王张华

职称: 
研究员
研究专长: 
晚第四纪海平面变化及河口-三角洲沉积地貌环境响应
河口-三角洲古人类文明兴衰和环境变化
Email: 
zhwang@geo.ecnu.edu.cn
联系地址: 
上海市东川路500号,华东师范大学河口海岸学国家重点实验室(200243)
教育经历: 
1995.9-2000.6, 硕博连读,华东师范大学地理系,自然地理学
1991.9-1995.6,本科,华东师范大学地理系,地理学
工作经历: 
2009.1至今,华东师范大学河口海岸国家重点实验室,教授
2000.7-2008.12,华东师范大学地理系,讲师及副教授
海外工作和访学经历: 
2013.1.14-1.26 日本地质调查局,短期访问
2011.1.7-1.20 日本地质调查局,短期访问
2010.1.27-2.9 日本地质调查局,短期访问
2009. 2.2-2.15 日本地质调查局,短期访问
2005.4,美国北卡罗莱纳州立大学,短期访问
科研项目: 
主持项目: 
 
2016.7-2020.12,高强度人类活动作用下珠江河口与河网动力-沉积-地貌异变机理研究,国家重点研发项目,批准号2016YFC0402601,骨干,负责沉积部分,经费52万元
2017.2-2017.12, 长江口南支水域水下考古调查中的水下文物沉积环境分析,上海市文物保护研究中心,主持,4.5万元
2017.1-2019.12,宁波大榭岛古代遗址人地关系研究,宁波市文物考古研究所,主持,19.95万元
2016.1-2019.12,宁波-姚江平原新石器遗址记录的全新世中期水涝灾害及古人类响应与适应对策,国家自然科学基金,批准号41576042,主持,直接经费:75万元
2015.1-2016.12,宁波地区全新世地层形成的环境背景研究—以鱼山遗址和乌龟山遗址为个案,宁波市文物考古研究所,主持,10万元
2014.1-2015.12,长江口沉积地貌环境对全新世早中期海平面快速上升事件的响应,教育部新世纪人才计划,主持,25万元
2012.01-2015.12,长江口潮滩沉积物TOC/TS和自生铁硫化物的沉积相分异及在全新世早-中期海平面重建中的应用,国家自然科学基金,批准号41176070,主持
2012.01-2014.12,人类活动影响下长江口海岸带地质环境演化模式,国土资源部公益项目专项,批准号:201211009-02,主持
2010.7.1-2012.7.1, 长江口现代沉积物定年方法及流域人类活动的沉积纪录,国土资源部海洋油气资源与环境地质重点实验室开放基金, 批准号MRE201001,主持
2009.10-2010.12, 现代长江三角洲沉积体系、沙体特征和成因机制研究,中国海洋石油公司上海分公司,主持
2008.10-2010.12, 广富林遗址全新世早中期古地理环境演变和古文化发展关系,上海博物馆,主持
2008.10-2010.10, 长江水下三角洲晚第四纪年代地层框架和沉积相演变,上海市地质调查研究院,主持
2007.10-2009.12 晚第四纪东亚季风波动和人类活动在长江水下三角洲的沉积记录,中国地质调查局,项目编号GZTR20060102,专项主持
学术论文: 
  1. Huang, J., Lei, S., Wang, A., Tang, L., Wang, Z.*, Mid-Holocene environmental change and human response at the Neolithic Wuguishan site in the Ningbo coastal lowland of East China. The Holocene. in press.
  2. Pan, D., Wang, Z.*, Zhan, Q., Saito, Y., Wu, H., Yang, S., Cheng, H., Organic geochemical variations for understanding past sediment dynamic processes: example from Holocene sedimentary records in the Changjiang River delta, China. Continental Shelf Research, accepted.
  3. 潘大东,王张华,2020. 东亚和南亚典型大河三角洲晚第四纪地层结构及成因对比. 海洋地质与第四纪地质 40(1), 12-21.
  4. Wang, S., Ge, J., Kilbourne, K.H., Wang, Z.*, 2020. Numerical simulation of mid-Holocene tidal regime and storm-tide inundation in the south Yangtze coastal plain, East China. Marine Geology 423, 106134.
  5. Jiang, Y., Saito, Y., Ta, T.K.O., Wang, Z.*, Gugliotta, M., Nguyen, V.L., 2020. Spatial and seasonal variability in grain size, magnetic susceptibility, and organic elemental geochemistry of channel-bed sediments from the Mekong Delta, Vietnam: implications for hydro-sedimentary dynamic processes. Marine Geology 420, 106089.
  6. Tang, L., Shu, J., Chen, J., Wang, Z.*, 2019. Mid- to late Holocene vegetation change recorded at a Neolithic site in the Yangtze coastal plain, East China. Quaternary International 519, 122-130.
  7. Yuan, X., Yang, Q., Luo, X**, Yu, F., Li, J., Wang, Z.*, 2019. Distribution of grain size and organic elemental composition of the surficial sediments in Lingding Bay in the Pearl River Delta, China: A record of recent human activity. Ocean & Coastal Management 178, 104849.
  8. Zhou, L., Yang, Y., Wang, Z., Jia, J., Mao, L., Li, Z., Fang, X., Gao, S., 2019. Investigating ENSO and WPWP modulated typhoon variability in the South China Sea during the mid-late Holocene using sedimentological evidence from southeastern Hainan, Island, China. Marine Geology 416, 105987.
  9. 唐亮,吕晔,年小美,雷少,王张华*,2019. 姚江-宁波平原中全新世海侵事件及古人类活动的快速响应. 第四纪研究 39(5), 1116-1132.
  10. Nian, X., Zhang, W., Qiu, F., Qin, J., Wang, Z., Sun, Q., Chen, J., Chen, Z., Liu, N., 2019. Luminescence characteristics of quartz from Holocene delta deposits of the Yangtze River and their provenance implications. Quaternary Geochronology 49, 131–137. DOI: 10.1016/j.quageo.2018.04.010
  11. Innes, J.B., Zong, Y., Xiong, H., Wang, Z., Chen, Z., 2019. Pollen and non-pollen palynomorph analyses of Upper Holocene sediments from Dianshan, Yangtze coastal lowlands, China: Hydrology, vegetation history and human activity. Palaeogeography, Palaeoclimatology, Palaeoecology 523, 30-47.
  12. 栗文静,雷少,王张华,李月,岳伟,郑童童, 2018. 浙江大榭史前制盐遗址人工土台的堆土特征及来源分析. 古地理学报, 20(6), 1102-1112.
  13. Wang, Z., Saito, Y., Zhan, Q., Nian, X., Pan, D., Wang, L., Chen, T., Xie, J., Li, X., Jiang, X., 2018. Three-dimensional evolution of the Yangtze River mouth, China during the Holocene: impacts of sea level, climate and human activity. Earth Science Reviews 185, 938–955. DOI: 10.1016/j.earscirev.2018.08.012
  14. Nian, X., Zhang, W., Qiu, F., Qin, J., Wang, Z., Sun, Q., Chen, J., Chen, Z., Liu, N., 2018. Luminescence characteristics of quartz from Holocene delta deposits of the Yangtze River and their provenance implications. Quaternary Geochronology. DOI: 10.1016/j.quageo.2018.04.010
  15. Chen, T., Ryves, D.B., Wang, Z., Lewis, J.P., Yu, X., 2018. Mid- to late Holocene morphological and hydrological changes in the south Taihu area of the Yangtze delta plain, China. Palaeogeography, Palaeoclimatology, Palaeoecology, 498: 127–142. DOI: 10.1016/j.palaeo.2018.03.012. (corresponding author)
  16. Wang, Z., Ryves, D.B., Lei, S., Nian, X., Lv, Y., Tang, L., Wang, L., Wang, J., Chen, J., 2018. Middle Holocene marine flooding and human response in the south Yangtze coastal plain, East China. Quaternary Science Reviews, 187: 80–93.
  17. Nian X., Zhang W., Wang Z., Sun Q., Chen J., Chen Z., 2018. Optical dating of Holocene sediments from the Yangtze River (Changjiang) Delta, China. Quaternary International, 467: 251–263.
  18. Wei T., Wang Z., Chen J., Li M., 2018. Non-flood season neap tides in the Yangtze estuary offshore: flow mixing processes and its potential impacts on adjacent wetlands. Physics and Chemistry of the Earth, 103: 127-139.
  19. Zhao B., Yan X., Wang Z., Shi Y., Chen Z., Xie J., Chen J., He Z., Zhan Q., Li X., 2018. Sedimentary evolution of the Yangtze River mouth (East China Sea) over the past 19,000 years, with emphasis on the Holocene variations in coastal currents. Palaeogeography, Palaeoclimatology, Palaeoecology, 490: 431-449.
  20. Nian X., Zhang W., Wang Z., Sun Q., Chen J., Chen Z., 2018. The chronology of a sediment core from incised valley of the Yangtze River delta: Comparative OSL and AMS 14C dating. Marine Geology, 395: 320-330.
  21. Cui M., Wang Z., Nageswara Rao K., Sangode S.J., Saito Y., Chen T., Kulkarni Y.R., Naga Kumar K.Ch. V., Demudu G., 2017. A mid-late Holocene record of vegetation decline and erosion triggered by monsoon weakening and human adaptations in the southeast Indian Peninsula. The Holocene, 27: 1976-1987. (corresponding author)
  22. Pan D., Chen T., Zhan Q., Wang Z., 2017. Mineral magnetic properties of Holocene sediments in the subaqueous Yangtze delta and the implications for human activity and early diagenesis. Quaternary International, 459: 133-143 (corresponding author)
  23. Yue W., Liu J.T., Zhang D., Wang Z., Zhao B., Chen Z., Chen J., 2016. Magnetite with anomalously high Cr2O3 as a fingerprint to trace upper Yangtze sediments to the sea. Geomorphology, 268: 14-20.
  24. 喻薛凝,战庆,王张华,2016. 长江口各地貌单元沉积构造和粒度分区特征,海洋地质与第四纪地质,36(4): 1-11.
  25. 战庆,王张华,陈勇,赵宝成,长江口水下三角洲沉积物粒度组成及其在减沙背景下的响应,地质通报,2016.10.15,(10):1715~1723
  26. Chen T., Wang Z., Wu X., Gao X., Li L., Zhan Q., 2015. Magnetic properties of tidal flat sediments on the Yangtze coast, China: early diagenetic alteration and implications. The Holocene, 25(5): 832-843. (corresponding author)
  27. 潘大东,王张华,陈艇,高晓琴,李晓,战庆,2015.长江口表层沉积物矿物磁性分区特征及其沉积环境指示意义,海洋学报,37(5): 101-111(通讯作者).
  28. 赵亚楠,王张华,吴绪旭,李琳,战庆,陈艇,2015.长江口现代潮滩沉积物粒度特征及其在沉积相识别中的应用.古地理学报,17(3), 263-274(通讯作者).
  29. Innes, J.B., Zong, Y., Wang, Z., Chen, Z., 2014. Climatic and palaeoecological changes during the mid- to Late Holocene transition in eastern China: High-resolution pollen and non-pollen palynomorph analysis at Pingwang, Yangtze coastal lowlands. Quaternary Science Reviews, 99: 164-175.
  30. Gu, Jiawei,Chen, Jing,Sun, Qianli,Wang, Zhanghua,Wei, Zixin,Chen, Zhongyuan,China's Yangtze delta: Geochemical fingerprints reflecting river connection to the sea. Geomorphology,2014.12.15,227:166~173
  31. 战庆,王张华,2014. 利用盐沼泥炭重建长江三角洲北部全新世中期海平面. 古地理学报,16(4): 548-556.
  32. 庄陈程,战庆,王张华,2014.利用长江口现代潮滩沉积硅藻建立海平面转换函数的尝试.古地理学报,16(4): 557-568.
  33. Wang Z., Dong Y., Chen J., Li X., Cao J., Deng Z., 2014. Dating recent sediments from the subaqueous Yangtze Delta and adjacent continental shelf, China. Journal of Palaeogeography, 3(2): 207-218.
  34. Chen J., Wang Z., Wei T., Zhao B., Chen Z., 2014. Clay minerals in the Pliocene- Quaternary sediments of the southern Yangtze coast, China: Sediment sources and palaeoclimate implications. Journal of Palaeogeography, 3(3): 297-308.
  35. Wang Z., Zhan Q., Long H., Saito Y., Gao X., Wu X., Li L., Zhao Y., 2013. Early to mid-Holocene rapid sea-level rise and coastal response on the southern Yangtze delta plain, China. Journal of Quaternary Science, 28(7), 659-672
  36. 陈艇,王张华,强小科,马春燕,战庆,2013.太湖平原WJ孔矿物磁学特征以及晚第四纪海侵事件.地球物理学报, 56(8), 2748-2759(Chen Ting; Wang Zhang-Hua; Qiang Xiao-Ke; Ma Chun-Yan; Zhan Qing, 2013. Magnetic properties of minerals recorded by the borehole WJ and Late Quaternary transgressions in the Taihu plain, southern Yangtze Delta. CHINESE JOURNAL OF GEOPHYSICS-CHINESE EDITION, 56(8), 2748-2759)
  37. Wang Z., Jones B.G., Chen T., Zhao B., Zhan Q., 2013. A raised OIS 3 sea level recorded in coastal sediments, southern Changjiang delta plain, China. Quaternary Research, 79, 424-438
  38. Liu Y., He Z., Wang Z., 2013. Magnetic properties of Holocene core ZK9 in the subaqueous Yangtze delta and their mechanisms and implications. Frontiers of Earth Science, 7(3), 331-340. DOI: 10.1007/s11707-013-0375-x (corresponding author)
  39. 李琳,王张华,吴绪旭,高晓琴,2013. 长江口北支潮滩不同沉积微相有机地球化学元素分布. 古地理学报,15(1), 95-104. (通讯作者)
  40. 吴绪旭, 王张华, 何中发, 2012. 总硫总有机碳比(TS/TOC)对长江三角洲南部平原沉积环境指示意义. 古地理学报, 14(6), 821-828. (通讯作者)
  41. 高晓琴,王张华,李琳,吴绪旭,2012.长江口现代潮滩表层沉积物磁性特征和自生铁硫化物的分布. 古地理学报, 14(5), 673-684. (通讯作者)
  42. Zong Y., Innes, J.B., Wang, Z., Chen, Z., 2012. Environmental change and Neolithic settlement movement in the lower Yangtze wetlands of China. The Holocene, 22(6), 659-673. DOI: 10.1177/0959683611414933.
  43. Zhan Q., Wang Z., Xie Y., Xie J., He Z., 2012. Carbon, nitrogen and δ13C as indicators of Holocene sea level and freshwater discharge changes in the subaqueous Yangtze delta, China. The Holocene, 22(6), 697-704. DOI: 10.1177/0959683611423685 (corresponding author)
  44. Zong Y., Wang Z., Innes J.B., Chen Z., 2012. Holocene environmental change and Neolithic rice agriculture in the lower Yangtze region of China: a review. The Holocene, 22(6), 623-635. DOI: 10.1177/0959683611409775
  45. Wang Z., Zhuang C., Saito Y., Chen J., Zhan Q., Wang X., 2012. Early mid-Holocene sea-level change and coastal environmental response on the southern Yangtze delta plain, China: implications for the rise of Neolithic culture. Quaternary Science Reviews, 35, 51-62.
  46. Li M., Chen Z., Yin D., Chen J., Wang Z., Sun Q., 2011. Morphodynamic characteristics of the dextral diversion of the Yangtze River mouth, China: tidal and the Coriolis Force controls. Earth Surface Processes and Landform, 36, 641-650
  47. Zong Y., Innes J.B., Wang Z., Chen Z., 2011. Mid-Holocene coastal hydrology and salinity changes in the east Taihu area of the lower Yangtze wetlands, China. Quaternary Research, 76, 69-82.
  48. Zhu C., Wang Z., Xue B., Yu P-S, Pan J-M, Wagner T., Pancost R.D., 2011, Characterizing the depositional settings for sedimentary organic matter distributions in the lower Yangtze River-East China Sea shelf system. Estuarine, Coastal and Shelf Science, 93(3), 182-191 doi:10.1016/j.ecss.2010.08.001
  49. Wang Z., Li M., Zhang R., Liu Y., Saito Y., Xie J., Li B., Zhao B., 2011, Impacts of human activity on the late Holocene development of the subaqueous Yangtze delta, China, as shown by magnetic properties and sediment accumulation rates. The Holocene, 21(3), 393-408 DOI: 10.1177/0959683610378885.
  50. 周园军,王张华,李晓,谢建磊,何中发,赵宝成,2011. 长江三角洲南部平原晚新生代特征孢粉分布及其对沉积地貌环境演变的意义,古地理学报,13(3), 253-263.
  51. Zong Y., Wang Z., Chen Z., Innes, J.B., 2010. Environmental Change Linked to Changes in the Neolithic Agricultural Development in the East Coast of China. Journal of Earth Science, 21, 284-285.
  52. Zhang L., Chen Z., Wang Z., Wu J., 2010. Preliminary Discussion on Large-Scale Water Conservancy in Ancient Liangzhu City Area, Yangtze Delta of China: Highlight of Early Agricultural Civilization. Journal of Earth Science, 21, 281-283.
  53. Chen Z., Wang Z., Finlayson B., Chen J., Yin D., 2010. Implications of flow control by the Three Gorges Dam on sediment and channel dynamics of the middle Yangtze (Changjiang) River, China. Geology, 38(11): 1043-1046. doi: 10.1130/G31271.1
  54. 任夏,王张华,徐皓,何中发,2010. 上海郊区土壤-沉积物剖面铀、钍分布特征及影响因素,古地理学报,12(3), 315-323. (通讯作者)
  55. 张丹,王张华,李卫康,李晓,2010. 现代长江口的形成及末次冰消期以来沉积环境演变,海洋地质与第四纪地质,30(2): 17-26. DOI: 10.3724/SP.J.1140.2010.02017
  56. Wang Z., Xu H., Zhan Q., Saito Y, He Z., Xie J., Li X., Dong Y., 2010. Lithological and palynological evidence of late Quaternary depositional environments in the subaqueous Yangtze delta, China. Quaternary Research, 73: 550-562. DOI: 10.1016/ j.yqres.2009.11.001
  57. Ma, Chunyan,Chen, Jing,Zhou, Yuanjun,Wang, Zhanghua, Clay minerals in the major Chinese coastal estuaries and their provenance implications,Frontiers of Earth Science,2010.12.01,4(4):449~456
  58. Wang, Xin,Wang, Zhanghua,Chen, Zhongyuan,He, Jiying,Song, Jian,Zhidanyuan sluice of Yuan-dynasty, Shanghai area of Yangtze delta: Discussion of its abandonment,Frontiers of Earth Science,2010.12.01,4(4):386-392
  59. Innes, JB; Zong, YQ; Chen, ZY; Chen, C; Wang, ZH; Wang, H. 2009. Environmental history, palaeoecology and human activity at the early Neolithic forager/cultivator site at Kuahuqiao, Hangzhou, eastern China. QUATERNARY SCIENCE REVIEWS 28 (23-24): 2277-2294.
  60. Dong Y., Wang Z., Chen Z., Yin D., 2009. Centennial fluctuations of flood-season discharge of Upper and Middle Yangtze River Basin, China (1865-1988): cause and impact. Frontiers of Earth Science in China, 3 (4): 471-479. DOI: 10.1007/ s11707-009-0064-y
  61. Sun Q., Wang Z., Chen J., Wu F., 2009. Climate implications of major geochemical elements in the Holocene sediments of the North and East China monsoonal regions. Frontiers of Earth Science in China, 3(3), 291-296
  62. Tang J., Xu H., Wang Z., 2009. Changes in summer monsoon precipitation over Hunan Province during 1952-2007: response to the west Pacific sea surface temperature and global warming. Frontiers of Earth Science in China, 3(4): 411-418 DOI: 10.1007/s11707-009-0063-z (corresponding author)
  63. 战庆,王张华,王昕,李晓,2009. 长江口区晚新生代沉积物粒度特征和沉积地貌环境演变,沉积学报, 27(4), 674-683(通讯作者)
  64. Chen J., Wang Z., Chen Z., Wei Z., Wei T., Wei W., 2009. Diagnostic heavy minerals in Plio-Pleistocene sediments of the Yangtze Coast, China with special reference to the Yangtze River connection into the sea. Geomorphology, 113:129-136,doi: 10.1016/j.geomorph.2009.03.010
  65. 张丹,王张华,卫巍,李晓,2009.长江三角洲地区晚新生代沉积物岩石磁学特征及其物源指示意义,第四纪研究,29(2): 308-317(通讯作者)
  66. Chen Z., Zong Y., Wang Z., Wang H., Chen J., 2008. Migration patterns of Neolithic settlements on the abandoned Yellow and Yangtze River deltas of China. Quaternary Research, 70, 301-314.
  67. Wang Z., Liu JP, Zhao B., 2008. Holocene depocenter shift in the middle-lower Changjiang River basins and coastal area in response to sea level change. Frontiers of Earth Science in China,2(1), 17-26
  68. Zhao B., Wang Z., Chen J., Chen Z., 2008. Marine sediment records and relative sea level change during late Pleistocene in the Changjiang delta area and adjacent continental shelf. Quaternary International,186,164-172(通讯作者)
获奖情况: 
2011年长江河流-三角洲地貌环境演变:全球变化和人类活动的响应,上海市自然科学奖一等奖,第二完成人