兰州大学资源环境学院

姓名:夏敦胜

职称: 教授  博士生导师 

性别:男

毕业院校:英国利物浦大学

学历:研究生

学位:博士

在职信息:在职

所在单位:新生代沉积与环境研究所

入职时间:2008

办公地点:祁连堂514

电子邮箱:dsxia@lzu.edu.cn

学习经历

1995 兰州大学地理系基地班,学士;
1998 兰州大学地理系,硕士;
2003 英国利物浦大学地理系,博士;
2006 中国科学院寒区旱区环境与工程研究所, 博士后。

研究方向

1)环境磁学
2)黄土与环境变化
3)粉尘与环境污染

欢迎自然地理、大气、地质和环境等相关专业的学生报考或联系推免攻读研究生。已毕业硕士24名, 博士8名;在读硕士研究生6名,博士生5名

工作经历

2003-2010:中国科学院寒区旱区环境与工程研究所,副研究员、研究员;
2008-今:兰州大学资源环境学院,教授、博导。

主讲课程

本科生课程:自然地理学、世界地理、国土安全与地缘政治
研究生课程:环境磁学、自然地理科学研究前沿

学术兼职

中国地理学会会员
中国第四纪研究学会及干旱区环境专业学会会员

研究成果

主要应用环境磁学方法从事粉尘沉积研究,研究材料涉及大气降尘、表土、黄土、湖泊岩芯及泥炭等粉尘载体,研究领域涵盖干旱区环境演变和城市粉尘污染等,主要成果包括:1)黄土高原地区黄土记录的季风边沿区全新世气候与环境变化;2)新疆地区典型黄土磁学特征及中亚干旱区环境演变;3)中亚地区表土磁学特征及其环境意义,着重探讨了表土环境磁学参数与降水量的关系;4)中国北方城市街道尘埃及大气降尘磁学特征及其对城市污染的启示。

获得荣誉

2008年甘肃省自然科学奖(3等)
2009年教育部新世纪优秀人才

在研项目

1.	国家自然科学基金(41877444),2019-2022,新疆黄土记录的末次间冰期以来中亚干旱区环境变化过程与机制,负责人;
2.	科技部基础专项调查(2017FY101003)),2017-2021,中国沙漠及其毗邻地区人类活动遗迹调查,参加;
3.	国家自然科学基金重点项目(41130102),2012.1-2016.12,中国西北干旱区末次冰期/间冰期气候环境变化的模式和机制,参加;
4.	国家重点基础研究发展计划项目(2010CB950202),2010-2015末次盛冰期以来我国气候环境变化及干旱-半干旱区人类的影响与适应,参加;
5.	中央高校基本科研业务费专项资金,2013--2014年,兰州白银区域大气污染治理研究,负责人;
6.	国家自然科学基金(41071125),2011-2013,中国北方地区大气降尘磁学特征时空变化研究,负责人;
7.	教育部博士点科研基金(博导类),2010-2013,中国西风区全新世环境变化黄土磁学性质记录(20100211110001),负责人;
8.	国家重点基础研究发展计划项目(2010CB950202),2010-2015末次盛冰期以来我国气候环境变化及干旱-半干旱区人类的影响与适应,主要参加人员;
9.	国家自然科学基金(40871090),2009-2011,中国西风区粉尘/黄土磁学特征及其气候记录—以天山黄土为例,负责人;
10.	科技部国家基础项目(2009CB421408),2009-2013,干旱区绿洲化、荒漠化过程及其对人类活动、气候变化的响应与调控,主要参加人员;
11.	国家自然科学基金,2006-2008,城市颗粒污染物磁学特性研究-以兰州市大气降尘和街道尘埃为例,执行人;
12.	国家自然科学基金重点基金(90502008),2006-2010,中国西部干旱半干旱区全新世气候变化的集成研究,参加;
13.	国家自然科学基金,2005-2007,西北地区粉尘/表土环境磁学特征及其代用指标研究,负责人;
14.	国家自然科学基金,2005-2007,阿拉善高原-黄土高原全新世重大干旱事件(侧重释光年代),参加;

发表论文

在国内外学术刊物上发表论文近200篇,其中SCI论文60余篇

1.	Xia DS, Wang B, Yu Y, Jia J, Nie Y, Wang X, Xu SJ, 2014. Combination of magnetic parameters and heavy metals to discriminate soil-contamination sources in Yinchuan - A typical oasis city of Northwestern China. Science of the Total Environment, 485: 83-92.
2.	Xia DS, Jia J, Zhao S, Wei HT, Chen FH, 2014. Out-of-phase evolution between summer and winter East Asian monsoons during the Holocene as recorded by Chinese loess deposits. Quaternary Research, 81(3): 500-507.
3.	Xia DS, Jia J, Wei HT, Liu XB, Ma JY, Wang XM, Chen FH, 2012. Magnetic properties of surface soils in the Chinese Loess Plateau and the adjacent Gobi areas, and their implication for climatic studies. Journal of Arid Environments 78: 73-79.
4.	Xia DS, Yu Y, Tian SL, Wang B, Wang L, 2011. Use of environmental magnetic techniques to monitor urban pollution origins in Lanzhou, Northwest China. Environ Earth Sci.,64:1943-1949.
5.	Xia DS, Chen FH, Bloemendal J, Liu XM, Yu Y, Yang LP, 2008, Magnetic properties of urban dustfall in Lanzhou, China, and its environmental implications. Atmospheric Environment, 42(9): 2198-2207.
6.	Xia DS, Chun X, Bloemendal J, Chiverrell RC and Chen FH, 2007. Use of magnetic signatures to correlate tephra layers in Holocene loessial soil profiles from a small region, SE Iceland. Environment Geology, 51(8): 1425-1437.
7.	Xia DS, Yang LP, MA JY, Yu Y, Wang G, Chen FH, 2007. Magnetic property of Lanzhou dustfall and its implication in urban pollution. Science in China(D), 50(11): 1724-1732.
8.	Xia DS, Jin M, Liu XM, Chen FH, Ma JY, Zhao H, Wang XM and WEI HT, 2007. A preliminary study on the magnetic signatures of modern soil in Central Asia. Frontiers of Earth Sciences in China, 1(3): 275-283.
9.	Xia DS, Bloemendal J, Chiverrell RC, Dearing JA, Jin M, 2004. Use of environmental magnetic measurements to characterize and correlate tephra-a case study in Iceland. Chinese Science Bulletin, 49(3): 286-294.
10.	Lu H, Yin QZ, Jia J, Xia DS, et al., Possible link of an exceptionally strong East Asian summer monsoon to a La Nina-like condition during the interglacial MIS-13, Quaternary Science Reviews 227 (2020) 106048.
11.	Li GH, Xia DS, Erwin Appel E, et al., Characteristics of a relative paleointensity record from loess deposits in arid central Asia and chronological implications, Quaternary Geochronology 55 (2020) 101034.
12.	Chen H, Wang B, Xia DS, et al.,2019, The influence of roadside trees on the diffusion of road traffic pollutants and their magnetic characteristics in a typical semi-arid urban area of Northwest China, Environmental Pollution,252:1170-1179.
13.	Chen H, Wang B, Xia DS, et al., 2019, Magnetic characteristics of Juniperus formosana needles along an urban street in Lanzhou, Northwest China: the variation of different season and orientation, Environmental Science and Pollution Research 26:21964–21971.
14.	Gao FY, Jia J, Xia DS, et al., 2019, Assessment of the dominant climatic factor affecting pedogenic development in eolian sequences during the Holocene in arid central Asia, Quaternary International 502: 78–84.
15.	Wang LB, Jia J, Xia DS, et al., 2019, Climate change in arid central Asia since MIS 2 revealed from a loess sequence in Yili Basin, Xinjiang, China, Quaternary International 502: 258-266.
16.	Li GH, Xia DS, Erwin Appel E, et al., 2018, paleomagnetic record in loess– paleosol sequences since late Pleistocene in the arid Central Asia. Earth Planets and Space, 70(44): 1-13. 
17.	Jia J, Gao FY, Xia DS, Huang W, Chen FH, 2018. Moisture variations in arid central Asia and its out-of-phase relationship with Asian Monsoon during MIS 5: evidence from loess record. Journal of Quaternary Science, 33: 435-443.
18.	Jia J, Lu H, Wang, YJ, Xia DS, 2018. Variations in the iron mineralogy of a loess section in Tajikistan during the mid- and late Pleistocene: implications for the climatic evolution in central Asia. Geochemistry, Geophysics, Geosystems, 19: 1244-1258.
19.	Lu, H., Jia, J., Wang, Y.J., Yin, Q.Z., Xia, D.S., 2018. The cause of extremely high magnetic susceptibility of the S5S1 paleosol in the central Chinese Loess Plateau. Quat. Int. 493, 252-257.
20.	Chen FH, Jia J, Chen JH, Li GQ, Zhang XJ, Xie HC, Xia DS, Huang W, An CB, 2016. A persistent Holocene wetting trend in arid central Asia, with wettest conditions in the late Holocene, revealed by multi-proxy analyses of loess-paleosol sequences in Xinjiang, China, Quaternary Science Reviews, 146: 134-146.
21.	Jia J, Xia DS, Wang YJ, Wang B, Lu H, Zhao S, 2016. East Asian monsoon evolution during the Eemian, as recorded in the western Chinese Loess Plateau. Quaternary International, 399: 156-164.
22.	Li GH, Xia DS, Jin M, Jia J, Liu JB, Zhao S & Wen YL, 2015. Magnetic characteristics of loess-paleosol sequences in Tacheng, northwestern China and their paleoenvironmental implications. Quaternary International, 372: 87-96.
23.	Li GQ, Wen LJ, Xia DS, Duan YW, Rao ZG, Madsen DB, Wei HT, Li FL, Jia J and Chen FH, 2015, Quartz OSL and K-feldspar pIRIR dating of a loess/paleosol sequence from arid central Asia, Tianshan Mountains, NW China. Quaternary Geochronology, 28: 40-53.
24.	Wang B, Xia DS, Yu Y, Jia J, Xu SJ, 2014. Magnetic properties of urban soils from typical oasis cities and their environmental implications. Chinese Journal of Geophysics-Chinese Edition, 57(3): 891-905.
25.	Wang B, Xia DS, Yu Y, Jia J, Xu SJ, 2014. Detection and differentiation of pollution in urban surface soils using magnetic properties in arid and semi-arid regions of northwestern China. Environmental Pollution, 184(SI): 335-346.
26.	Wang B, Xia DS, Yu Y, Jia J, Xu SJ, 2013. Magnetic properties of river sediments and their relationship with heavy metals and organic matter in the urban area in Lanzhou, China. Environmental Earth Sciences, 70: 605-614.
27.	Wang B, Xia DS, Yu Y, Jia J, Xu SJ, 2013. Magnetic records of heavy metal pollution in urban topsoil in Lanzhou, China. Chin. Sci. Bull., 2012, 57, doi: 10.1007/s11434-012-5404-8.
28.	Jia J, Xia DS, Wang B, et al., 2013. The investigation of magnetic susceptibility variation mechanism of Tien Mountain modern loess: pedogenic or wind intensity model? Quaternary International. 296: 141-148.
29.	Rao ZG, Xu Yb, Xia DS, Xie Lh, Chen FH, 2013. Variation and paleoclimatic significance of organic carbon isotopes of Ili loess in arid Central Asia. Organic Geochemistry, 63: 56-63.
30.	Jia J, Xia DS, Wang B, Wei HT and Liu XB, 2012, Magnetic investigation of Late Quaternary loess deposition, Ili area, China. Quaternary International, 250: 84-92.
31.	Wang XM, Xia DS, Zhang CX, Lang LL, Hua T, Zhao S, 2012. Geochemical and magnetic characteristics of fine-grained surface sediments in potential dust source areas: Implications for tracing the provenance of aeolian deposits and associated palaeoclimatic change in East Asia. Palaeogeography Palaeoclimatology Palaeoecology, 323: 123-132.
32.	Wang G, Oldfield F, Xia DS, Chen FH, Liu XM, Zhang WG, 2012. Magnetic properties and correlation with heavy metals in urban street dust: A case study from the city of Lanzhou, China. Atmospheric Environment, 46: 289-298.
33.	Jia J, Liu XB, Xia DS, et al. 2011. Magnetic property of loess strata recorded by Kansu profile in Tianshan Mountains. Journal of Arid Land, 3(3): 191-198. 
34.	Yu Y, Zhao SP, Xia DS, He JJ, Liu N, Chen JB, 2011. Characteristics of aerosol particle size distributions in urban Lanzhou, north-western China. WIT Transactions on Ecology and the Environment, 147:307-318.
35.	Liu JB, Chen FH, Chen JH, Xia DS et al., 2011. Humid Medieval Warm Period recorded by magnetic characteristics of sediments from Gonghai Lake, Shanxi, North China. Chinese Science Bulletin, 56(23): 2464-2474.
36.	Jia J, Xia DS, Wei H T, Wang B, Liu X B, 2010. A magnetic investigation of a loess/paleosol sequences record in Ili area. Frontiers of Earth Sciences in China, 4(3): 259-268.
37.	Wang XM, Chen FH, Zhang JW, Yang L, Li JJ, Hasi E, Zhang CX, Xia DS, 2010. Climate, Desertification, and the Rise and Collapse of China’s Historical Dynasties. Hum Ecol., 38: 157-172.
38.	Wei HT, Xia DS, Chen FH, Jin M, Wang HB, Jia J, 2009. Magnetic characteristics of topsoil from Xinjiang, Northwestern China and its significance. Frontiers of Earth Science in China, 3(3): 259-265.
39.	Ma JY, Sun W, Zhang HW, Xia DS, An CB, Chen FH, 2009. Stable carbon isotope characteristics of different plant species and surface soil in arid regions. Frontiers of Earth Science in China, 3:107-111.
40.	Wu GJ, Yao TD, Tian LD, Zhang CL, Gao SP, Xia DS, 2009. Element composition of dust from a shallow Dunde ice core, Northern China. Global and Planetary Change, 67: 186-192.
41.	Wang XM, Xia DS, Wang T, Xue X, Li JC, 2008. Dust sources in arid and semiarid China and southern Mongolia: impacts of geomorphological setting and surface materials. Geomorphology, 97: 583-600.
42.	Wang G, Xia DS, Liu XM, Chen FH, Yu Y, Yang LP, Chen JH, Zhou AF, 2008. Spatial and temporal variation in magnetic properties of street dust in an industrial city of Northwest China, Chinese Science Bulletin, 53(12): 1913-1923.
43.	Wang XM, Li JJ, Dong GR, Xia DS, 2008. Responses of desertification to wind activity variations over the past five decades in arid and semiarid China. Chinese Science Bulletin, 53(3): 426-433.
44.	Liu XM, Liu TS, Chlachula J, Xia DS, Hesse P, Wang G, 2008. Two pedogenic models for paleoclimatic records of magnetic susceptibility from Chinese and Siberian loess. Science in China(D), 50(12): 284-293.
45.	Chun X, Chen FH, Fan YX, Xia DS, Zhao H, 2008. Formation f Ulan Buh desert and its environmental changes during the Holocene. Frontiers of Earth Science in China, 2(3):327-332.
46.	Ma JY, Chen K, Xia DS, Wang G, Chen FH, 2007. Variation in foliar stable carbon isotope among populations of a desert plant, Reaumuria soongorica (Pall.) Maxim. in different environments. Journal of Arid Environments, 69(3): 365-374.
47.	Ma JY, Chen FH, Zhang HW, Xia DS, 2007. Spatial distribution characteristics of stable carbon isotope compositions in desert plant Reaumuria soongorica (Pall.) Maxim. Frontiers of Earth Sciences in China. 1(2): 150-156.
48.	Zhao H, Chen FH, Li SH, Wintle AG, Fan YX, Xia DS, 2007. A record of Holocene climate change in the Guanzhong Basin, China, based on optical dating of a loess-palaeosol sequence. The Holocene, 17(7): 1015-1022.
49.	Wu GJ, Pan BT, Guan QY, Gao HS, Xia DS, 2006. Climatic signals in the Chinese loess record for the Last Glacial: The influence of northern high latitudes and the tropical Pacific. Quaternary International, 154-155: 128-135.
50.	Wu GJ, Pan BT, Guan QY, Xia DS, 2005. Terminations and their correlation with solar insolation in the Northern Hemisphere: a record from a loess section in Northwest China. Palaeogeography, Palaeoclimatology, Palaeoecology, 216: 267-277.
51.	Wang XM, Chen FH, Dong ZB, Xia DS, 2005. Evolution of the southern Mu Us desert in north China over the past 50 years: an analysis using proxies of human activity and climate parameters. Land Degradation & Development 16: 351–366.
52.	Wang T, Yang B, Braeuning A, Xia DS, 2004. Decadal-scale precipitation variations in arid and semiarid zones of northern China during the last 500 years. Chinese Science Bulletin, 49(8): 842-848.
53.	41. Wang JM, Shi Q, Chen FH, Xia DS, 1999. Rapid oscillations of Chinese monsoon climate since the last deglaciation and its comparison with GISP2 record. Chinese Science Bulletin, 44(3): 284-286.
54.	夏敦胜,王博,许淑精,张英,赵爽,刘宇航,李冠华,张俊辉,贾佳,魏海涛,2013.乌鲁木齐城市表土重金属污染的环境磁学记录,兰州大学学报(自),49(2):173-181.
55.	夏敦胜,陈发虎,马剑英,金明,王训明,贾佳,魏海涛,刘现彬,2010.新疆伊犁地区典型黄土磁学特征及其环境意义初探.第四纪研究,30(5):902-911.
56.	夏敦胜,余晔,马剑英,王冠,杨丽萍,金明,陈发虎,2007.兰州市街道尘埃环境磁学特征及其环境意义,环境科学,28(5):937-944.
57.	夏敦胜,杨丽萍,马剑英,余晔,王冠,陈发虎,2007,中国北方城市大气降尘磁学特征及其环境意义.中国科学(D),37(8):1073-1080.
58.	夏敦胜,王冠,马剑英,杨丽萍,刘玉璋,陈发虎,2007.兰州市大气降尘环境磁学特征研究,中国沙漠,27(5):859-865.
59.	夏敦胜,陈发虎,马剑英,刘秀铭,张卫国,王训明,魏海涛,2007.黄土高原-阿拉善高原典型断面表土磁学特征及环境意义,第四纪研究,28(6):1001-1008.
60.	夏敦胜,余晔,马剑英,刘秀铭,陈发虎,2007.大气降尘磁学特征对城市污染源的指示.干旱区资源与环境,21(12):110-115.
61.	夏敦胜,马剑英,王冠,金明,杨丽萍,陈发虎,2006.环境磁学及其在西北干旱区环境研究中的问题.地学前缘,13(3):168-179.
62.	夏敦胜,魏海涛,马剑英,王训明,张家武,赵晖,2006.中亚地区现代表土磁学特征及其环境意义.第四纪研究,26(6):937-946.
63.	夏敦胜,Bloemendal J,Chiverrell RC,Dearing J,金明,2004.火山灰地层磁学特征与地层对比探讨-以冰岛为例.科学通报,49(3):279-286.
64.	夏敦胜,马玉贞,陈发虎,王建民,1998.甘肃大地湾剖面全新世植被演替与气候变化.兰州大学学报(自),34(1):119-127.
65.	王博,夏敦胜,余晔等.2014.典型沙漠绿洲城市表土磁性特征及环境指示意义.地球物理学报,57(3):doi: 10.6038/cjg.20140301.
66.	许淑婧,夏敦胜,春喜,王博,张英,2014.呼和浩特市大气降尘磁学特征及其环境意义.中国环境科学34(4):1004-1011.
67.	赵瑞瑞,赵爽,温仰磊,柳加波,贾佳,夏敦胜,2014.X射线光电子能谱在环境磁学中的应用.第四纪研究,34(6):1336-1337.
68.	贾佳,王友郡,夏敦胜,温仰磊,柳加波,2014.黄土沉积物中次生细粒强磁性矿物记录的古气候息.地球环境学报,5(2):49-55.
69.	温仰磊,王友郡,柳加波,赵 爽,李冠华,贾佳,夏敦胜,2014.准噶尔盆地南缘黄土磁化率变化规律及影响因素,地球环境学报,5(2):85-92.
70.	柳加波,温仰磊,赵 爽,李冠华,贾 佳,魏海涛,夏敦胜,2014.昆仑山北坡黄土粒度特征与环境意义初探,地球环境学报,5(2):76-84.
71.	王博,夏敦胜,贾佳,余晔,许淑婧,2013.中国西北地区典型钢铁工业城市表土重金属污染的环境磁学响应.吉林大学学报(地),43(3):962-973.
72.	王博,许淑婧,夏敦胜,贾佳,赵爽,2013.塔里木盆地现代天然降尘磁性特征时空对比研究.中国沙漠,33(3):840-849.
73.	田世丽,夏敦胜,余晔,王博,许淑婧,2013.北京市大兴区大气降尘环境磁学特征及其环境意义.中国沙漠,33(3):832-839.
74.	赵爽,夏敦胜,靳鹤龄,李冠华,2013,科尔沁沙地风沙沉积物磁学特征及其古环境意义初探.中国沙漠,33(2):334-342.
75.	张英,夏敦胜,许淑婧,赵瑞瑞,张俊辉,金明,2013.新疆博斯腾湖湖滨沉积物的磁学特征及其环境意义.海洋地质与第四纪地质,33(4):93-102.
76.	张俊辉,夏敦胜,张英,刘宇航,2013.干旱区高山泥炭磁学特性研究.地球物理学报,56(6):1974-1984.
77.	张俊辉,夏敦胜,张英,刘宇航,2013.阿勒泰地区表土磁学特性及变化机制研究.第四纪研究,33(5):889-909.
78.	李冠华,夏敦胜,温仰磊,柳加波,赵爽,贾佳,2013.天山北麓典型黄土沉积序列的词学特征及主控因子初探.第四纪研究,33(5):900-910.
79.	李冠华,夏敦胜,柳加波,温仰磊,赵爽,贾佳,2013.新疆塔城黄土沉积常量地球化学元素特征及其环境意义.海洋地质与第四纪地质,33(4):183-192.
80.	魏海涛,Banerjee S,夏敦胜,Jackson M,贾佳,陈发虎,2013.天山北麓黄土环境磁学特征及其古气候意义.地球物理学报,56(1):150-158.
81.	金明,刘现彬,温仰磊,柳加波,李冠华,贾佳,夏敦胜,2013.天山北麓典型黄土磁学特征及其控制因素研究.海洋地质与第四纪地质,33(4):175-182.
82.	许淑婧,张英,余晔,王博,夏敦胜,2013.西北干旱区黄河沿岸典型工业带表土磁性特征及其环境意义.环境科学,34(9):3578-3586.
83.	李冠华,夏敦胜,赵爽,刘现彬,贾佳,魏海涛,2012.新疆塔城地区黄土沉积的磁学特征及其对古环境变化的指示.中国沙漠,32:1565-1575.
84.	王博,夏敦胜,余晔,贾佳,许淑婧,2012.兰州城市表层土壤重金属污染的环境磁学记录.科学通报,3078-3089.
85.	王博,夏敦胜,余晔,田世丽,贾佳,2012.兰州市城区河道表层沉积物地球化学元素分布特征.中国沙漠,168-174.
86.	刘宇航,夏敦胜,金明,张俊辉,2012.阿拉善地区湖泊岩芯磁性特征记录的全新世环境变化.中国沙漠,32(4):929-938.
87.	张俊辉,夏敦胜,张英,张健,许淑请,刘宇航,2012.干旱区泥炭样品加热过程中磁学特征的变化研究.干旱区地理,35(6):938-945.
88.	张俊辉,夏敦胜,张英,刘宇航,2012.中国泥炭记录末次冰消期以来古气候研究进展.地球科学进展,27(1):42-51.
89.	贾佳,夏敦胜,王博,李冠华,赵爽,刘现彬,2012.黄土高原与伊犁黄土磁学特征对比及启示.第四纪研究,32(4):749-760.
90.	刘现彬,夏敦胜,贾佳,赵爽,李冠华,于英鹏,2012.兰州九州台黄土磁性特征及其古气候意义研究.第四纪研究,32(4):761-770.
91.	刘宇航,夏敦胜,周爱锋,张俊辉,赵家驹,张英,2012.乌伦古湖全新世气候变化的环境磁学记录.第四纪研究,32(4):803-811.
92.	贾佳,夏敦胜等,2011.阿西克剖面记录的西天山地区黄土磁学性质及古气候意义初探.中国沙漠,31(6):1406-1415.
93.	贾佳,刘现彬,夏敦胜等,2011.坎苏剖面记录的西天山地区黄土磁学性质及其控制因素初探.干旱区地理,34(1):124-1324.
94.	田世丽,夏敦胜等,2011.西北地区河谷城市大气降尘环境磁学特征及其环境意义.环境科学,32(9):2761-2768.
95.	王博,赵爽,夏敦胜等,2011.兰州市城区河道表层沉积物重金属污染及磁学参数相关关系研究.环境科学,32(5):1430-1440.
96.	王博,夏敦胜等,2011.环境磁学在监测城市河流沉积物污染中的应用.环境科学学报,32(5):1430-1440.
97.	刘建宝,陈发虎,陈建徽,许清海,夏敦胜等,2011.山西宁武公海湖泊岩芯的环境磁学特征及中世纪暖期湿润气候探讨.科学通报,56(31):2580-2590.
98.	魏海涛,夏敦胜,陈发虎,金明,王训明,贾佳,刘现彬,2009.新疆表土磁学性质及其环境意义.干旱区地理,32(5):676-683.
99.	贾佳,夏敦胜,魏海涛,刘现彬,毛学刚,2010.黄土高原西部典型古土壤与黄土的磁学特征及其古气候意义.兰州大学学报(自然科学版),46(6):26-31.
100.	贾佳,夏敦胜,金明,王训明,魏海涛,刘现彬,2010.渭河流域典型黄土剖面的环境磁学特征及其古气候意义.冰川冻土,32(1):91-97.
101.	余晔,夏敦胜,陈雷华,刘娜,陈晋北,高艳红,2010.兰州市PM_(10)污染变化特征及其成因分析.环境科学,31(1):22-28.
102.	王博,夏敦胜,余晔,王丽,田世丽,2010.兰州市城区河道表层沉积物磁性特征研究.环境科学,31(8):1740-1748.
103.	王博,夏敦胜,余晔,贾佳,田世丽,2010.城市降尘磁学特征及其环境意义.兰州大学学报(自),46(6):11-17.
104.	王丽,夏敦胜,余晔,田世丽,王博.2010.北疆地区城市大气降尘磁学特征及其环境磁学意义.中国沙漠,30(3):699-705.
105.	魏海涛,夏敦胜,陈发虎,金明,王训明,贾佳,刘现彬,2009.新疆表土磁学性质及其环境意义.干旱区地理,3(25):676-683;
106.	贾佳,夏敦胜,魏海涛,刘秀铭,汪海斌,金明,2009.耀县黄土剖面记录的全新世冬夏季风异步演化.第四纪研究,29(5):966-975.
107.	春喜,陈发虎,范育新,夏敦胜,赵辉,2009.乌兰布和沙漠腹地古湖存在的沙嘴证据及环境意义.地理学报,64:339-348.
108.	春喜,陈发虎,范育新,夏敦胜,赵辉,2008.MIS3阶段吉兰泰古湖演化的初步研究.干旱区资源与环境,22:56-61.
109.	王冠,夏敦胜,杨丽萍,刘秀铭,陈发虎,2008.兰州市街道尘埃的元素空间变化特征.干旱区资源与环境,22(6):13-20.
110.	王冠,夏敦胜,陈发虎,刘秀铭,杨丽萍,2008.兰州市街道尘埃粒度分布特征及其意义.环境科学与管理,33(3):67-72.
111.	王冠,夏敦胜,刘秀铭, 陈发虎,余晔,杨丽萍,陈建辉,周爱峰,2008.西北典型工业城市街道尘埃磁学特征时空变化规律.科学通报,53(4):446-455.
112.	王冠,夏敦胜,杨丽萍,刘秀铭,陈发虎,魏海涛,2008.兰州市街道尘埃的元素季节变化特征研究.兰州大学学报,44(1):6-10.
113.	魏海涛,夏敦胜,陈发虎,马剑英,王冠,2008.黄土高原及相邻地区表土磁化率与降水量的关系.冰川冻土,30(3):433-439.
114.	马剑英,陈发虎,夏敦胜,王刚,2008.荒漠植物红砂不同自然种群叶片养分特征与环境养分关系的研究.生态学报,28(3): 983-992.
115.	马剑英,方向文,夏敦胜,陈发虎,王刚,2008.荒漠植物红砂叶片元素含量与气候因子的关系.植物生态学报,32(4):848-857.
116.	马剑英,陈发虎,夏敦胜,孙惠玲,段争虎,王刚, 2008.荒漠植物红砂叶片稳定碳同位素组成与生理指标之间的关系研究.应用生态学报,19(5):1166-1171.
117.	春喜,王宗礼,夏敦胜,赵晖, 2008.吉兰泰盐湖的形成及指示的环境意义.盐湖研究,16(3):11-19.
118.	刘秀铭,夏敦胜,刘东生,丁仲礼,陈发虎,Begét JE,2007.中国黄土和阿拉斯加黄土磁化率气候记录的两种模式探讨.第四纪研究,27(2):210-220.
119.	杨丽萍,夏敦胜,陈发虎,2007.Landsat7 ETM+全色与多光谱数据融合算法的比较.兰州大学学报,43(4):7-11.
120.	王冠,夏敦胜,陈发虎,杨丽萍,赵艳,2007.街道尘埃烧失量研究的温度选择.兰州大学学报(自然科学),43(专):165-168.
121.	马剑英,陈发虎,夏敦胜,张惠文,2007.塔里木盆地荒漠植物与表土碳同位素组成研究.冰川冻土,29(1):144-148.

扫一扫
关注公众号