吉林大学学报(地球科学版) ›› 2019, Vol. 49 ›› Issue (1): 178-195.doi: 10.13278/j.cnki.jjuese.20180114

• 海洋地质与资源 • 上一篇    

浙闽泥质区全新世物源和古气候演化研究进展

丁大林1,2, 张训华1,2, 于俊杰2, 王修齐1,2   

  1. 1. 中国海洋大学海洋地球科学学院, 山东 青岛 266100;
    2. 中国地质调查局南京地质调查中心, 南京 210016
  • 收稿日期:2018-05-16 发布日期:2019-01-18
  • 通讯作者: 张训华(1961-),男,研究员,博士生导师,主要从事海洋地球物理和大地构造等方面的研究,E-mail:xunhuazh611102@sina.com E-mail:xunhuazh611102@sina.com
  • 作者简介:丁大林(1992-),男,博士研究生,主要从事海洋沉积和第四纪研究,E-mail:oucdalin@163.com
  • 基金资助:
    中国地质调查局地质调查项目(121201008000182401);国家海洋地质专项(DD20160147)

Progress in Sedimentary Sources and Palaeoclimate Evolution in Zhejiang-Fujian Mud Area in Holocene

Ding Dalin1,2, Zhang Xunhua1,2, Yu Junjie2, Wang Xiuqi1,2   

  1. 1. College of Marine Geosciences, Ocean University of China, Qingdao 266100, Shandong, China;
    2. Nanjing Center, China Geological Survey, Nanjing 210016, China
  • Received:2018-05-16 Published:2019-01-18
  • Supported by:
    Supported by Geological Survey Project of China Geological Survey(121201008000182401) and National Marine Geology Special Project of China (DD20160147)

摘要: 浙闽泥质区是全新世高海平面以来沉积物的汇。受东亚季风影响,浙闽沿岸流和台湾暖流具有季节性变化,长江口"夏储冬输"的沉积物输运模式对东海内陆架泥质区的形成有关键作用。浙闽泥质区的潜在物源主要有长江、浙闽河流以及台湾西部山地河流,以长江物质为主。黏土矿物、稀土元素、Sr-Nd同位素、环境磁学等方法是物源研究的重要手段。长江物质以伊利石为主,蒙脱石含量较少,高岭石和绿泥石含量中等;而台湾物质以伊利石和绿泥石为主,没有蒙脱石。磁黄铁矿是台湾河流沉积物特有的磁性矿物,可作为大陆河流与台湾河流物源识别的指标。泥质区位于东亚季风区,受低纬热带过程和高纬大气环流的影响,气候变化具有波动性。沉积物敏感粒级反演的东亚冬季风(EAWM)只记录了泥质区形成以来的气候变化,不能代表整个全新世。受台湾暖流和浙闽沿岸流的双重影响,敏感粒级作为EAWM演化的指标需进一步深入研究。

关键词: 全新世, 物源, 黏土矿物, 稀土元素, 东亚冬季风

Abstract: The Zhejiang-Fujian mud area has been the sink of sediments since the formation of Holocene high sea level. Under the influence of the East Asian monsoon, the variation of Zhejiang-Fujian Coastal Current and Taiwan Warm Current is characterized by seasonality, the sediment transport pattern "trapped in summer and transported in winter" in the Yangtze River mouth plays a key role in the formation of the East China Sea inner-shelf mud area. The potential sources of the Zhejiang-Fujian mud area are the Yangtze River, Zhejiang-Fujian rivers and western Taiwan mountain rivers, and the Yangtze River materials are the main source. Through the analysis on clay minerals, rare earth elements, SrNd isotopes and environmental magnetism, the Yangtze River is dominated by illite, followed by kaolinite and chlorite, with less smectite. In the rivers of western Taiwan, illite and chlorite are the main clay materials, with no smectite. Pyrrhotite is a unique magnetic mineral of Taiwan river sediments, and can be used as an indicator of the source identification of sediments from rivers in mainland or Taiwan. The mud area is located in the East Asian monsoon region. Under the combined influence of the tropical processes in the low latitude and high latitude atmospheric circulation, the climate change is fluctuating. The changes in the East Asian Winter Monsoon (EAWM) reflected in sediment-sensitive grain size only record the climate changes since the formation of the muddy area, and cannot represent the entire Holocene. Influenced by the Taiwan Warm Current and Zhejiang-Fujian Coastal Current, the sensitive grain size needs to be further studied as an indicator of EAWM evolution.

Key words: Holocene, provenance, clay mineral, rare earth element, East Asian winter monsoon

中图分类号: 

  • P736.21
[1] Lambeck K,Yokoyama Y,Purcell T.Into and out of the Last Glacial Maximum:Sea-Level Change During Oxygen Isotope Stages 3 and 2[J].Quaternary Science Reviews,2002,21(1/2/3):343-360.
[2] Yokoyama Y,Lambeck K,De Deckker P,et al.Timing of the Last Glacial Maximum from Observed Sea-Level Minima[J].Nature,2000,406:713-716.
[3] Yokoyama Y,Lambeck K,De Deckker P,et al.Timing for the Maximum of the Last Glacial Constrained by Lowest Sea-Level Observations[J].Nature,2000,406:713-716.
[4] 李广雪,杨子赓,刘勇.中国东部海域海底沉积环境成因研究[M].北京:科学出版社,2005. Li Guangxue,Yang Zigeng,Liu Yong.Study on the Causes of Seabed Sedimentary Environment in the East China Seas[M].Beijing:Science Press,2005.
[5] Saito Y,Katayama H,Ikehara K,et al.Transgressive and Highstand Systems Tracts and Post-Glacial Transgression,the East China Sea[J].Sedimentary Geology,1998,122(1/2/3/4):217-232.
[6] Mi B,Liu S,Shi X,et al.A High Resolution Record of Rare Earth Element Compositional Changes from the Mud Deposit on the Inner Shelf of the East China Sea:Implications for Paleoenvironmental Changes[J].Quaternary International,2017,447:35-45.
[7] Yang S,Bi L,Li C,et al.Major Sinks of the Changjiang (Yangtze River)-Derived Sediments in the East China Sea During the Late Quaternary[J].Geological Society,London,Special Publications,2016,429(1):137-152.
[8] Dou Y,Yang S,Shi X,et al.Provenance Weathering and Erosion Records in Southern Okinawa Trough Sediments Since 28 ka:Geochemical and Sr-Nd-Pb Isotopic Evidences[J].Chemical Geology,2016,425:93-109.
[9] Xiao S,Li A,Liu J P,et al.Coherence Between Solar Activity and the East Asian Winter Monsoon Variability in the Past 8000 Years from Yangtze River-Derived Mud in the East China Sea[J].Palaeogeography,Palaeoclimatology,Palaeoecology,2006,237(2-4):293-304.
[10] Liu J P,Li A C,Xu K H,et al.Sedimentary Features of the Yangtze River-Derived Along-Shelf Clinoform Deposit in the East China Sea[J].Continental Shelf Research,2006,26(17):2141-2156.
[11] He M,Zheng H,Huang X,et al.Yangtze River Sedi-ments from Source to Sink Traced with Clay Mineralogy[J].Journal of Asian Earth Sciences,2013,69:60-69.
[12] Liu S,Shi X,Fang X,et al.Spatial and Temporal Dis-tributions of Clay Minerals in Mud Deposits on the Inner Shelf of the East China Sea:Implications for Paleoenvironmental Changes in the Holocene[J].Quaternary International,2014,349:270-279.
[13] 王亮,范德江,李巍然,等.东海内陆架泥质区百年来黏土矿物组成变化及其环境意义[J].海洋学报.2015,37(5):87-100. Wang Liang,Fan Dejiang,Li Weiran,et al.The Variations of Clay Minerals Contents on the Inner Shelf of the East China Sea in the Last One Hundred Years and Its Environment Implication[J].Acta Oceanologica Sinica,2015,37(5):87-100.
[14] Wen C,Graf H,Ronghui H.The Interannual Varia-bility of East Asian Winter Monsoon and Its Relation to the Summer Monsoon[J].Advances in Atmospheric Sciences,2000,17(1):48-60.
[15] Xiao J L,An Z S,Liu T S,et al.East Asian monsoon Variation During the Last 130000 Years:Evidence from the Loess Plateau of Central China and Lake Biwa of Japan[J].Quaternary Science Reviews,1999,18(1):147-157.
[16] Wang L,Li J,Lu H,et al.The East Asian Winter Monsoon over the Last 15000 Years:Its Links to High-Latitudes and Tropical Climate Systems and Complex Correlation to the Summer Monsoon[J].Quaternary Science Reviews,2012,32:131-142.
[17] Sagawa T,Kuwae M,Tsuruoka K,et al.Solar Forcing of Centennial-Scale East Asian Winter Monsoon Variability in the Mid-to Late Holocene[J].Earth and Planetary Science Letters,2014,395:124-135.
[18] Jia G,Bai Y,Yang X,et al.Biogeochemical Evidence of Holocene East Asian Summer and Winter Monsoon Variability from a Tropical Maar Lake in Southern China[J].Quaternary Science Reviews,2015,111:51-61.
[19] Wang L,Sarnthein M,Erlenkeuser H,et al.East Asian Monsoon Climate During the Late Pleistocene:High-Resolution Sediment Records from the South China Sea[J].Marine Geology,1999,156(1):245-284.
[20] Tu L,Zhou X,Cheng W,et al.Holocene East Asian Winter Monsoon Changes Reconstructed by Sensitive Grain Size of Sediments from Chinese Coastal Seas:A Review[J].Quaternary International,2017,440:82-90.
[21] 赵泉鸿,翦知湣,张在秀,等.东海内陆架泥质沉积区全新世古环境变迁:有孔虫证据[J].海洋地质与第四纪地质,2009,29(2):75-82. Zhao Quanhong,Jian Zhimin,Zhang Zaixiu,et al.Holocene Paleoenvironmental Changes of the Inner-Shelf Mud Area of the East China Sea:Evidence from Foraminiferal Faunas[J].Marine Geology & Quaternary Geology,2009,29(2):75-82.
[22] Zheng Y,Kissel C,Zheng H B,et al.Sedimentation on the Inner Shelf of the East China Sea:Magnetic Properties,Diagenesis and Paleoclimate Implications[J].Marine Geology,2010,268(1):34-42.
[23] Yang W,Zhou X,Xiang R,et al.Reconstruction of Winter Monsoon Strength by Elemental Ratio of Sediments in the East China Sea[J].Journal of Asian Earth Sciences.2015,114:467-475.
[24] Xu F,Li A,Xu K,et al.Cold Event at 5500 a BP Recorded in Mud Sediments on the Inner Shelf of the East China Sea[J].Chinese Journal of Oceanology and Limnology,2009,27(4):975-984.
[25] Liu J P,Xu K H,Li A E A,et al.Flux and Fate of Yangtze River Sediment Delivered to the East China Sea[J].Geomorphology,2007,85(3):208-224.
[26] 秦蕴珊.东海地质[M].北京:科学出版社,1987. Qin Yunshan.Geology of the East China Sea[M].Beijing:Science Press,1987.
[27] Hori K,Saito Y,Zhao Q,et al.Sedimentary Facies and Holocene Progradation Rates of the Changjiang (Yangtze) Delta,China[J].Geomorphology,2001,41(2):233-248.
[28] Liu J,Saito Y,Kong X,et al.Sedimentary Record of Environmental Evolution off the Yangtze River Estuary,East China Sea,During the Last~13000 Years,with Special Reference to the Influence of the Yellow River on the Yangtze River Delta During the Last 600 Years[J].Quaternary Science Reviews,2010,29(17):2424-2438.
[29] 肖尚斌,李安春.东海内陆架泥区沉积物的环境敏感粒度组分[J].沉积学报,2005,23(1):122-129. Xiao Shangbin,Li Anchun.A Study on Environ-mentally Sensitive Grain-Size Population in Inner Shelf of the East China Sea[J].Acta Sedimentologica Sinica,2005,23(1):122-129.
[30] 肖尚斌,李安春,陈木宏,等.近8 ka东亚冬季风变化的东海内陆架泥质沉积记录[J].地球科学:中国地质大学学报,2005,30(5):573-581. Xiao Shangbin,Li Anchun,Chen Muhong,et al.Recent 8 ka Mud Records of the East Asian Winter Monsoon from the Inner Shelf of the East China Sea[J].Earth Science:Journal of China University of Geosciences,2005,30(5):573-581.
[31] Zhao Y,Zou X,Liu Q,et al.Clay Mineralogy Indicates the Muddy Sediment Provenance in the Estuarine-Inner Shelf of the East China Sea[J].Journal of Asian Earth Sciences,2018,152:69-79.
[32] Wang K,Zheng H,Tada R,et al.Millennial-Scale East Asian Summer Monsoon Variability Recorded in Grain Size and Provenance of Mud Belt Sediments on the Inner Shelf of the East China Sea During Mid-to Late Holocene[J].Quaternary international.2014,349:79-89.
[33] 徐方建,李安春,万世明,等.东海内陆架泥质区中全新世环境敏感粒度组分的地质意义[J].海洋学报, 2009,31(3):95-102. Xu Fangjian,Li Anchun,Wan Shiming,et al.The Geological Significance of Environmental Sensitive Grain-Size Populations in the Mud Wedge of the East China Sea During the Mid-Holocene[J].Acta Oceanologica Sinica,2009,31(3):95-102.
[34] Zheng Y,Zheng H,Kissel C,et al.Sedimentation Rate Control on Diagenesis,East China Sea Sediments[J].Physics of the Earth & Planetary Interiors,2011,187(3/4):301-309.
[35] Liu S,Shi X,Liu Y,et al.Holocene Paleoclimatic Reconstruction Based on Mud Deposits on the Inner Shelf of the East China Sea[J].Journal of Asian Earth Sciences,2013,69(12):113-120.
[36] Chen J,Ma J,Xu K,et al.Provenance Discrimination of the Clay Sediment in the Western Taiwan Strait and Its Implication for Coastal Current Variability During the Late-Holocene[J].The Holocene,2016,27(1):110-121.
[37] Wu H,Deng B,Yuan R,et al.Detiding Measurement on Transport of the Changjiang-Derived Buoyant Coastal Current[J].Journal of Physical Oceanography,2013,43(11):2388-2399.
[38] 曾定勇,倪晓波,黄大吉.冬季浙闽沿岸流与台湾暖流在浙南海域的时空变化[J].中国科学:地球科学, 2012,42(7):1123-1134. Zeng Dingyong,Ni Xiaobo,Huang Daji.Temporal and Spatial Variability of the Zhe-Min Coastal Current and the Taiwan Warm Current in Winter in the Southern Zhejiang Coastal Sea[J].Scientia Sinica Terrae,2012,42(7):1123-1134.
[39] 中华人民共和国水利部.中国河流泥沙公报:2016[R].北京:中国水利水电出版社,2017. The Ministry of Water Resources of the People's Republic of China.Bulletin of River Sediments in China:2016[R].Beijing:China Water & Power Press,2017.
[40] Milliman J D,Huang-Ting S,ZuoSheng Y,et al.Transport and Deposition of River Sediment in the Changjiang Estuary and Adjacent Continental Shelf[J].Continental Shelf Research,1985,4(1/2):37-45.
[41] 程裕淇.中国区域地质概论[M].北京:地质出版社,1994. Cheng Yuqi.Introduction to Regional Geology of China[M].Beijing:Geological Publishing House,1994.
[42] Liew P M,Pirazzoli P A,Hsieh M L,et al.Holocene Tectonic Uplift Deduced from Elevated Shorelines,Eastern Coastal Range of Taiwan[J].Tectono-physics,1993,222(1):55-68.
[43] Dadson S J,Hovius N,Chen H,et al.Links Between Erosion,Runoff Variability and Seismicity in the Taiwan Orogen[J].Nature,2003,426:648-651.
[44] Ho C S.A Synthesis of the Geologic Evolution of Taiwan[J].Tectonophysics,1986,125(1/2/3):1-16.
[45] 沈焕庭,李九发,朱慧芳,等.长江河口悬沙输移特性[J].泥沙研究,1986(1):1-13. Shen Huanting,Li Jiufa,Zhu Huifang,et al.Transport of the Suspended Sediments in the Changjiang Estuary[J].Journal of Sediment Research,1986(1):1-13.
[46] Mckee B A,Nittrouer C A,Demaster D J.Concepts of Sediment Deposition and Accumulation Applied to the Continental Shelf Near the Mouth of the Yangtze River[J].Geology,1983,87(2/3):1354-1360.
[47] 苏纪兰.中国近海的环流动力机制研究[J].海洋学报.2001,23(4):1-16. Su Jilan.A Review of Circulation Dynamics of the Coastal Oceans Near China[J].Acta Oceanologica Sinica,2001,23(4):1-16.
[48] Mcintyre A,Kipp N G,Bé A W,et al.Glacial North Atlantic 18000 Years Ago:A CLIMAP Recons-truction[J].Geological Society of America Memoirs,1976,145:43-76.
[49] Clark P U,Mix A C.Ice Sheets and Sea Level of the Last Glacial Maximum[J].Quaternary Science Reviews,2002,21(1):1-7.
[50] deMahiques M M,Hanebuth T J J,Martins C C,et al.Mud Depocentres on the Continental Shelf:A Neglected Sink for Anthropogenic Contaminants from the Coastal Zone[J].Environmental Earth Sciences,2016,75(1):1-12.
[51] 徐方建.末次冰消期以来东海内陆架古环境演化[J].沉积学报,2009,27(1):118-127. Xu Fangjian.Paleoenvironmental Evolution in the Inner Shelf of the East China Sea Since the Last Deglaciation[J].Acta Sedimentologica Sinica,2009,27(1):118-127.
[52] Li G,Li P,Liu Y,et al.SedimentarySystem Response to the Global Sea Level Change in the East China Seas Since the Last Glacial Maximum[J].Earth-Science Reviews,2014,139:390-405.
[53] Park Y A.The changes of Sea Level and Climate During the Late Pleistocene and Holocene in the Yellow Sea Region[J].Korean J Quat Res,1992,6:13-19.
[54] Saito Y.Sea Levels of the Last Glacial in the East China Sea Continental Shelf[J].The Quaternary Research (Daiyonki-Kenkyu),1998,37(3):235-242.
[55] Mix A C,Bard E,Schneider R.Environmental Proce-sses of the Ice Age:Land,Oceans,Glaciers (EPILOG)[J].Quaternary Science Reviews,2001,20(4):627-657.
[56] Lambeck K,Chappell J.Sea Level Change Through the Last Glacial Cycle[J].Science,2001,292:679-686.
[57] Grootes P M,Stuiver M.Oxygen 18/16 Variability in Greenland Snow and Ice with 103-to 105-Year Time Resolution[J].Journal of Geophysical Research:Oceans,1997,102(C12):26455-26470.
[58] Stuiver M,Reimer P J,Reimer R W.CALIB 7.1[EB/OL].[2018-05-10] http://calib.org/calib/calib.html.
[59] Southorn,Kashgarian,Fontugne,et al.Marine Reser-voir Corrections for the Indian Ocean and Southeast Asia[J].Radiocarbon,2002,44(1):167-180.
[60] Yoneda M,Uno H,Shibata Y,et al.Radiocarbon Marine Reservoir Ages in the Western Pacific Estimated by Pre-Bomb Molluscan Shells[J].Nuclear Instruments and Methods in Physics Research Section B:Beam Interactions with Materials and Atoms,2007,259(1):432-437.
[61] Li G X,Liu Y,Yang Z G.Sea-Level Rise and Sedi-mentary Environment Response in the East China Continemental Shelf Since the Last Glacial Maximum[J].Marine Geology & Quaternary Geology,2009.
[62] Rolett B V,Zheng Z,Yue Y.Holocene Sea-Level Change and the Emergence of Neolithic Seafaring in the Fuzhou Basin (Fujian,China)[J].Quaternary Science Reviews,2011,30(7):788-797.
[63] Ma T,Zheng Z,Man M,et al.Holocene Fire and Forest Histories in Relation to Climate Change and Agriculture Development in Southeastern China[J].Quaternary International,2018,488:30-40.
[64] Huang K,Zheng Z,Liao W,et al.Reconstructing Late Holocene Vegetation and Fire Histories in Monsoonal Region of Southeastern China[J].Palaeogeography,Palaeoclimatology,Palaeoecology,2014,393:102-110.
[65] Atahan P,Itzstein-Davey F,Taylor D,et al.Holocene-Aged Sedimentary Records of Environmental Changes and Early Agriculture in the Lower Yangtze,China[J].Quaternary Science Reviews,2008,27(5):556-570.
[66] Yi S,Saito Y,Zhao Q,et al.Vegetation and Climate Changes in the Changjiang (Yangtze River) Delta,China,During the Past 13000 Years Inferred from Pollen Records[J].Quaternary Science Reviews,2003,22(14):1501-1519.
[67] Zhang M,Wei X,Sun P,et al.The Effect of Forest Harvesting and Climatic Variability on Runoff in a Large Watershed:The Case Study in the Upper Minjiang River of Yangtze River Basin[J].Journal of Hydrology,2012,464:1-11.
[68] Ren G.Decline of the Mid to Late Holocene Forests in China:Climatic Change or Human Impact?[J].Journal of Quaternary Science,2000,15(3):273-281.
[69] Xu K,Milliman J D,Li A,et al.Yangtze-and Taiwan-Derived Sediments on the Inner Shelf of East China Sea[J].Continental Shelf Research,2009,29(18):2240-2256.
[70] 石学法,刘升发,乔淑卿,等.东海闽浙沿岸泥质区沉积特征与古环境记录[J].海洋地质与第四纪地质,2010,30(4):19-30. Shi Xuefa,Liu Shengfa,Qiao Shuqing,et al.Depositional Features and Paleoenvironment Records of the Mud Deposits in Min-Zhe Coastal Mud Area,East China Sea[J].Marine Geology & Quaternary Geology,2010,30(4):19-30.
[71] 范德江,孙效功,杨作升,等.沉积物物源定量识别的非线性规划模型:以东海陆架北部表层沉积物物源识别为例[J].沉积学报,2002,20(1):30-33. Fan Dejiang,Sun Xiaogong,Yang Zuosheng,et al.A Mathematical Model on the Quantitative Provenance Identification:Take the Identification of the Surface Sediment Sources from ECS as Example[J].Acta Sedimentologica Sinica,2002,20(1):30-33.
[72] Zheng H.Birth of the Yangtze River:Age and Tectonic-Geomorphic Implications[J].National Science Review,2015,2(4):438-453.
[73] 郑洪波,魏晓椿,王平,等.长江的前世今生[J].中国科学:地球科学,2017,47(4):385-393. Zheng Hongbo,Wei Xiaochun,Wang Ping,et al.Geological Evolution of the Yangtze River[J].Scientia Sinica Terrae,2017,47(4):385-393.
[74] Song B,Li Z,Saito Y,et al.Initiation of the Chang-jiang (Yangtze) Delta and Its Response to the Mid-Holocene Sea Level Change[J].Palaeogeography,Palaeoclimatology,Palaeoecology,2013,388:81-97.
[75] Wang X,Shi X,Wang G,et al.Late Quaternary Sedimentary Environmental Evolution Offshore of the Hangzhou Bay,East China-Implications for Sea Level Change and Formation of Changjiang Alongshore Current[J].Chinese Journal of Oceanology and Limnology,2015,33(3):748.
[76] 席雅娟.钱塘江主要支流及干流沉积物的黏土矿物空间分布特征与影响因素研究[D].华东师范大学,2015. Xi Yajuan.The Research of Clay Mineral Spatial Distribution Characteristic and Influencing Factors in the Main Tributaries and Mainstream of Qiantang River[D].East China Normal University,2015.
[77] 杨晓顺.瓯江悬沙的黏土矿物[J].海洋通报,1995,14(3):86-92. Yang Xiaoshun.Clay Minerals of Suspended Sediments in Oujiang River[J].Marine Science Bulletin,1995,14(3):86-92.
[78] 冯华,高爱国,朱旭旭,等.闽江下游及河口区表层沉积物黏土矿物含量分布特征及其环境意义[J].应用海洋学学报, 2014,33(3):418-424. Feng Hua,Gao Aiguo,Zhu Xuxu,et al.Distribution Characteristic of Clay Minerals Contents in Minjiang River and Its Environmental Significance[J].Journal of Applied of Oceanography,2014,33(3):418-424.
[79] Xu Y,Chen J,Wang A,et al.Clay Minerals in Surface Sediments of the Taiwan Strait and Their Provenance[J].Acta Sedimentologica Sinica,2013,31(1):120-129.
[80] 刘升发.全新世以来东海内陆架泥质区沉积作用及古环境演变[D].中国科学院研究生院,2009. Liu Shengfa.Sedimentary Function and Paleoenvironment Evolution of the Inner-Shelf Mud Area of East China Sea Since the Holocene[D].University of Chinese Academy of Sciences,2009.
[81] 肖尚斌,李安春,蒋富清,等.近2 ka闽浙沿岸泥质沉积物物源分析[J].沉积学报,2005,23(2):268-274. Xiao Shangbin,Li Anchun,Jiang Fuqing,et al.Provenance Analysis of Mud Along the Min-Zhe Coast Since 2 ka BP[J].Acta Sedimentologica Sinica,2005,23(2):268-274.
[82] Zhou X,Li A,Jiang F,et al.A Preliminary Study on Fingerprinting Approach in Marine Sediment Dynamics with the Rare Earth Elements[J].Acta Oceanologica Sinica,2010,29(4):62-77.
[83] Li C,Shi X,Kao S,et al.Rare Earth Elements in Fine-Grained Sediments of Major Rivers from the High-Standing Island of Taiwan[J].Journal of Asian Earth Sciences,2013,69:39-47.
[84] 朱爱美,刘季花,张辉,等.东海内陆架泥质区表层沉积物稀土元素的分布特征[J].海洋地质与第四纪地质,2012,32(1):1-10. Zhu Aimei,Liu Jihua,Zhang Hui,et al.Distribution Pattern of REEs in the Inner-Shelf Mud Area of East China Sea[J].Marine Geology & Quaternary Geology,2012,32(1):1-10.
[85] Rudnick R L,Gao S.Composition of the Continental Crust[J].Treatise on Geochemistry,2003,3:659.
[86] Anders E,Grevesse N.Abundances of the Elements:Meteoritic and Solar[J].Geochimica et Cosmochimica Acta,1989,53(1):197-214.
[87] 杨守业,李超,王中波,等.现代长江沉积物地球化学组成的不均一性与物源示踪[J].第四纪研究,2013,33(4):645-655. Yang Shouye,Li Chao,Wang Zhongbo,et al.Heterogeneity of Geochemical Compositions of the Changjiang River Sediments and Provenance Indication[J].Quaternary Sciences,2013,33(4):645-655.
[88] Fangjian X,Anchun L,Tiegang L,et al.Rare Earth Element Geochemistry in the Inner Shelf of the East China Sea and Its Implication to Sediment Provenances[J].Journal of Rare Earths,2011,29(7):702-709.
[89] Liu S,Mi B,Fang X,et al.A Preliminary Study of a Sediment Core Drilled from the Mud Area on the Inner Shelf of the East China Sea:Implications for Paleoclimatic Changes During the Fast Transgression Period (13 ka BP-8 ka BP)[J].Quaternary Inter-national,2017.
[90] 杨守业,蒋少涌,凌洪飞,等.长江河流沉积物Sr-Nd同位素组成与物源示踪[J].中国科学:D辑,2007,37(5):682-690. Yang Shouye,Jiang Shaoyong,Ling Hongfei,et al.Sr-Nd Isotope Composition and Source Tracing of Sediments in the Yangtze River[J].Science in China:Series D,2007,37(5):682-690.
[91] Bi L,Yang S,Zhao Y,et al.Provenance Study of the Holocene Sediments in the Changjiang (Yangtze River) Estuary and Inner Shelf of the East China Sea[J].Quaternary International,2017,441:147-161.
[92] 孟宪伟,杜德文,吴金龙.冲绳海槽中段表层沉积物物质来源的定量分离:Sr-Nd同位素方法[J].海洋与湖沼,2001,32(3):319-326. Meng Xianwei,Du Dewen,Wu Jinlong.Quantitative Partition of Mixed Surface Sediments from the Middle Okinawa Trough into Their End-Members Using Sr-Nd Isotope[J].Oceanologia et Limnologia Sinica,2001,32(3):319-326.
[93] Li T,Xu Z,Lim D,et al.Sr-Nd Isotopic Constraints on Detrital Sediment Provenance and Paleoen-vironmental Change in the Northern Okinawa Trough During the Late Quaternary[J].Palaeogeography,Palaeoclimatology,Palaeoecology,2015,430:74-84.
[94] Hu B,Li J,Zhao J,et al.Sr-Nd Isotopic Geoche mistry of Holocene Sediments from the South Yellow Sea:Implications for Provenance and Monsoon Variability[J].Chemical Geology,2018,479:102-112.
[95] Rao W,Mao C,Wang Y,et al.Using Nd-Sr Isotopes and Rare Earth Elements to Study Sediment Provenance of the Modern Radial Sand Ridges in the Southwestern Yellow Sea[J].Applied Geochemistry,2017,81:23-35.
[96] Luo C,Zheng Y,Zheng H,et al.Temporal and Spatial Variations in Magnetic Properties of Suspended Particular Matter in the Yangtze River Drainage and Their Implications[J].Journal of Asian Earth Sciences,2016,124:204-213.
[97] 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[J].沉积学报,2004,22(4):658-663. Wang Yonghong,Shen Huanting,Zhang Weiguo.A Preliminary Comparison of Magnetic Properties of Sediments from the Changjiang and the Huanghe Estuaries[J].Acta Sedimentologica Sinica,2004,22(4):658-663.
[98] 牛军利,杨作升,李云海,等.长江与黄河河口沉积物环境磁学特征及其对比研究[J].海洋科学,2008,32(4):24-30. Niu Junli,Yang Zuosheng,Li Yunhai,et al.The Characteristics of the Environmental Magnetism in Sediment from the River Mouths of the Changjiang River and the Huanghe River and Their Comparison Study[J].Marine Sciences,2008,32(4):24-30.
[99] Horng C S,Huh C A.Magnetic Properties as Tracers for Source-to-Sink Dispersal of Sediments:A Case Study in the Taiwan Strait[J].Earth & Planetary Science Letters,2011,309(1/2):141-152.
[100] Wang Y,Dong H,Li G,et al.Magnetic Properties of Muddy Sediments on the Northeastern Continental Shelves of China:Implication for Provenance and Transportation[J].Marine Geology,2010,274(1/2/3/4):107-119.
[101] 张凯棣,李安春,卢健,等.东海陆架沉积物环境磁学特征及其物源指示意义[J].海洋与湖沼,2017,48(2):246-257. Zhang Kaidi,Li Anchun,Lu Jian,et al.Magnetic Property of the East China Sea Sediment:Indication to the Provenance[J].Oceanologia et Limnologia Sinica,2017,48(2):246-257.
[102] Zheng Y,Zheng H,Deng C,et al.Holocene Paleoma-gnetic Secular Variation from East China Sea and a PSV Sack of East Asia[C].2014,236:69-78.
[103] 曹文红,陈静,马俊强.大陆东南沿海河流与台湾西部河流磁性矿物特征及判源指标[J].第四纪研究,2016,36(1):227-236. Cao Wenhong,Chen Jing,Ma Junqiang.Magnetic Minerals as Tracers for the Mainland Coastal Rivers and West Taiwan Rivers[J].Quaternary Sciences,2016,36(1):227-236.
[104] 徐方建,李安春,李铁刚,等.末次冰消期以来东海内陆架沉积物磁化率的环境意义[J].海洋学报,2011,33(1):91-97. Xu Fangjian,Li Anchun,Li Tiegang,et al.The Paleoenvironmental Significance of Magnetic Susceptibility of Sediments on the East China Sea Inner Shelf Since the Last Deglaciation[J].Acta Oceanologica Sinica,2011,33(1):91-97.
[105] Guo Z T,Ruddiman W F,Hao Q Z,et al.Onset of Asian Desertification by 22 Myr Ago Inferred from Loess Deposits in China[J].Nature,2002,416:159.
[106] Zhisheng A,Kutzbach J E,Prell W L,et al.Evolution of Asian Monsoons and Phased Uplift of the Himalaya-Tibetan Plateau Since Late Miocene Times[J].Nature,2001,411:62-66.
[107] 丁大林,李广雪,徐继尚,等.全新世亚洲季风演变[J].地学前缘,2017,24(4):114-123. Ding Dalin,Li Guangxue,Xu Jishang,et al.Evolution of the Asian Monsoon During the Holocene[J].Geoscience Frontiers,2017,24(4):114-123.
[108] 刘升发,石学法,刘焱光,等.中全新世以来东亚冬季风的东海内陆架泥质沉积记录[J].科学通报,2010,55(14):1387-1396. Liu Shengfa,Shi Xuefa,Liu Yanguang,et al.Records of the East Asian Winter Monsoon from the Mud Area on the Inner Shelf of the East China Sea Since the Mid-Holocene[J].Chinese Science Bulletin,2010,55(14):1387-1396.
[109] Li Y,Morrill C.A Holocene East Asian Winter Monsoon Record at the Southern Edge of the Gobi Desert and Its Comparison with a Transient Simulation[J].Climate Dynamics,2015,45(5/6):1219-1234.
[110] Stott L,Timmermann A,Thunell R.Southern Hemisphere and Deep-Sea Warming Led Deglacial Atmospheric CO2 Rise and Tropical Warming[J].Science,2007,318:435-438.
[111] Berger A,Loutre M.Insolation Values for the Climate of the Last 10 Million Years[J].Quaternary Science Reviews,1991,10(4):297-317.
[112] 王可,郑洪波,Prins Maarten,等.东海内陆架泥质沉积反映的古环境演化[J].海洋地质与第四纪地质,2008,28(4):1-10. Wang Ke,Zheng Hongbo,Prins Maarten,et al.High-Resolution Paleoenvironmental Record of the Mud Sediments of the East China Sea Inner Shelf[J].Marine Geology & Quaternary Geology,2008,28(4):1-10.
[113] Li X,Jian Z,Shi X,et al.A Holocene Record of Millennial-Scale Climate Changes in the Mud Area on the Inner Shelf of the East China Sea[J].Quaternary International,2015,384:22-27.
[114] Bond G,Showers W,Cheseby M,et al.A Pervasive Millennial-Scale Cycle in North Atlantic Holocene and Glacial Climates[J].Science,1997,278:1257-1266.
[115] 李小艳,翦知湣,石学法,等.东海内陆架泥质沉积记录的全新世快速气候波动[J].科学通报,2015,60(4):411-419. Li Xiaoyan,Jian Zhimin,Shi Xuefa,et al.Holocene Abrupt Climate Fluctuations:Sedimentary Record from the Inner-Shelf Mud Area of the East China Sea[J].Chinese Science Bulletin,2015,60(4):411-419.
[116] Zhang X,Jin L,Li N.Asynchronous Variation in the East Asian Winter Monsoon During the Holocene[J].Journal of Geophysical Research:Atmos-pheres,2015,120(11):5357-5370.
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