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张卫国

河口海岸学国家重点实验室副主任

河口海岸科学研究院      

个人资料

  • 部门: 河口海岸科学研究院
  • 毕业院校:
  • 学位:
  • 学历:
  • 邮编:
  • 联系电话: 62233406
  • 传真: 62546441
  • 电子邮箱: wgzhang@sklec.ecnu.edu.cn
  • 办公地址:
  • 通讯地址:

教育经历

工作经历

个人简介

社会兼职


Future Earth Coasts 科学指导委员会委员

Estuarine, Coastal and Shelf Science 编委

地理科学进展 编委

Current Pollution Reports 编委


中国地理学会海洋地理专业委员会委员

中国地理学会环境变化专业委员会委员


中国第四纪研究委员会全新世专业委员会委员

中国第四纪研究委员会应用第四纪专业委员会委员



研究方向

自然地理学、环境磁学、沉积物来源判别和追踪、古环境变化、环境污染、海岸带的陆海相互作用


开授课程

科研项目

学术成果

获奖和荣誉
 
2001年‚ 上海市科委青年科技启明星称号
2003年‚ 中国地理学会青年地理科技奖
2003年‚ 全国优秀博士学位论文提名奖
2003年‚ 上海市高校优秀青年教师后备人才
2004年‚ 上海市科委青年科技启明星计划跟踪资助
2004年‚  教育部提名国家科技奖自然科学奖一等奖(排名第二)
2004年‚ 上海市科技进步二等奖(排名第二)
2004年‚  教育部创新团队骨干成员
2007年‚  国家自然基金委创新群体成员

2008年‚  教育部新世纪优秀人才

2014年, 上海市自然科学一等奖(排名第三)

 

 


发表论著(*为通讯作者,第一作者为指导的学生):

2016

1. Hien, N. T. T., Zhang, W.G.*, Li, Z., Li, J., Ge, C., Liu, J.Y., Bai, X.X., Feng, H., Yu, L.Z. Magnetic properties of sediments of the Red River: Effect of sorting on the source to sink pathway and its implications for environmental reconstruction.Geochemistry, Geophysics, Geosystems, 2016, 17, 270–281, doi:10.1002/2015GC00608

2. Lu, H., Xu, Y., Niu, Y., Wang, Z., Wang, H., Zhao, J., Zhang, W.G., Zheng, X.M. Late Quaternary loess deposition in the southern Chaiwopu Basin of the northern Chinese Tian Shan foreland and its palaeoclimatic implications. Boreas, 2016, 45, 304-321, doi:10.1111/bor.12152.

3. Sha, L., Jiang, H., Seidenkrantz, M. S., Muscheler, R., Zhang, X., Knudsen, M. F., Olsen, J., Knudsen, J. L., Zhang, W.G. Solar forcing as an important trigger for West Greenland sea-ice variability over the last millennium.Quaternary Science Reviews,2016, 131(A), 148-156.

4. Feng, H., Qian, Y., Gallagher, F. J., Zhang, W., Yu, L., Liu, C., Jones, K. W., Tappero, R. Synchrotron micro-scale measurement of metal distributions in Phragmites australis and Typha latifolia root tissue from an urban brownfield site. Journal of Environmental Science, 2016, 41, 172-182.

5. Wang, X., Lu, H., Zhang, W., Hu, P., Zhang, H., Han, Z., Wang, S., Li, B. Rock magnetic investigation of loess deposits in the Eastern Qingling Mountains (central China) and its implications for the environment of early humans.Geophysical Journal International, 2016, 27(2), 889-900, doi:10.1093/gji/ggw243.

6. Wang, Y., Liu, X., Li, G., Zhang, W. Stratigraphic variations in the Diaokou lobe area of the Yellow River delta, China: implications for an evolutionary model of a delta lobe.In: Clift, P.D., Harff, J., Wu, J., Qui, Y. (eds), River-Dominated Shelf Sediments of East Asian Seas. Geological Society, London, Special Publications, 2016, 429, 185-195.

7. Nguyen, T. T.H., Zhang, W.G., Li, Z., Li, J., Ge, C., Liu, J.Y., Bai, X.X., Feng, H., Yu, L.Z. Assessment of heavy metal pollution in Red River surface sediments, Vietnam, Marine Pollution Bulletin, 2016, doi:10.1016/j.marpolbul.2016.08.030.

8.李文,胡忠行,吉茹,Nguyen Thi Thu Hien, 刘晋嫣,白雪莘,葛灿,张曼,张卫国.金华市义乌江沉积物磁性特征与重金属污染,环境科学学报2016, 36(1)74-83.

9. 刘晋嫣,张卫国*,董艳,葛灿,白雪莘,Nguyen Thi Thu Hien,陈满荣.2016.长江口潮滩芦苇根表铁膜磁性特征及其环境意义.环境科学学报,36(9),3354-3362.


 

2015

1. Liu, Y., Sun, Q.L., Thomas, I., Zhang, L., Finlayson, B., Zhang, W. G., Chen, J., Chen, Z.Y. Middle Holocene coastal environment and the rise of the Liangzhu City complex on the Yangtze delta, China. Quaternary Research, 2015, 84(3), 326-334.

2. Ge, C.,  Zhang, W. G., Dong, C.Y., Dong, Y., Bai, X.X., Liu, J.Y., Hien, N. T. T., Feng, H., Yu, L.Z., Magnetic mineral diagenesis in the river-dominated inner shelf of the East China Sea, China, Journal of Geophysical Research: Solid Earth, 2015, 120, 4720-4733, doi: 10.1002/2015JB011952.

3. Feng, H., Zhang, W., Liu, W., Yu, L., Qian, Y., Wang, J., Wang, J-J., Eng, C., Liu, C., Jones, K.W., Tappero, R., Synchrotron micro-scale study of trace metal transport and distribution in Spartina alterniflora root system in Yangtze River intertidal zone, Environmental Science and Pollution Research, 2015, DOI:10.1007/s11356-015-5068-4.

4. Mitchell, S. B., Jennerjahn, T.C., Vizzini, S., Zhang, W., Changes to processes in estuaries and coastal waters due to intense multiple pressures – An introduction and synthesis,Estuarine, Coastal and Shelf Science, 2015, 156, 1-6.

5. Zhang, K., Dearing, J.A., Dawson, T.P., Dong, X., Yang, X.D., Zhang, W.G. Poverty alleviation strategies in eastern China lead to critical ecological dynamics, Science of the Total Environment, 2015, 506-507, 164-181.  

 

2014

 

1. Dong, C., *Zhang, W., He, Q., Dong, Y., Yu, L. Magnetic fingerprinting of hydrodynamic variations and channel erosion across the turbidity maximum zone of the Yangtze Estuary, China. Geomorphology, 2014, 226, 300-311.

 

2. Wang Yonghong, Weiguo Zhang, Xiujin Liu, Guanxue Li, Meng Liu, Formation of Greigite under different climate conditions in the Huanghe Delta. Science China: Earth Sciences, 2014doi: 10.1007/s11430-014-4981-6.

3. Dong, Y., *Zhang, W., Dong, C., Ge, C., Yu, L. Magnetic and diffuse reflectance spectroscopic characterization of iron oxides in the tidal flat sequence from the coastal plain of Jiangsu Province, China. Geophysical Journal International, 2014, 196(1), 175-188.

4. Dong, C., *Zhang, W., Ma, H., Feng, H., Lu, H., Dong, Y., Yu, L. A magnetic record of heavy metal pollution in the Yangtze River subaqueous delta. Science of the Total Environment, 2014476-477, 368-377.

5. Wang, Y., Li, G., Zhang, W., Dong, P. Sedimentary environment and formation mechanism of the mud deposit in the central South Yellow Sea during the past 40 kyr . Marine Geology, 2014, 347, 123-135.

 

2013

          1. Dong, Y.,* Zhang, W., Dong, C., Ge, C., Yu, L. Magnetic and diffuse reflectance spectroscopic       

               characterization of iron oxides in the tidal flat sequence from the coastal plain of Jiangsu Province, China

               Geophysical Journal International, 2013, doi: 10.1093/gji/ggt399.(通讯作者)

2.  Lu,H., Zhang,W., Li,Y., Dong,C., Zhang,T., Zhou,Z.,Zheng,X.Rock magnetic properties and paleoenvironmental implications of an 8-Ma Late Cenozoic terrigenous succession from the northern Tian Shan foreland basin, northwestern China. Global and Planetary Change, 2013, 111, 43-56.

3.  Zhang, H., Lu, D., Yu, P., Zhang, W., Lu, B., Peter, H., Vetter, W. Biomarker records in penguin droppings and observed changes in penguin communities and their response to the ENSO in the Western Antarctic. Science China Earth Sciences, 55(8), 1238-1247, doi: 10.1007/s11430-012-4439-7.

4.   Gu, Y., Huang, X., Zhang, W., Hong, H., Li, Y. Red Palaeosols development in response to the enhanced East Asia summer monsoon since the Mid-Pleistocene in South China: Evidence derived frommagneticproperties and molecular fossil records. Journal of Earth Science, 2013, 24(3), 382-396.

 

2012

 

1.       Zhang, W., Ma, H. , Ye, L., Dong, C., Yu, L., Feng, H. Magnetic and geochemical evidence of Yellow and  Yangtze River influence on tidal flat deposits in northern Jiangsu Plain, China. Marine Geology, 2012, 319-322, 47-56.

2.       Dearing, J. A., Yang, X., Dong, X., Zhang, E., Chen, X., Langdon, P. G., Zhang, K., Zhang, W. , Dawson, T. P.. Extending the timescale and range of ecosystem services through paleoenvironmental analyses, exemplified in the lower Yangtze basin. Proceedings of the National Academy of Sciences, 2012, 10.1073/pnas.1118263109.

3.       Zhang, W., Dong, C., Ye, L., Ma, H. , Yu, L.. Magnetic properties of coastal loess on the Midao islands, northern China: Implications for provenance and weathering intensity. Palaeogeography Palaeoclimatology Palaeoecology, 2012, 333, 160-167. 

4.       Wang, G., Oldfield, F., Xia, D. S., Chen, F. H., Liu, X. M. , Zhang, W. G. Magnetic properties and correlation with heavy metals in urban street dust: A case study from the city of Lanzhou, China. Atmospheric Environment, 2012, 46, 289-298.

5.       Li, C., Yang, S. Y. , Zhang, W. G. Magnetic properties of sediments from major rivers, aeolian dust, loess soil and desert in China. Journal of Asian Earth Sciences, 2012, 45, 190-200.

 

2011

1.  Zhang‚ W.‚ Jiang‚ H.‚ Dong‚ C.‚ Yan‚ Q.‚ Yu‚ L.‚ Yu‚ Y. Magnetic and geochemical characterization of iron pollution in subway dusts in Shanghai‚ China‚ Geochem. Geophys. Geosyst.‚ 2011‚ 12‚ Q06Z25‚ doi:10.1029/2011GC003524.

2.  Feng‚ H.‚ Jiang‚ H.‚ Gao‚ W.‚ Weinstein‚ M.P.‚ Zhang‚ Q.‚Zhang‚ W.Yu‚ L.‚ Yuan‚ D.‚ Tao‚ J. Metal contamination in sediments of the western Bohai Bay and adjacent estuaries‚ China‚ Journal of Environmental Management‚ 2011‚ 92‚ 1185-1197.

 

 

 2010

 

1.  Liu‚ S.M.Zhang‚ W.G.He‚ Q.‚ Li‚ D.J.‚ Liu‚ H.‚ Yu‚ L.Z.‚ Magnetic properties of East China Sea shelf sediments off the Yangtze Estuary: Influence of provenance and particle size‚ Geomorphology‚ 2010‚ 119(3-4)‚ 212-220.
 2.  Feng‚ H.‚ ZhangW.G.‚ Jia‚ L.‚ Weinstein‚ M. P.‚ Zhang‚ Q.‚ Yuan‚ D.‚ Tao‚ J.‚ Yu L.‚ 2010. Short- and long-term sediment transport in western Bohai Bay and coastal areas. Chin. J. Oceanol. Limn. 28‚ 583-592.
 3.  Zhao‚ M.‚ Tan‚ L.R.‚ Zhang‚ W.G.‚ Li‚ M.H.‚ Liu‚ Y.‚ Yu‚ L.Z.‚ Decomposing the influencing factors of industrial carbon emissions in Shanghai using the LMDI method‚ Energy‚ 2010‚ 35‚ 2505-2510.
 4.  Wang‚ Y.Dong‚ H.Li‚ G.Zhang‚ W.G.Oguchi‚ T.Bao‚ M.Jiang‚ H.Bishop‚ M.E.Magnetic properties of muddy sediments on the northeastern continental shelves of China: Implication for provenance and transportationMarine Geology 2010‚ 274 (1-4)‚ 107-119.
 
2009年以前
1.        ZhangW.G. Yu‚ L.Z.‚ Lu‚ M.‚ Zheng‚ X.M.‚ Ji‚ J.F.‚ Zhou‚ L.M.‚ Wang‚ X.Y.‚ East Asian summer monsoon intensity inferred from iron oxide mineralogy in the Xiashu Loess in southern China. Quaternary Science Reviews‚ 2009‚ 28‚ 345-353.
 
2.        Zhang‚ W.G.Feng‚ H.‚ Chang‚ J.N.‚ Qu‚ J.G.‚ Xie‚ H.X.‚ Yu‚ L.Z. Heavy metal contamination in surface sediments of Yangtze River intertidal zone: an assessment from different indexes . Environmental Pollution ‚ 20091571533-1543.
 
3.        Lai‚ Z.P.‚ Zhang‚ W.G.‚ Chen‚ X.‚ Jia‚ Y.L.‚ Liu‚ X.J.‚ Fan‚ Q.S.‚ Long‚ H.‚ OSL chronology of loess deposits in East China and its implications for East Asian monsoon history. Quaternary Geochronology‚ 2009‚ doi:10.1016/j.quageo.2009.02.006.
 
4.        Hu‚ X.F.‚ Wei‚ J.‚ Xu‚ L.F.‚ Jiang‚ W.‚ Zhang‚ G..L.‚ Zhang‚ W.G.‚ Magnetic susceptibility of the Quaternary Red Clay in subtropical China and its paleoenvironmental implications. Palaeogeography‚ Palaeoclimatology‚ Palaeoecology‚ 2009‚ doi: 10.1016/j.palaeo.2009.05.016.  
 
5.        Dai‚ X.R.‚ Dearing‚ J.A.‚ Yu‚ L.Z.‚ Zhang‚ W.G.‚ Shi‚ Y.X.‚ Zhang‚ F.R.‚ Gu‚ C.J.‚ Boyle‚ J.F.‚ Coulthard‚ T.J.‚ Foster‚ G.C.‚ The recent history of hydro-geomorphological processes in the upper Hangbu river system‚ Anhui Province‚ China.Geomorphology‚ 2009‚ 106(3/4)‚ 363-375.
 
6.        Yan‚ Z.Z.‚ Gu‚ H.Y.‚ Dai‚ Y.B.‚ Wu‚ X.D.‚ Dearing‚ J.A.‚ Zhang‚ W.G.‚ Yu‚ L.Z.‚ Population‚ land use and environmental impacts in Shuchen County‚ Anhui Province‚ China during the Ming and Qing Dynasties.Environment and History‚ 2009‚ 15‚ (1)‚ 61-78..
 
7.        Zhang‚ W.G.Feng‚ H.‚ Chang‚ J.N.‚ Qu‚ J.G.Yu‚ L.Z.‚ Lead (Pb) Isotopes as a Tracer of Pb Origin in Yangtze River Intertidal Zone. Chemical Geology‚ 2008‚ 257(3/4)‚ 260-266.
 
8.        ZhangW.G.‚ Xing‚ Y.‚ Yu‚ L.Z.‚ Feng‚ H.‚ Lu‚ M.‚ Distinguishing sediments from the Yangtze and Yellow Rivers‚ China: a mineral magnetic approach. The Holocene‚ 2008‚ 18(7)‚ 1139-1145.
 
9.        Feng‚ H.‚ Zhang‚ W.‚ Zhang‚ L.‚ Heavy Metal Contamination in Selected Urban Coastal Regions in US and China‚ in Sánchez‚ M. L.‚ ed. Causes and Effects of Heavy Metal Pollution‚ Nova Science Publishers‚ 2008‚ 265-286.
 
10.    Feng‚ H.‚ Yu‚ D.‚ Zhang‚ W.‚ Coastal Sustainability Study and Environmental Management‚ in Wagner‚ L.N.‚ ed. Urbanization: 21st Century Issues and Challenges‚ Nova Science Publishers‚ 2008‚ 155-173.
 
11.    Hu‚ X.F.‚ Jiang‚ W.‚ Ye‚ W.‚ Shen‚ M.N.‚ Zhang‚ W.G.‚ Wang‚ H.B.‚ Lu‚ C.W.‚ Zhu‚ L.D.‚ Yellow-brown earth on Quaternary red clay in Langxi County‚ Anhui Province in subtropical China: Evidence for paleoclimatic change in late Quaternary period. Journal of Plant Nutrition and Soil Science‚ 2008‚ 171(4)‚ 542-551.
 
12.    Zhang‚ W.G.‚ Yu‚ L.Z‚ Lu‚ M.‚ Zheng‚ X.M.‚ ShiY.X.‚ Magnetic properties and geochemistry of the Xiashu Loess in the present subtropical area of China‚ and their implications for pedogenic intensity‚ Earth and Planetary Science Letters‚ 2007‚ 260(1-2)‚ 86-97.
 
13.    Zhang‚ W.G.‚ Yu‚ L.Z.‚ Lu‚ M.‚ Hutchinson‚ S.M. Feng‚ H.‚ Magnetic approach to normalizing heavy metal concentrations for particle size effects in intertidal sediments in the Yangtze Estuary‚ China‚ Environmental Pollution‚ 2007‚ 147‚ 238-244.
 
14.    Wei‚ T.Y.‚ Chen‚ Z.Y.‚ Duan‚ L.Y.‚ Gu‚ J.W.‚ Saito‚ Y.‚ ZhangW.G.‚ Wang‚ Y.H.‚ Kanai‚ Y.‚ Sedimentation rates in relation to sedimentary processes of the Yangtze Estuary‚ ChinaEstuarine‚ Coastal and Shelf Science‚ 200771‚ 1-2‚  37-46.
 
15.    Kang Xinglun‚ Chen Hongtao‚ Jiang Xueyan‚Ning Jinsong‚ Yu Zhigang‚ Zhu Xiaobin‚ Zhang Weiguo‚ An advanced irradiation facilities and its usage‚ Chinese Journal of Oceanology and Limnology‚ 2006 242‚ 212-214.
 
16.    Feng Huan‚ Han Xiaofei‚ Zhang Weiguo‚ Yu LizhongNon-steady sedimentation and sediment erosion in Yangtze River intertidal flats‚ preliminary study results inFeng H.‚ Yu L.‚ and Solecki W.(Eds.)‚ URBAN DIMENSIONS OF ENVIRONMENTAL CHANGEScience‚ Exposure‚ Policies‚ And Technologies‚ Science Press USA Inc.‚2005‚ 17-24.

17.    Feng H.‚ Han X.‚ Zhang W.‚ Yu L. A Preliminary Study of Heavy Metal Contamination in Yangtze River Intertidal Zone Due to Urbanization.   Marine Pollution Bulletin200449‚ 910–915.
 
18.    Dong Ruibin‚ Zhang Weiguo‚ Lu Shenggao‚ Yu Lizhong‚ Yu Jinyan‚ Effect of reduction associated with organic matter decomposition on magnetic properties of red soils. Pedosphere‚ 2003‚ 13(2)‚ 103-110.
 
 
20.    Zhang‚ W.G.‚ Yu‚ L.Z.‚ Lu‚ M.‚ Relationships between iron oxides and magnetic properties in intertidal sediments of the Yangtze Estuary‚ China‚ Chinese Journal of Geophysics‚ 2003‚ 46(1)‚ 100-109.
 
21.    Zhang‚ W.G.‚ Yu‚ L.Z.‚ Hutchinson‚ S.M.‚ China’s Yangtze Estuary‚ I. Geomorphic influence on heavy metal accumulation in intertidal sediments‚ Geomorphology‚ 2001‚ 41(2-3)‚ 195-205.
 
22.    Zhang‚ W.G.‚ Yu‚ L.Z.‚ Hutchinson‚ S.M.‚ Diagenesis of magnetic minerals in the intertidal sediments of the Yangtze Estuary‚ China and its environmental significance. The Science of the Total Environment‚ 2001‚ 266‚ 169-175.
 
23.    Zhang‚ W.G.‚ Yu‚ L.Z.‚ Hutchinson‚ S.M.‚ Magnetic normalization of particle-size effect in a heavy metal pollution study on intertidal sediments of the Yangtze Estuary‚ Science in China (B)‚ 2001‚ 44‚ 185-189.
 
24.    Lu S.G.‚ Dong R.B.‚ Yu J.Y.‚ Zhang W.G.‚ Yu L.Z.‚ Magnetic measurement characterisation of red earth profile in eastern China and its environmental implications. Chinese Journal of Geophysics‚ 1999‚ 42 (6)‚ 764-771.
 
25.    Lu Shenggao‚ Zhang Weiguo‚ Yu Lizhong‚ Magneto-Mineralogical studies of iron oxide in soils derived from Quaternary red earth. Journal of Zhejiang Agricultural University‚ 1999‚ 25(1)‚ 13-18.
 
26.    Yu Lizhong‚ Zhang Weiguo‚ Quantitative approach to sediment source identification by using magnetic diagnosis model. Chinese Science Bulletin‚ 1999‚ 44‚ 504-510.
 
27.    Zhang Weiguo‚ Yu Lizhong‚ Xu Yu‚ Sun Zhenbin‚ Iron reduction in tidal flat sediment indicated by magnetic measurements and its significance in the study of heavy metal pollution. Chinese Science Bulletin‚ 1999‚ 44‚ 839-842.
 
28.    Lizhong Yu‚ Weiguo Zhang‚ Yu Xu‚ Shiyuan Xu‚ Xiangmin Zheng‚ Kunihiko Endo‚ Yutaka Taba‚ Soft sediment in Taihu Lake and its palaeoenvironmental indications. Bulletin of the National Museum of Japanese History‚ 1999‚ 81‚ 199-208.
 
29.    Dong Ruibin‚ Yu Jinyan‚ Yu Lizhong‚ Lu Shenggao‚ Zhang Weiguo‚ Characterizing fire-induced magnetic enhancement of some red soils in Zhejiang Province‚ China. Journal of Zhejiang Agricultural University. 1998‚ 24‚ 572-578.
 
30.    Wang Huizhong‚ Zhao Quanhong‚ Yu Lizhong‚  Zhang Weiguo‚ Late Quaternary eolian records in the northwest Pacific with glacial cycles‚ a comparison. Science in China‚ 1998‚ 41‚ 28-34.
 
31.    Chen Z‚ Chen Z L‚ Zhang W G.‚ Quaternary Stratigraphy and Trace-Element Indices of the Yangtze Delta‚ Eastern China‚ with Special Reference of Marine Transgressions. Quaternary Research‚ 1997‚ 47‚ 181-191.
 
32.    Zheng Xiangmin‚ Zhang Weiguo‚ Yu Lizhong and Kunihiko Endo‚ Paleoenvironmental Changes in Southern Yangtze Delta over the last 20‚000 years. The Quaternary Research‚ 1994‚ 33‚ 379-384.
 
33.    赵敏,张卫国,俞立中,上海市居民出行方式与城市交通CO2排放及减排对策, 环境科学研究, 2009, 226), 747-752.
 
34.    陈曦‚ 张卫国‚ 俞立中‚ 赤铁矿与磁铁矿混合比例对磁性参数的影响‚ 地球物理学进展, 2009‚ 241)‚ 82-88.
 
35.   魏伟‚ 康兴伦‚ 江雪艳‚ 于志刚‚ 杜金洲‚ 张卫国‚ 地下卤水中镭的富集与测定方法研究‚ 海洋科学 2008‚ 3211)‚ 14.
 
36.    陈满荣俞立中张卫国用磁化率测定方法区分真假人民币中国防伪报道‚ 200819-12.
 
37.    张卫国‚ 贾铁飞‚ 陆敏‚ 瞿建国‚ 刘苍字‚ 陈中原‚ 俞立中‚ 周菊珍‚ 长江口水下三角洲Y7柱样磁性特征及其影响因素‚ 第四纪研究‚ 2007‚ 276)‚ 1063-1071
 
38.    张卫国‚ 戴雪荣‚ 张福瑞‚ 师育新‚ 俞立中‚ J.A. Dearing‚ 近7000年巢湖沉积物环境磁学特征及其指示的亚洲季风变化‚ 第四纪研究‚ 2007‚ 27(6)‚ 1053-1062
 
39.    邢云张卫国杨世伦俞立中潮滩表层沉积物磁性特征的季节性变化及其对沉积动力作用的响应:以杭州湾北岸为例沉积学报‚ 2007‚ 25(2)‚ 267-273.
 
40.    贾丽‚ 俞立中‚ 张卫国‚ 上海地区全新世沉积孢粉与古环境分析‚华东师范大学学报(自然科学版)‚ 2007‚ 2‚ 23-29.
 
41.    范斌‚ 许世远‚ 俞立中‚ 蒋辉‚ 张卫国‚ 戴雪荣‚ 近300年来植硅体记录的巢湖流域气候变化‚华东师范大学学报(自然科学版)‚ 2007‚ 4‚ 71-76
 
 
42.    夏敦胜‚ 陈发虎‚ 马剑英‚ 刘秀铭‚ 张卫国‚ 王训明‚ 魏海涛‚ 黄土高原-阿拉善高原典型断面表土磁学特征研究‚ 第四纪研究‚ 2007‚ 27(6)‚ 1001-1008
 
43.    时连强‚ 李九发‚ 张卫国‚ 陈沈良‚ 黄河三角洲飞雁滩HF孔沉积物的磁性特征及其环境意义‚海洋学研究‚ 2007‚ 25(4)‚ 13-23
 
44.    王自磐‚ 刘广山‚ 卢冰‚ 张卫国‚ 韩晓非南极长城站附近企鹅栖息地粪土沉积地层放射性核素210Pb定年‚ 海洋学报‚ 2006‚ 28(5)‚ 76-82.
 
45.    陈满荣‚  俞立中‚  张卫国‚  许世远‚  杨治平‚  张永吉‚ S.M.Hutchinson‚ 山西耕作土壤样品磁性空间分异及其环境意义生物磁学2006‚ 6(1)1-6.
 
46.    陈满荣钮向峰陈斌俞立中张卫国()-()公路交通肇事刑事侦破中环境磁学的应用生物磁学 2006‚ 6(1)‚ 36-39.
 
47.    谢红霞‚ 张卫国‚  顾成军‚  戴雪荣‚  俞立中‚ John Dearing‚ 巢湖沉积物磁性特征及其对沉积动力的响应湖泊科学‚ 2006‚ 181‚ 43-48.
 
48.    贾铁飞‚ 戴雪荣‚ 张卫国‚ 俞立中‚ 全新世巢湖沉积记录及其环境变化意义‚ 地理科学,  2006  6  706-711.
 
49.    师育新‚ 张卫国‚ 戴雪荣‚ 宋之光‚ 俞立中‚ 郑祥民‚镇江下蜀土中的黏土矿物及其古环境意义‚ 海洋地质与第四纪地质‚ 2005‚ 25(4)‚ 99105.
 
50.    师育新‚ 戴雪荣‚ 宋之光‚ 张卫国‚ 王立群‚ 我国不同气候带黄土中粘土矿物组合特征分析‚ 沉积学报‚ 2005‚ 23(4)‚ 690-695.
 
51.    贾海林刘苍字张卫国孟翊洪雪晴崇明岛CY孔沉积物的磁性特征及其环境意义. 沉积学报 2004‚ 22(1)‚ 117-123.
 
52.    王永红‚ 沈焕庭‚ 张卫国. 长江与黄河河口沉积物磁性特征对比的初步研究. 沉积学报, 2004‚ 22(4)‚ 658-663.
 
53.    张卫国‚ 俞立中‚ 陆敏. 长江口潮滩沉积物氧化铁与磁性特征的关系.地球物理学报, 2003‚ 46(1)7985.
 

54.    张卫国俞立中丛友滋赤道东太平洋C-C区硅质沉积物的磁性特征及细菌合成磁铁矿沉积学报2003‚ 21(3)‚ 467-472.


55.   韩晓非,张卫国,陈满荣,俞立中, 长江口潮滩植物对沉积物铁的地球化学循环及磁性特征的影响,沉积学报, 2003213),495499.


56.  陆敏,张卫国,师育新,俞立中,郑祥民. 太湖北部沉积物金属和营养元素的垂向变化及其影响因素. 湖泊科学2003, 15(3), 213-220.


57.  张卫国,俞立中.长江口潮滩沉积物的磁学性质及其与粒度的关系.中国科学(D辑)2002329),783792.

 

58.  张卫国,俞立中,S.M. Hutchinson. 长江口南岸边滩沉积物重金属污染记录的磁诊断方法. 海洋与湖沼2000316),616623.

 

5.卢升高,俞劲炎,章明奎,俞立中,张卫国. 长江中下游第四纪沉积物发育土壤磁性增强的环境磁学机制. 沉积学报2000183),336340.

 

59. 卢升高,俞劲炎,张卫国,俞立中. 土壤氧化铁的磁性参数及其应用. 土壤通报1999304),160162.

 

60. 卢升高,张子玉,俞劲炎,张卫国,俞立中. 玄武岩发育土壤的磁化率及其机理解析. 土壤学报1999364),544550.

 

61.  卢升高,董瑞斌,俞劲炎,张卫国,俞立中. 中国东部红土的磁性及其环境意义. 地球物理学报1999426),764771.

 

62.  俞立中,张卫国,陈振楼,S.M.Hutchinson. 长江三角洲潮滩重金属污染与滨岸带环境管理对策. 迈向21世纪的中国-环境、资源与可持续发展1999,香港中文大学香港亚太研究所,香港,6176.

 

63.  郑祥民,彭加亮,张卫国1999,东海岛屿黄土和海底黄土,见:郑祥民等著,长江三角洲及海域风尘沉积与环境(第七章),华东师范大学出版社,102118

 

64.  张卫国,俞立中,李维显. 东海陆架表层沉积物的磁性测量及其油气勘探意义. 华东师范大学学报(自然科学版)19981, 7681.

 

65. 俞立中,张卫国. 沉积物来源组成定量分析的磁诊断模型.科学通报19984319),20342040.

 

66 .张卫国,俞立中,许羽,孙振斌. 沉积物磁性测量对铁还原的指示及其在重金属污染研究中的应用. 科学通报19984319),21142118.

 

67. 王慧中,赵泉鸿,俞立中,张卫国. 晚第四纪西北太平洋风尘记录与冰期旋回的比较. 中国科学1998281),712.

 

68. 俞立中,许羽,张卫国. 湖泊沉积物的矿物磁性测量及其环境应用. 地球物理学进展1995101, 1121.

 

69. 张卫国, 俞立中,许羽. 环境磁学研究的简介. 地球物理学进展1995103, 95105.

 

70. 王慧中,俞立中,张卫国,祁景玉,徐安军. 黄土粉尘在西北太平洋沉积中的若干辨认标志.同济大学学报199523, 147153.

 

71. 俞立中,张卫国. 利用磁信息研究潮滩重金属污染的探讨. 环境科学进展199315, 3744.


 
 

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