1029/2011GC003772, 2011.

23. Y. Wang, J. Nie, T. Zhang, G. Sun, X. Yang, Y. Liu, and X. Liu. Cenozoic tectonic evolution in the western Qaidam Basin inferred from subsurface data. Geo. J. , 14, 335-344, 2011.

22. J. Zan, X. Fang, J. Nie, S. Yang, C. Song, and S. Dai. Magnetic properties of surface soils across the southern Tarim Basin. Chinese Science Bulletin, 56, 290-296, 2010.

21. J. Zan, X. Fang, S. Yang, J. Nie, and X. Li. A rock magnetic study of loess from the West Kunlun Mountains. Journal of Geophysical Research, 115, B10101, doi:10.1029/2009JB007184, 2010.

20. Y. Bai, X. Fang, J. Nie, Q. Meng, and Y. Chi. Methoxy n-fatty acids in surface solis from the Gongga and Kunlun Mountain regions: Ecological implications. Chinese Science Bulletin, 55, doi: 10.1007/s11434-010-3228-y, 2010.

19. Y. Song, Z. Shi, X. Fang, J. Nie, N. Ishikawa, X. Qiang, and X. Wang, Magnetic properties of loess in the Ili basin, Central Asia, and their correlation with those of loess from the Chinese Loess Plateau. Science in China (series D), 40, 61-72, 2010.

18. B. Horton, M. Parra, J. Saylor, J. Nie, A. Mora, V. Torres., D. Stockli, and M. Strecker, Resolving Andean uplift of the Eastern Cordillera in Colombia using detrital zircon U-Pb age signatures. GSA Today, 20, 4-9, 2010.

17. B. Horton, J. Saylor, J. Nie, A. Mora, M. Parra, A. Reyes, and D. Stockli, Linking sedimentation in the northern Andes to basement configuration, Mesozoic extension, and Cenozoic shortening: Evidence from detrital zircon U-Pb ages in the Eastern Cordillera of Colombia. Geological Society of America Bulletin, 122, 1423-1442, 2010.

16. J. Nie, B. Horton, A. Mora, J. Saylor, T. Housh, J. Rubiano, and J. Naranjo, Tracking exhumation of Andean ranges bounding the Middle Magdalena Valley basin, Colombia. Geology, 38, 451-454, 2010.

15. J. Nie, Y. Song, J. King, X. Fang, and C. Heil, HIRM variations in the Chinese red-clay sequence: insights into pedogenesis in the dust source area. Journal of Asian Earth Sciences, 38, 96-104, 2010.

14. J. Saylor, A. Mora, B. Horton, and J. Nie, Controls on the Isotopic Composition of Surface Water and Precipitation in the Northern Andes, Colombian Eastern Cordillera. Geochimica et Cosmochimica Acta, 73, 6999-7018, 2009.

13. J. Nie, Y. Song, J. King, and R. Egli, Consistent grain size distribution of pedogenic maghemite of surface soils and Miocene loessic soils on the Chinese Loess Plateau. Journal of Quaternary Science, 25, 261-266, 2010.

12. Y. Bai, X. Fang, J. Nie, Y. Wang, and F. Wu, A preliminary reconstruction of the paleoecological and paleoclimatic history of the Chinese Loess Plateau from the application of biomarkers. Palaeogeography, Palaeoclimatology, Palaeoecology, 271, 161-169, doi: 10.1016/j.palaeo.2008.10.006, 2009.

11. J. Nie, J. King, and X. Fang, The correlation between magnetic susceptibility record of the Chinese aeolian sequences and benthic oxygen isotope record. Geochemistry, Geophysics, and Geosystems, 9, Q12026, doi:10.1029/2008GC002243, 2008.

10. J. Nie, J. King, and X. Fang, The late Pliocene-early Pleostocene100 ka problem. Geophysical Research Letters, 35, L21606, doi:10.1029/2008GL035265, 2008.

9. J. Nie, J. King, Z. Liu, S. Clemens, W. Prell, and X. Fang, Surface-water freshening: A cause for the onset of North Pacific stratification from 2.75 Ma onward? Global and Planetary Change, 64, 49-52, 2008.

8. J. Nie, J. King, M. Jackson, X., Fang, and Y., Song, AC magnetic susceptibility studies of the red-clay sediments on the Chinese Loess Plateau during the time interval 4.8-4.1 Ma and their paleoclimatic and paleoceanographic implications. Journal of Geophysics Research, 113, B10106, doi:10.1029/2008JB005654, 2008.

7. J. Nie, J. King, and X. Fang, Tibetan uplift intensified the 400 k.y. signal in paleoclimate records at 4 Ma. Geological Society of America Bulletin, 120, 1338-1344, DOI: 10.1130/B26349.1, 2008.

6. J. Nie, J. King, and X. Fang, Link between benthic oxygen isotopes and magnetic susceptibility in the red-clay sequence on the Chinese Loess Plateau. Geophysical Research Letters, 35, L03703, doi:10.1029/2007GL032817, 2008.

5. J. Nie, J. King, and X. Fang, Enhancement mechanisms of magnetic susceptibility in the Chinese red-clay sequence. Geophysical Research Letters, 34, L19705, doi:10.1029/2007GL031430, 2007.

4. X. Fang, M. Yan, R. Van der Voo, D. Rea, C. Song, J. Parés, J. Gao, J. Nie and S. Dai, Late Cenozoic deformation and uplift of the NE Tibetan Plateau: evidence from high-resolution magnetostratigraphy of the Guide Basin, Qinghai Province, China. Geological Society of America Bulletin, 117, 1208-1225, 2005.

3. J. Nie, C. Song, X. Fang, X. Xu, and D. Sun, Paleomagnetic constraint on the Pleistocene appearance of the Yellow River in the Guide Basin of the NE Tibetan Plateau and its geomorphologic implications. Marine Geology and Quaternary Geology, 23, 59-64, 2003. (In Chinese with English abstract)

2. C. Song, X. Fang, J. Gao, J. Nie, M. Yan, X. Xu, and D. Sun, Magnetostratigraphy of Late Cenozoic fossil mammals in the northeastern margin of the Tibetan Plateau. Chinese Science Bulletin, 48, 188-193, 2003.

1. C. Song, X. Fang, J. Li, J. Gao, D. Sun, J. Nie, and M. Yan, Late Cenozoic sedimentological evolution of the Guide Basin, Qinghai, and uplift of the NE Tibetan Plateau. Review of Geology, 40, 337-346, 2003. (In Chinese with English abstract)

Nie, J., Horton, B., and Hoke, G. edits "Toward an improved understanding of uplift mechanisms and the elevation history of the Tibetan Plateau." GSA Special Paper 507, 2014.