周力平
职称:教授、特聘教授
研究方向:释光和放射性碳测年在考古与第四纪研究中的应用、稳定同位素与宇宙成因核素在深海和地表环境演变研究中的应用、史前人类活动的地球化学证据、磁性地层、环境磁学。
通讯地址:
Tel: 010-62756052 Fax:010-62751174
Email:lpzhou@pku.edu.cn
教育经历
1982: 学士:44118太阳成城集团 地理系 1984: 硕士:布鲁塞尔自由大学 理学院 1992: 博士:剑桥大学 植物系
工作经历
2000-至今 44118太阳成城集团“长江学者奖励计划”特聘教授 1999-2000 44118太阳成城集团教授 1996-1999 英国剑桥大学地球科学系Leverhulme research associate 1993-1996 英国剑桥大学考古研究所、物理系Research associate 1991-1993 英国East Anglia 大学环境学院 Senior research associate
社会服务工作
2011-2013:44118太阳成城集团海洋研究中心常务副主任 2013-今:44118太阳成城集团侨联主席
学术任职
2001-今: 中国第四纪研究委员会 副秘书长 2011-今: 国际第四纪研究联合会(INQUA)地层与年代学委员会副主席 2012-今: 教育部地表过程分析与模拟重点实验室副主任 2012-今: 中国地理学会地貌与第四纪专业委员会主任 2012-今:国际古全球变化(PAGES)科学指导委员会执委会委员 2014-今:中国大洋发现计划专家委员会委员 2015-今:国际海洋痕量元素与同位素生物地球化学循环项目(GEOTRACES)科学指导委员会委员 2000-今:The Holocene 编委会成员 2002-今:Quaternary Research 编委会成员 2006-今:Journal of Quaternary Science 编委会成员 2012-今:《第四纪研究》副主编 2013-今: Anthropocene编委会成员
荣誉与奖励
2004年 入选国家人事部新世纪百千万人才工程国家级人选 2008年 44118太阳成城集团方正奖教金 2012年 海洋工程科学技术一等奖 (排名第四)
环境演变与全球变化(本科生选修)
现代自然地理学实验方法(与赵昕奕老师联合讲授)(本科生选修)
海洋科学导论(与多院系老师一起讲授)(全校通选课)
第四纪环境演变(研究生必修)
第四纪年代学(研究生选修)
欧亚黄土区极端气候事件的识别,特征及年代学 (国家杰出青年科学基金) 2000-2003
黄土的Be-10加速器质谱测量与地磁极性倒转的位置 (国家自然科学基金)2003-2005
近代和现代环境过程与环境替代性指标的量化研究 (973计划“我国大陆季风-干旱环境系统发展过程的科学钻探研究”课题) 2004-2008
中国北方中纬度地区深海氧同位素第3期环境演化特征 (国家自然科学基金委重大研究计划重点项目)2005-2008
有孔虫壳体的双重同位素测定及其在海水古温度重建中的潜力 (国家自然科学基金)2011-2013
光释光测年技术在深海研究中的应用(国家自然科学基金)2012-2015
南海深部过程的海水14C 示踪研究(基金委重大计划重点项目)2013-2016
1. Ma, Z., A. C. Ravelo, Z. Liu, L. Zhou, and A. Paytan (2015), Export production fluctuations in the eastern equatorial Pacific during the Pliocene-Pleistocene: Reconstruction using barite accumulation rates, Paleoceanography, 30, doi:10.1002/2015PA002860.2.
2. Fu, D.P., Ding, X.F., Liu, K.X., Müller, A.M., Suter, M., Christl, M., Zhou, L.P. and Synal, H.A. (2015) Further improvement for 10Be measurement on an upgraded compact AMS radiocarbon facility. Nucl. Instr. Meth. Phys. Res. B 361, 178-182.
3. Chen, B., Jie, D.M., Shi, M.N., Gao, P., Shen, Z.X., Uchida, M., Zhou, L.P.
Liu, K.X., Hu, K., Kitagawa, H. (2015) Characteristics of 14C and 13C of carbonate aerosols in dust storm events in China. Atmospheric Research 164–165, 297–303.
4. Gao, P. Xu, X.M., Zhou, L.P., Pack, M.A., Griffin, S., Santos, G.M., Southon, J.R. and Liu, K.X. (2014) Rapid sample preparation of dissolved inorganic carbon in natural waters using a headspace-extraction approach for radiocarbon analysis by accelerator mass spectrometry, Limnology & Oceanography: Methods. 12, 172–188.
5. Hu, B., Radke, J., Schlüter, H-J., Heine, F.T., Zhou, L.P. and Bernasconi, S.M. (2014). A modified procedure for gas-source isotope ratio mass spectrometry: the long-integration dual-inlet (LIDI) methodology and implications for clumped isotope measurements. Rapid Commun. Mass Spectrom. 28 (13): 1413-1425.
6. Grauel, A.L., Schmid, T.W., Hu, B., Bergami, C., Capotondi, L. Zhou, L.P. and Bernasconi, S.M. (2013) Calibration and application of the ‘clumped isotope’ thermometer to foraminifera for high-resolution climate reconstructions. Geochimica et Cosmochimica Acta 108,125–140.
7. Xi, X. T., Ding, X. F., Fu, D. P., Zhou, L. P., and Liu, K. X. (2013) Δ14C level of annual plants and fossil fuel derived CO2 distribution across different regions of China. Nuclear Instruments and Methods in Physics Research B 294, 515–519.
8. Tan W B, Zhou L P, Liu K X. (2013) Soil aggregate fraction-based 14C analysis and its application in the study of soil organic carbon turnover under forests of different ages. Chinese Science Bulletin, doi: 10.1007/s11434-012-5660-7
9. Wu, W.C., Tan, W.B., Zhou, L.P., Yang, H. & Xu, Y.P. (2012) Sea surface temperature variability in southern Okinawa Trough during last 2700 years, Geophysical Research Letters, 39, L14705, doi:10.1029/2012GL052749.
10. Jia, G. D., Li, Z. Y., Peng, P. A., and Zhou, L. P. (2012) Aeolian N-alkane Isotopic Evidence from North Pacific for a Late Miocene Decline of C4 Plant in the Arid Asian Interior. Earth and Planetary Science Letters 321-322, 32-40.
11. Sun, X. S., Hu, M., Guo, S., Liu, K. X., and Zhou, L. P. (2012) 14C-based source assessment of carbonaceous aerosols at a rural site. Atmospheric Environment 50, 36-40.
12. Wu, Y. H., Wang, S. M., and Zhou, L. P. (2011) Possible Factors Causing Older Radiocarbon Age for Bulk Organic Matter in Sediment from Daihai Lake, North China. Radiocarbon 53, 359-366.
13. Li, T. Y., Shen, C. C., Li, H. C., Li, J. Y., Chiang, H. W., Song, S. R., Yuan, D. X., Lin, C. D. J., Gao, P., Zhou, L. P., Wang, J. L., Ye, M. Y., Tang, L. L., and Xie, S. Y.( 2011) Oxygen and Carbon Isotopic Systematics of Aragonite Speleothems and Water in Furong Cave, Chongqing, China. Geochimica et Cosmochimica Acta 75, 4140-4156.
14. Chen, J. E., Guo, Z. Y., Liu, K. X., and Zhou, L. P. ( 2011) Development of accelerator mass spectrometry and its applications. Reviews of Accelerator Science and Technology 4, 117-145.
15. Xi, X. T., Ding, X. F., Fu, D. P., Zhou, L. P., and Liu, K. X. (2011) Regional Δ14C patterns and fossil fuel derived CO2 distribution in the Beijing area using annual plants. Chinese Science Bulletin 56, 1721-1726.
16. Zhou, L.P., Fu D.P., Zhang J.F., 2010. An analysis of the components of the luminescence signals of selected polymineral and quartz samples from loess in western China and southern Tajikistan, and their suitability for optical dating, Quaternary Geochronology. 5,149-153.
17. Wang G.A., L.P. Zhou, Liu M., Han J.M., Guo J.H., Faiia A., Su F., 2010. Altitudinal trends of leaf delta 13C follow different patterns across a mountainous terrain in North China characterized by temperate semi-humid climate, Rapid Communications in Mass Spectrometry. 24: 1557–1564
18. Qin J.T., and L.P. Zhou, 2009. Stepped-irradiation SAR: A viable approach to circumvent OSL equivalent dose underestimation in last glacial loess of northwestern China. Radiation Measurements 44, 417-422.
19. Tan W.B., Wang G. A., Han J.M., Liu M., L.P. Zhou, Luo T., Cao Z.Y., and Cheng S.Z., 2009. Delta C-13 and water-use efficiency indicated by delta C-13 of different plant functional groups on Changbai Mountains, Northeast China. Chinese Science Bulletin 54, 1759-1764.
20. Zheng C.X., L.P. Zhou, and Qin J.T., 2009. Difference in luminescence sensitivity of coarse-grained quartz from deserts of northern China. Radiation Measurements 44, 534-537.
21. Passey B.H., L.K. Ayliffe1, A. Kaakinen, Z.Q. Zhang, J.T. Eronen, Y.M. Zhu, L.P. Zhou, T.E. Cerling, M.Fortelius, 2008. Strengthened East Asian summer monsoons during a period of high-latitude warmth? Isotopic evidence from Mio-Pliocene fossil mammals and soil carbonates from northern China. Earth and Planetary Science Letters doi:10.1016/j.epsl.2008.11.008
22. Dodonov A.E., L.P. Zhou, 2008. Loess deposition in Asia: Its initiation and development before and during the Quaternary. Episodes 31, 222-225.
23. Wang, X.H., L.P. Zhou, Y.M. Wang, X.H.Zhang, X.M. Liu, X.T. Fan, K.X.Liu & J.X. Zhou, 2008. Paleoenvironmental implications of high-density records in Co-rich seamount crusts from the Pacific Ocean, Science in China Series D: Earth Sciences, 51, 1460-1469.
24. Zhu Y.M., L.P. Zhou, Mo D.W., Kaakinen A., Zhang Z.Q., Fortelius M., 2008. A new magnetostratigraphic framework for late Neogene Hipparion Red Clay in the eastern Loess Plateau of China. Palaeogeogr. Palaeoclimatol. Palaeoecol. 268, 47-57.
25. Liu, K.X., X. F. Ding, D.P. Fu, Y. Pan, X.H.Wu, Z.Y. Guo, L.P. Zhou, 2007. A new compact AMS system at Peking University, Nuclear Instruments and Methods in Physics Research B 259, 23–26.
26. Wang G.A., J.M. Han, L.P. Zhou, X.G. Xiong, Z.H. Wu, 2005. Carbon isotope ratios of plants and occurrences of C4 species under different soil moisture regimes in arid region of Northwest China, Physiologia Plantarum 125: 74–81.
27. Liu, K.X., H.L. Gao, L.P. Zhou, F. Xu, S.X. Peng and Z.Y. Guo, 2004. AMS measurements of 10Be concentration in Chinese loess using PKUAMS. Nuclear Instruments and Methods in Physics Research B 223–224, 168–171.
28. Lu H.Y., N.Q. Wu, Z.Y. Gu, Z.T. Guo, L. Wang, H.B. Wu, G.A. Wang, L.P. Zhou, J.M. Han, T.S. Liu, 2004. Distribution of carbon isotope composition of modern soils on the Qinghai-Tibetan Plateau. Biogeochemistry, 70: 273–297.
29. Zhou, L.P. &. N.J. Shackleton, 2001. Photon-stimulated luminescence of quartz from loess and effects of sensitivity change on paleodose determination, Quaternary Science Reviews, 20, 853-857.
30. Hong Y.T., Jiang H.B., Liu T.S. L.P. Zhou, Beer J., Li H.D., Leng X.T., Hong B., Qin X.G., 2000. Response of climate to solar forcing recorded in a 6000 year delta O 18 time series of Chinese peat cellulose, The Holocene, 10, 1-7.
31. Zhou, L.P., N.J. Shackleton, 1999. Misleading positions of geomagnetic reversal boundaries in Eurasian loess and implications for correlation between continental and marine sedimentary sequences, Earth and Planetary Science Letters, 168, 117-130.
32. Zhou, L.P., F. McDermott, E.W. Rhodes, E.A. Marseglia & P.A. Mellars, 1997, ESR and mass-spectrometric uranium-series dating studies of a mammoth tooth from Stanton Harcourt, Oxfordshire, England, Quaternary Science Reviews, 16, 445-454.
33. Zhou, L.P., A.E. Dodonov & N.J. Shackleton, 1995. Thermoluminescence dating of the Orkutsay loess section in Tashkent region, Uzbekistan Central Asia, Quaternary Science Reviews, 14, 721-730.
34. Zhou, L.P. & A.G. Wintle, 1994. Sensitivity change of thermoluminescence signals after laboratory optical bleaching: experiments with loess fine grains. Quaternary Science Reviews, 13, 457-463.
35. Zhu R.X., L.P. Zhou, C. Laj, A. Mazaud, Z.L. Ding, 1994. The Blake geomagnetic polarity episode recorded in the Chinese loess. Geophysical Research Letters, 21, 697-700.
36. Maher B., R. Thompson, L.P. Zhou, 1994. Spatial and temporal reconstruction of changes in the Asian palaeomonsoon: A new mineral magnetic approach. Earth and Planetary Science Letters, 125, 461-471.
37. Zhou, L.P., F. Oldfield, A.G. Wintle, S.G. Robinson, J.T. Wang, 1990. Partly pedogenic origin of magnetic variations in Chinese loess. Nature, 346, 737-739.
38. Pye K., L.P. Zhou, 1989. Late Pleistocene and Holocene aeolian dust deposition in North China and the Northwest Pacific Ocean. Palaeogeography, Palaeoclimatology, Palaeoecology, 73, 11-23.