无法找到该页
无法找到该页
您正在搜索的页面可能已经删除、更名或暂时不可用。
请尝试以下操作：
确保浏览器的地址栏中显示的网站地址的拼写和格式正确无误。
如果通过单击链接而到达了该网页，请与网站管理员联系，通知他们该链接的格式不正确。
单击按钮尝试另一个链接。
HTTP 错误 404 - 文件或目录未找到。Internet 信息服务 (IIS)
技术信息（为技术支持人员提供）
转到 并搜索包括&HTTP&和&404&的标题。
打开&IIS 帮助&（可在 IIS 管理器 (inetmgr) 中访问），然后搜索标题为&网站设置&、&常规管理任务&和&关于自定义错误消息&的主题。he teacher
姓&名：赖忠平
联系方式：湖北省武汉市洪山区鲁磨路388号，中国地质大学（武汉）地球科学学院地理系Tel: ，Email: zhongping..
第四纪地质与环境变化、地质灾害（地震、滑坡、堰塞湖等）和史前人类活动年代学、及释光测年方法和物理机制等，研究区域主要有青藏高原、中亚干旱区、黄土高原、北美第四纪冰川区等
地貌学与第四纪地质学
招收研究生方向
第四纪地质学方向博士、硕士研究生
地理学硕士研究生
1992年7月毕业于华东师范大学地理系，获学士学位。1992年至1994年在江西省安远县第一中学任地理教师；1997年9月毕业于中国科学院地球环境研究所黄土与第四纪地质国家重点实验室，获硕士学位。1997年10月-2001年8月年在中国科学院地球环境研究所黄土与第四纪地质国家重点实验室工作。2001年9月-2005年9月获牛津大学克里莱顿（Clarendon Scholarship）全额奖学金到牛津大学攻读博士学位，连续三年获优秀研究生奖学金（Graduate Scholarship），并获2004年度中国国家留学基金委员会授予的“国家优秀自费留学生”奖学金。2005年12月获德国“洪堡学者基金(Humboldt Fellowship)”在德国马尔堡大学和拜罗伊特大学做博士后。2007年11月回国入选中国科学院“引进国外杰出人才百人计划”，组建了释光测年实验室和环境变化研究团队。华南师范大学客座教授；兰州大学和青海师范大学兼职教授，博士生导师；中科院优秀研究生指导教师（因指导的论文获两篇中科院优秀博士论文）。
研究领域主要有第四纪地质与环境变化、地质灾害（地震、滑坡、堰塞湖等）和史前人类活动年代学、及释光测年方法和物理机制等，研究区域主要有青藏高原、中亚干旱区、黄土高原、北美第四纪冰川区等。发表学术论文120多篇，其中国际SCI刊物论文80多篇。主持国家自然科学基金（四项）、中科院先导专项二级课题、中科院百人计划项目等。近二十次在国际会议上做大会报告（Plenary speaker）、特邀报告(Invited speaker)和担任主席或分会主席。
现任两个国际主流SCI刊物Quaternary Research和Aeolian Research副主编（associate editor）;国际SCI刊物Geochronometria物理方法领域编委（Member of editorial board,
Methods of physics），国际刊物International Journal of
Luminescence and Applications编委;中文期刊《地球科学前沿》（Advances in Geosciences）和《湖泊科学》的编委。国际冰冻圈科学协会冰冻圈与第四纪研究专业委员会主任。
主持承担的主要科研项目：
1.&&&& 青藏高原环境变化与盐湖演化（A0961），中国科学院百人计划项，200万，。
2.&&&& 柴达木盆地察尔汗盐湖成盐期的光释光年代学研究（批准号），国家自然科学面上基金，57万元，。
3.&&&& 中部和东部沙漠/沙地（XDA），中国科学院先导专项（碳专项），340万元，。（合作主持）
4.&&&& 北美五大湖区冰川沉积光释光测年和劳伦泰德冰盖演化及其与中国冰川演化的对比（SKLCS-ZZ-），冰冻圈科学国家重点实验室自主课题，40万元，。
5.&&&& 青藏高原东部玉树及毗邻地区地震释光年代学（批准号）， 国家自然科学面上基金，85万元，。
6.&&&& 柴达木盆地新生代沉积记录的西风气候演化（批准号），国家自然科学基金重大项目二级课题，250万元，。
发表的国际刊物文章（*是通讯作者）:
Guo, X.H., 2014,& Acta Geological Sinica, under revision（SCI）
2.&&&&& Yu, L.P.*,
Dong, Z.B, Lai, Z.P.*, Qian, G.Q., 2014. Origin and lateral migration of linear dunes in the Qaidam
Basin of NW China revealed by dune sediments, internal structures, and
optically stimulated luminescence ages, with implications for linear dunes on
Titan: Comment and Discussion. Geological Society of America Bulletin.in press,
doi:10..1.（SCI）
Guo, X.H.*, Lai, Z.P.*, Sun, Z., Li,
X.L., Yang, T.B, 2014, Luminescence dating of Suozi landslide in theUpper Yellow Riverof the Qinghai-Tibetan Plateau, China.
Quaternary International, in press,
DOI:10.1016/j.quaint.. （SCI）
4.&&&&& Chen, R.R., Zhou, S.Z.*, Lai, Z.P.*, Ou, X.J.,
Chen, R., Deng, Y.B., 2014. Luminescence chronology of late Quaternary
moraines and Last Glacial Maximum equilibrium-line altitude reconstruction from
Parlung Zangbo Valley, south-eastern Tibetan Plateau. Journal of Quaternary
Science, 29（6）597-604, DOI:10.1002/jqs.2733.& （SCI）
5.&&&&& Han, W.X., Ma, Z.B., Lai, Z.P., Appeld, E.,
Fang, X.M.*, Yu, L.P., 2014. Wind erosion on the northern-eastern
Tibetan Plateau: constraints from OSL and U-Th dating of playa salt crust in
the Qaidam Basin. Earth Surface Processes and Landforms, 39（6）779-789,
DOI: 10.1002/esp.3483 （SCI）
6.&&&&& Han, W.X., Yu, L.P.*, Lai, Z.P.*, Madsen, D.,
Yang, S.L., 2014. The earliest well-dated archaeological site
in the hyper-arid Tarim Basin and its implications for prehistoric human
migration and climatic changes. Quaternary Research 82, 66-72. DOI:
10.1016/j.yqres..（SCI）
7.&&&&& Ou
X.J., Lai, Z.P.*, Zhou, S.Z., Zeng, L.H., 2014. Timing of glacier
fluctuations and trigger mechanisms in eastern Qinghai-Tibetan Plateau during
the Late Quaternary. Quaternary Research 81, 464-475. DOI:
10.1016/j.yqres. （SCI）
8.&&&&& Yu,
L.P., Lai, Z.P.*, 2014. Holocene climate change inferred from
stratigraphy and OSL chronology of aeolian sediments in theQaidamBasin,
northeastern Qinghai-Tibetan Plateau. Quaternary Research 81, 488-499.
DOI:10.1016/j.yqres.（SCI）
9.&&&&& Chang,
H., An, Z.S., Liu, W.G., Ao, H., Qiang, X.K., Song, Y.G., Lai, Z.P., 2014.
Quaternary structural partitioning within the rigid Tarim plate inferred from
magnetostratigraphy and sedimentation rate in the easternTarimBasininChina. Quaternary Research 81,
424-432. http://dx.doi.org/10.1016/j.yqres.（SCI）
10.&& Wang,
H.Y., Dong, H.L., Zhang, C.L., Jiang, H.C., Zhao, M.X., Liu, Z.H., Lai, Z.P.,
Liu, W.G., 2014. Water depth affecting thaumarchaeol production inLakeQinghai,
northeastern Qinghai-Tibetan plateau: Implications for paleo lake levels and
paleoclimate. Chemical Geology 368, 76-84. DOI: 10.1016/j.chemgeo.. （SCI）
Z.P.*, Fan, A.C., 2014. Examining quartz OSL age
underestimation for loess samples from Luochuan in the Chinese Loess Plateau.
Geochronometria 41, 57-64. DOI 10.-013-0138-1（SCI）
12.&& Wang,
Z.T., Lai, Z.P., 2014. A theoretical model on the relation between wind
speed and grain size in dust transportation and its paleoclimatic implications.
Aeolian Research 13, 105-108. DOI:10.1016/j.aeolia. （SCI）
13. Lai, Z.P.*, Mischke, S.,
Medsen, D., 2014. Paleoenvironmental implications of new OSL
dates on the formation of the “Shell Bar” in the Qaidam Basin, northeastern
Qinghai-Tibetan Plateau. Journal of Palaeolimnology 51(2): 197-210. DOI:10.-013-9710-1. （SCI）
14.&& Mischke,
S., Lai, Z.P., Zhang, C.J., 2014. Re-assessment of the paleoclimate
implications of the Shell Bar in the Qaidam Basin, China. Journal of
Palaeolimnology 51(2): 179C195. DOI:10.-012-9674-6. &（SCI）
15.&& Madsen,
D., Lai, Z.P., Sun, Y.J., Rhode, D., Liu, X.J., Brantingham, P.J., 2014.
Late Quaternary Qaidam lake histories and implications for an MIS 3 ‘‘GreatestLakes’’
period in northwestChina.
Journal of Palaeolimnology 51: 161C177. DOI:10.-012-9662-x. （SCI）
16.&& Liu,
X.J.*, Lai, Z.P.*, Yi, C.L., Lei, Y.B., 2013. Long term east-west
asymmetry in monsoon rainfall on the Tibetan Plateau: Comment. Geology, 41(12),
311. doi:10.C.1.
17.&& Yang,
J., Jiang, H.C.*, Dong, H.L.*, Wang, H.Y., Wu, G., Hou, W.G., Liu, W.G., Zhang,
C.L., Sun, Y.J., Lai, Z.P., 2013. amoA-encoding archaea and
thaumarchaeol in the lakes on the northeasternQinghai-Tibetan Plateau,China.
Frontiers in Microbiology, v4, Article329, doi: 10.3389/fmicb.. （SCI）
18.&& Liu,
D.M., Chen, G.C., Lai, Z.P., Wei, H.C., Zhou, G.Y., Peng, M., 2013. Late
Glacial and Holocene vegetation and climate history of an alpine wetland on the
QinghaiCTibetan Plateau. Geological Quarterly 57 (2): 261C268. DOI:
http://dx.doi.org/10.7306/gq.1096.（SCI）
19.&& Zhao,
J.D., Yin, X.F., Harbor, J.M., Lai. Z.P., Liu, S.Y., Li, Z.Q., 2013.
Quaternary glacial chronology of theKanasRivervalley, Altai Mountains,China.
Quaternary International 311: 64-53. （SCI）
20.&& Rao,
Z.G., Chen, F.H., Cheng, H., Liu, W.G., Wang, G.A., Lai, Z.P.,
Bloemendal, J., 2013. High-resolution summer precipitation variations in the
western Chinese Loess Plateau during the last glacial. Scientific Report 3:
1-6. doi:10.1038/srep02785. SCI）
21.&& Liu,
X.J., Lai, Z.P., Zeng, F.M., Madsen, D., E, C.Y., 2013. Holocene lake
level variations on the Qinghai-Tibetan Plateau. International Journal of Earth
Sciences (Geol Rundsch) 102: . DOI:10.-013-0896-2 （SCI）
22.&& Fei,
J., Lai, Z.P., Zhang, D.D., He, H.M., 2013.ExtremeSeaice events in the Chinese marginal seas during the past 2000 years. Climate
Research 57, 123-132. doi: 10.3354/cr01174 （SCI）
23.&& Yang,
J., Jiang, H.C., Dong, H.L., Wu, G., Hou, W.G., Zhao, W.Y., Sun, Y.J., Lai,
Z.P., 2013. Diversity of Carbon Monoxide-Oxidizing Bacteria inFiveLakeson the Qinghai-Tibet Plateau,China.
Geomicrobiology Journal 30(8), 758-767. DOI:10.1.（SCI）
24.&& Yang,
J., Jiang, H.C., Dong, H.L., Wu, G., Hou, W.G., Zhao, W.Y., Sun, Y.J., Lai,
Z.P., 2013.& Abundance and Diversity
of Sulfur-Oxidizing Bacteria along a Salinity Gradient inFour Qinghai-Tibetan Lakes,China.
Geomicrobiology Journal 30 (9), 851-860. DOI:10.1. （SCI）
25.&& Fan,
T.L., Fan Y.X., Zhao, H., Chen, F.H., Lai Z.P., 2013. Investigations on
the degree of bleaching of quartz OSL signals using modern aeolian dust from
westernLoess Plateau,China. Geochronometria 40, 165-176.
26.&& Liu,
X.J., Lai, Z.P.*, 2013. Optical dating of sand wedges and ice-wedge
casts fromQinghaiLakearea on the
northeastern Qinghai-Tibetan Plateau and its palaeoenvironmental implications.
Boreas 42, 333-341. DOI:10.1111/j.12.00288.x.
Yi, L.*, Lai, Z.P.*, Yu, H.J., Xu,
X.Y., Su, Q.,Yao,
J., Wang, X.L., Shi, X.F., 2013. Chronologies of sedimentary changes in the
southBohai Sea,China: Constraints from
luminescence and radiocarbon dating. Boreas 42, 267-284. DOI:10.1111/j.12.00271.x.
28.&& Chen,
G.Q., Yi, L., Xu, X.Y., Hong-Jun Yu, H.J., Cao, J.R., Su, Q., Yang, L.H., Lai,
Z.P., 2013. Testing the standardized growth curve (SGC) to OSL dating
coastal sediments from the southBohai
Sea,China.
Gechronometria 40, 101-112. DOI:10.-013-0103-z. （SCI）
29.&& Lai,
Z.P., 2012. Was late Marine Isotope Stage (MIS) 3 warm and humid in
nowadays arid northwesternChina?
Quaternary International 279-280, 261.（SCI）
30.&& Yang,
L.H.*, Wang, T., Zhou, J., Lai, Z.P.*, Long, H., 2012. OSL chronology
and possible forcing mechanisms of dune evolution in the Horqin dunefield in
northernChinasince the Last Glacial Maximum. Quaternary Research 78(2),185-196.
doi:10.1016/j.yqres..& （SCI）
31.&& Chapot,
M.S., Roberts, H.M., Duller, G.A.T., Lai, Z.P., 2012. A comparison of
natural- and laboratory-generated dose response curves for quartz optically
stimulated luminescence signals from Chinese Loess. Radiation Measurements 47,
. DOI:dx.doi.org/10.1016/j.radmeas.（SCI）
32.&& Sun,
Y.J., Lai, Z.P.*, Madsen, D., Hou, G.L. 2012. Luminescence dating of a
hearth from the archaeological site of Jiangxigou in theQinghaiLakearea of the northeastern Qinghai-Tibetan Plateau. Quaternary Geochronology 12,
107-110. DOI:10.1016/j.quageo.. （SCI）
C.Y.*, Lai, Z.P.*, Sun, Y.J., Hou, G.L., Yu, L.P., Wu, C.Y., 2012. A
luminescence dating study of loess deposits from theYiliRiver basinin westernChina.
Quaternary Geochronology 10, 50-55. doi: 10.1016/j.quageo.. （SCI）
34.&& Zhang,
J.R., Lai, Z.P.*, Jia, Y.L., 2012. Luminescence chronology for late
Quaternary lake levels of enclosedHuangqihaiLakein East Asian monsoon marginal
area in northernChina.
Quaternary Geochronology 10, 123-128. DOI:10.1016/j.quageo.. （SCI）
35.&& Zhao,
J.D., Lai, Z.P., Liu, S.Y., Song, Y.G., Li, Z.Q., Jiang, H.L., 2012. OSL
and ESR dating of glacial deposits and its implications for glacial landform
evolution in theBogedaPeakarea, Tianshan range,China. Quaternary Geochronology 10,
237-243. DOI:10.1016/j.quageo.. （SCI）
36.&& Hou,
G.L., Lai, Z.P.*, Sun, Y.J., Ye, M.L., 2012. Luminescence and
radiocarbon chronologies for the Xindian Culture site of Lamafeng in theGuantingBasinon the NE edge of the Tibetan
Plateau. Quaternary Geochronology 10, 394-398. DOI:
10.1016/j.quageo.. （SCI）
37.&& Liu,
X.J., Lai, Z.P.*, Yu, L.P., Sun, Y.J., Madsen, D., 2012. Luminescence
chronology of aeolian deposits from theQinghaiLakearea in the Northeastern Qinghai-Tibetan Plateau and its palaeoenvironmental
implications. Quaternary Geochronology 10, 37-43. DOI:
10.1016/j.quageo.. （SCI）
38.&& Jia,
Y.L., Lai, Z.P.*, Zhang, J.R., Peng, X.M., Zhang, B., Zhang, Z., Wang,
P.L., 2012.& Chronology and provenance of
aeolian sediments fromPoyangLakearea in the middle reaches of the Yangtze River
Quaternary Geochronology 10, 44-49. DOI: 10.1016/j.quageo.. （SCI）
39.&& Zhang, B., Ou, X.J., Lai, Z.P.*, 2012. OSL
ages revealing the glacier retreat in the Dangzi valley in the eastern Tibetan
Plateau during the Last Glacial Maximum. Quaternary Geochronology 10, 244-249.
DOI: 10.1016/j.quageo.. （SCI）
40.&& Cao,
G.C., Long, H., Zhang, J.R., Lai, Z.P., 2012. Quartz OSL dating of last
glacial sand dunes near Lanzhouon the
western Chinese Loess Plateau: A comparison between different granulometric
fractions. Quaternary Geochronology 10, 32-36.
doi:10.1016/j.quageo.. （SCI）
41.&& Long, H., Lai, Z.P., Frenzel, P., Fuchs, M.,
Haberzett, T., 2012. Holocene moist period recorded by the
chronostratigraphy of a lake sedimentary sequence from Lake Tangra Yumco on the
south Tibetan Plateau. Quaternary Geochronology 10, 136-142.
doi:10.1016/j.quageo.. （SCI）
Hou, G.L., Lai,
Z.P., Xiao, J.Y., E, C.Y., 2012. Reconstruction of cultivated land
during mid-Holocene in the middle and lower reaches of Yellow River and human
impact on vegetations. JOURNAL
OF GEOGRAPHICAL SCIENCES, 22(5): 933-945. DOI: 10.-012-0974-6（SCI）
L.P., Lai, Z.P.*, 2012. OSL chronology and palaeoclimatic implications
of aeolian sediments in the easternQaidamBasinof the northeastern
Qinghai-Tibetan Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology
337-338, 120-129. DOI:10.1016/j.palaeo..
Long, H., Lai, Z.P.*, Fuchs, M.,
Zhang, J.R., Li, Y., 2012. Timing of Late
Quaternary palaeolake evolution inTenggerDesertof northernChinaand its possible forcing
mechanisms. Global and Planetary Change, 92C93: 119C129, doi:10.1016/j.gloplacha..
45.&& Long,
H., Lai, Z.P.*, Fuchs, M., Zhang, J.R., Yang, L.H., 2012. Palaeodunes
intercalated in loess strata from the western Chinese Loess Plateau: timing and
palaeoclimatic implications. Quaternary International 263, 37-45.
doi:10.1016/j.quaint.. （SCI）
46.&& Fei,
J., Lai, Z.P., He, H.M., Zhou, J., 2012. Historical water level change
ofLakeWeishanin East China from
AD: relationship with the flooding of theYellow River. Limnology, 13(1), 117-124. DOI:10.-011-0361-5.
47.&& An, F.Y., Ma, H.Z., Wei, H.C., Lai, Z.P.*, 2012. Distinguishing
aeolian signature from lacustrine sediments of the Qaidam Basin in northeastern
Qinghai-Tibetan Plateau and its palaeoclimatic implications. Aeolian Research
4, 17-30. （SCI）
48.&& Liu,
K., Lai, Z.P.*, 2012. Chronology of Holocene sediments from the
archaeological Salawusu site in the Mu Us Desert inChinaand its palaeoenvironmental
implications. Journal of Asian Earth Sciences 45, 247-255. （SCI）
L., Yu, H.J., Ge, J.Y., Lai, Z.P., Xu, X.Y., Qin, L., Pen, S.Z., 2012.
Reconstructions of annual summer precipitation and temperature in north-centralChinasince 1470 AD based on drought/flood index and tree-ring records. Climatic
Change 110: 469-498. DOI 10.-011-0052-6. （SCI）
50.&& Yang,
J., Jiang, H.C., Wu, G., Hou, W.G., Sun, Y.J., Lai, Z.P., Dong, H.L., 2012.
Co-occurrence of nitrite-dependent anaerobic methane oxidizing and anaerobic
ammonia oxidizing bacteria in two Qinghai-Tibetan saline lakes. Frontiers of
Earth Science, 6(4): 383-391. （SCI）
51.&& Seong,
Y.B., Kang, H.C., Ree, J.H, Choi, J.H., Lai, Z.P., Long, H., Yoo, H.O., 2011.
Geomorphic constraints on active mountain growth by the lateral propagation of
fault-related folding: A case study onYumu
Shan,NETibet. Journal of Asian Earth
Sciences 41, 184-194. doi:10.1016/j.jseaes.. （SCI）
52.&& Zhang,
J.R., Jia, Y.L., Lai, Z.P.*, Long, H., Yang, L.H., 2011. Holocene
evolution ofHuangqihaiLakein semi-arid northernChinabased on sedimentology and
luminescence dating. The Holocene, 21, . doi:10..
53.&& Yang,
L.H., Lai, Z.P.*, Long, H., Zhang, J.R., 2011. Construction of a quartz
OSL standardised growth curve (SGC) for aeolian samples from the Horqin
dunefield inNortheastern China. Geochronometria
38, 391-396.（SCI）
54.&& Liu,
X.J., Lai, Z.P.*, Madsen, D., Yu, L.P., Liu, K., Zhang, J.R., 2011. Lake
level variations ofQinghaiLakein northeastern
Qinghai-Tibetan Plateau since 3.7 ka based on OSL dating. Quaternary
International 236, 57-64. doi:10.1016/j.quaint.. （SCI）
55.&& Long,
H., Lai, Z.P.*, Wang, N.A., Zhang, J.R., 2011. A combined luminescence
and radiocarbon dating study of Holocene lacustrine sediments from arid
northernChina.
Quaternary Geochronology 6, 1-9. doi: 10.1016/j.quageo.. （SCI）
56.&& Yang,
L.H., Zhou, J., Lai, Z.P.*, Long, H., Zhang, J.R., 2010. Lateglacial and
Holocene dune evolution in the Horqin dunefield of northeasternChinabased on Luminescence dating. Palaeogeography, Palaeoclimatology, Palaeoecology
296, 44-51.（SCI）
L.B., Ou, X.J., Lai, Z.P., Zhou, S.Z., Wang, J., Fu, Y.C., 2010. Timing
and style of Late Pleistocene glaciation in the Queer Shan, northernHengduanMountainsin the eastern Tibetan
Plateau. Journal of Quaternary Science 25, 957-966.（SCI）
58.&& Long,
H., Lai, Z.P., Wang, N.A., Li, Y., 2010. Holocene climate variations
from Zhuyeze terminal lake records in East Asian monsoon margin in arid
northernChina.
Quaternary Research 74, 46-56. （SCI）
59.&& Liu,
X.J., Lai, Z.P.*, Long, H., Fan, Q.S., Sun, Y.J., 2010. Timing of high
lake levels ofQinghaiLakein the
Qinghai-Tibetan Plateau since Last Interglaciation based on quartz OSL dating.
Quaternary Geochronology 5, 218-222.（SCI）
60.&& Long,
H., Lai, Z.P.*, Fan, Q.S., Sun, Y.J., Liu, X.J., 2010. Applicability of
a quartz OSL standardised growth curve for De determination up to 400 Gy for
lacustrine sediments from theQaidamBasinof the
Qinghai-Tibetan Plateau. Quaternary Geochronology 5, 212-217.（SCI）
Z.P.*, Zhang, W.G., Chen, X., Jia, Y.L., Liu, X.J., Fan, Q.S.,
Long, H., 2010. OSL chronology of loess deposits inEast
Chinaand its implications for East Asian monsoon history.
Quaternary
Geochronology 5, 154-158.（SCI）
Z.P.*, 2010.
Chronology and the upper dating limit for loess samples from Luochuan section in
Chinese Loess Plateau using quartz OSL SAR protocol. Journal of Asian Earth
Sciences 37, 176-185. （SCI）
63.&& Sun,
Y.J., Lai, Z.P.*, Long, H., Liu, X.J., Fan, Q.S., 2010. Quartz OSL
dating of archaeological sites inXiaoQaidamLakeof the NE Qinghai-Tibetan Plateau and its implication for palaeoenvironmental
changes. Quaternary Geochronology 5, 360-364. （SCI）
64.&& Fan,
Q.S., Lai, Z.P.*, Long, H., Sun, Y.J., Liu, X.J., 2010. OSL chronology
for lacustrine sediments recording high stands of Gahai Lake in Qaidam Basin,
northeastern Qinghai-Tibetan Plateau. Quaternary Geochronology 5, 223-227.（SCI）
Z., Zhou, J., Lai, Z.P.*, Yang, L.H., Liang, J.M., Long, H., Ou, X.J., 2010.
Quartz OSL dating of sand dunes of Late Pleistocene in the Mu Us Desert in
northernChina.
Quaternary Geochronology 5, 102-106.（SCI）
X.J., Xu, L.B., Lai, Z.P.*, Long, H., He, Z., Fan, Q.S., Zhou, S.Z., 2010.
Potential of quartz OSL dating on moraine deposits from eastern Tibetan Plateau
using SAR protocol. Quaternary Geochronology 5, 257-262. （SCI）
67.&& Kaiser, K., Lai, Z.P., Schneider, B., Junge, F.W.,
2010. Late Pleistocene genesis of the middle Yarlung Zhangbo
Valley, southern Tibet (China), as deduced by sedimentological and luminescence
data. Quaternary Geochronology 5, 200-204. （SCI）
68.&& Miao, X.D., Lindsey, D.A., Lai, Z.P., Liu, X.D., 2010.
Contingency table analysis of pebble lithology and roundness: a case study of
Huangshui River, China and comparison to rivers in the Rocky Mountains, USA.
Sedimentology Geology 224, 49-53. （SCI）
69.&& Xiao, S.B., Liu, W.G., Li, A.C., Yang, S.Y., Lai, Z.P.,
2010. Pervasive autocorrelation of the chemical index of
alteration in sedimentary profiles and its palaeoenvironmental implications.
Sedimentology 57, 670-676.（SCI）
70. Lai, Z.P.*, Kaiser, K,
Brückner, H., 2009. Luminescence dated aeolian deposits of late
Quaternary age in the southern Tibetan Plateau and their implications for
landscape history. Quaternary Research 72, 421-430.（SCI）
71.&& Kaiser, K., Lai, Z.P., Schneider, B., Schoch,
W.H., Shen, X.H., Miehe, G., Brückner, H. 2009. Sediment
sequences and paleosols in the Kyichu Valley, southern Tibet (China),
indicating Late Quaternary environmental changes. Island Arc 18, 404-427.（SCI）
72.&& Kaiser, K., Lai, Z.P., Schneider, B., Reudenbach,
C., Miehe, G., Brückner, H. 2009. Stratigraphy and palaeoenvironmental
implications of Pleistocene and Holocene aeolian sediments in the Lhasa area,
southern Tibet (China). Palaeogeography, Palaeoclimatology, Palaeoecology 271,
329-342.（SCI）
73. Lai, Z.P.*, Brückner, H.,
Zöller, L., Fülling, A. 2008. Effects of thermal treatment on the
growth curve shape for OSL of quartz extracted from Chinese loess. Radiation
Measurements 43, 763-766.（SCI）
74. Lai, Z.P.*, Zöller, L.,
Fuchs, M., Brückner, H., 2008. Alpha efficiency determination for OSL
of quartz extracted from Chinese loess. Radiation Measurements 43, 767-770.（SCI）
Z.P.*, Brückner, H., 2008. Effects of feldspar contamination
on equivalent dose and the shape of growth curve for OSL of silt-sized quartz
extracted from Chinese loess. Geochronometria 30, 49-53.（SCI）
76. Lai, Z.P.*, Brückner, H.,
Zöller, L., Fülling, A., 2007. Existence of a common growth curve for
silt-sized quartz OSL of loess from different continents. Radiation
Measurements 42, .（SCI）
Z.P.*, Wintle, A.G., Thomas, D.S.G., 2007. Rates of dust
deposition between 50 ka and 20 ka revealed by OSL dating at Yuanbao on the
Chinese Loess Plateau. Palaeogeography, Palaeoclimatology, Palaeoecology 248,
431-439.（SCI）
Z.P.*, Wintle, A.G., 2006. Locating the boundary between the
Pleistocene and the Holocene in Chinese loess using luminescence. The Holocene
16, 893-899.（SCI）
Z.P.*, 2006. Testing the use of an OSL standardised growth
curve (SGC) for De determination on quartz from the Chinese Loess Plateau.
Radiation Measurements 41, 9-16. （SCI）
Z.P.*, Murray, A., Bailey, R., Huot, S., Bøtter-Jensen, L., 2006.
Quartz red TL SAR equivalent dose overestimation for Chinese loess. Radiation
Measurements 41, 114-119. （SCI）
Z.P.*, Murray, A.S., 2006. Red TL of quartz extracted from
Chinese loess: bleachability and saturation dose. Radiation Measurements 41,
836-840.（SCI）
Z.P.*, Stokes, S., Bailey, R., Fattahi, M., Arnold, L., 2003.
Infrared stimulated red luminescence from Chinese loess: basic observations.
Quaternary Science Reviews 22, 961-966.（SCI）
83.&& Porter,
S.C., Singhvi, A.K., An, Z.S., Lai, Z.P., 2001. Luminescence age and
palaeoenvironmental implications of a late Pleistocene ground wedge on the
Northeastern Tibetan Plateau. Permafrost and Periglacial Processes 12(2), 203-210.（SCI）
X.J., Lai, Z.P., Ma, Y.W., Yu, L.P., 2010. Land cover changes in Qaidam
Area from 2000 to 2008. ICMT-1390. （EI）
Z.P.*, Arnold, L., Stokes, S., Bailey, R., Fattahi, M., 2002.
Detection of Far-Red IRSL from Loess. Ancient TL 20(2), 41-46.
发表的国内核心期刊文章（*为通讯作者）：
1.&&&&& Yu,
L.P., Lai, Z.P.*, An, P., 2013. OSL chronology and palaeoclimatic
implications of paleodunes in the middle and southwesternQaidam Basin,Qinghai-Tibetan
Plateau. Sciences in Cold and Arid Regions 5（2）：.
2.&&&&& Ou,
X.J., Lai, Z.P.*, Zeng, L.H., Zhou, S.Z., 2012. OSL dating of glacial
sediments from the Qinghai-Tibetan Plateau and its bordering mountains: a
review and methodological suggestions. Journal of Earth Environment 3(2),
3. 赖忠平*, 欧先交,
2013. 光释光测年基本流程.
地理科学进展,
32(5): 683-693.
欧先交, 赖忠平*, 曾兰华,
2013. 不同释光方法测试冰川沉积物等效剂量的尝试.
36(2): 1-6.
刘瑞元，赖忠平，刘向军。2013。OSL
测年中标准生长曲线法(SGC)求单个测片De
误差的数学分析。核技术
36(3), --.
欧先交，张彪，赖忠平*，周尚哲，曾兰华。2013。青藏高原东部当子沟末次冰期冰川演化光释光测年。地理科学进展，待刊
于禄鹏，赖忠平*，2013。柴达木盆地中部与西南部古沙丘的释光年代学研究.
杨渐，蒋宏忱，孙永娟，吴耿，侯卫国，董海良，赖忠平。2013。青藏高原湖泊沉积物硫酸盐还原菌种群分布。盐湖研究，1:7-13.
赵婉雨，杨渐，董海良，吴耿，王尚，孙永娟，赖忠平，蒋宏忱。2013。柴达木盆地达布逊盐湖微生物多样性研究。地球与环境，41（4）：398-405.
孙政，沈冠军，赖忠平，2012。26Al-10Be等时线埋藏测年法基本原理与应用简介。盐湖研究20（2）：66-72.
欧先交, 曾兰华, 周尚哲, 赖忠平*, 2012。四川西部黄土沉积与环境演变研究综述.
地球环境学报
3(1): 692-704.
刘瑞元，赖忠平，2012。OSL测年中SGC法求De均值的计算方法比较，盐湖研究
20（4）：21-24。
张志刚，王建，赖忠平，徐孝彬，白世彪，张茂恒。2012。稻城冰帽冰碛物光释光测年研究中遇到的问题及探讨。地质学报
86：602-610。
刘德梅，陈桂琛，赖忠平，刘向军，周国英，宋文珠。2012。基于光释光测年研究青海湖三种沼泽湿地的发育及沉积速率。盐湖研究
徐佳佳，贾玉连，赖忠平，王彭岭，徐敏，申洪源。2012。黄旗海湖泊沉积记录的早中全新世大湖期环境的差异性。沉积学报
4:731-738.
马玉伟，张静然，刘向军，赖忠平。2011。青海湖末次冰消期以来的湖面变化。盐湖研究
19:19-25。
白D，王乃昂，何瑞霞，李景满，赖忠平。2011。巴丹吉林沙漠湖相沉积的探地雷达图像及光释光年代学证据。中国沙漠
31：842-847。
杨林海，赖忠平，周杰，隆浩，张静然。2011。光释光测年和孢粉分析揭示的晚冰期以来科尔沁沙地演化过程。地理科学31:
欧先交，曾兰华，隆浩，许刘兵，周尚哲，赖忠平*。2011。横断山地区末次冰期冰碛物石英光释光测年的适应性。冰川冻土
33：110-117。
刘向军，赖忠平*。2010。青海湖晚第四纪湖面变化研究进展。地球环境学报1：79-88。
樊启顺，赖忠平*，刘向军，孙永娟，隆浩。2010。晚第四纪柴达木盆地东部古湖泊高湖面光释光年代学。地质学报
刘凯，赖忠平，樊启顺，李保生。2010。萨拉乌苏地区末次冰期酒坊台剖面光释光年代及其环境意义。盐湖研究18：1-7。
何忠，周杰，赖忠平，杨林海，隆浩，梁剑鸣。2010。.石英光释光测年揭示的晚第四纪毛乌素沙地演化。第四纪研究
29：744-754。
24. 赖忠平。2008。基于光释光测年的中国黄土中氧同位素阶段2/1和3/2界限位置及年代的确定。第四纪研究25：883-891。
25. 赖忠平，周杰，夏应菲，张景昭，陈骏。2001。南京下蜀黄土红外释光测年。自然科学进展11：203-207。
26. 赖忠平，周杰，夏应菲，张景昭，陈骏。2001。南京下蜀黄土红外释光地层年代学。中国沙漠21：116-121
27. 赖忠平，张景昭，卢演俦。2001。中国沙漠黄土边界带湖相沉积红外释光测年。海洋地质与第四纪地质21：75-80。
28. 赖忠平，苗晓东，周杰，张景昭。2001。沙漠黄土边界带风成沙再生法单片技术等效剂量分布。核技术24：。
29. 赖忠平，周杰，卢演俦，西格威。2000。风成沉积红外释光与绿光释光测年比较。海洋地质与第四纪地质20：57-61。
30. 赖忠平，张景昭，卢演俦。1999。红外释光测年中黄土样品预热条件的确定。核技术22：612-615。
31. 赖忠平，周杰，卢演俦，西格威。1999。风称沉积单片技术释光测年。中国沙漠19：403-406。
32. 赖忠平，周杰，卢演俦，西格威。1999。绿光释光测年中基于单片技术的再生/附加法。地质力学学报5：89-93。
李力，孙友斌，鹿化煜，赖忠平，安芷生。1998。末次冰期黄土高原粉尘事件与大西洋冷事件对比。科学通报43：90-93。
张景昭， 赖忠平。1997。黄土样品红外释光测年晒退实验。核技术20：485-488。