闽江口外海域晚第四纪地震层序和古河道演变
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摘要
为了查明闽江口外海域晚第四纪地震地层特征,进行了高分辨率浅地震剖面调查,穿透的沉积物厚度最大约90m,划分为6个地震层序,自上向下为U1—U6。U1为全新世(海洋同位素阶段(marine isotope stage,MIS) 1期)海相沉积单元,U3为MIS 3期的滨浅海—河口相,U5为MIS 5期的滨浅海与河流交互相,在MIS 5.2和5.4亚期海平面下降超过15m,发育了河流沉积;U2和U4分别为MIS 2和MIS 4期的河流充填相,而U6为MIS 6期的陆相沉积单元。根据地震层序关系研究了埋藏古河道的断面和分布特征、发育年代、演变及原因等。在全新世初期(11.5ka BP)之前,古闽江呈SE向经研究区南部和海坛岛东面流入东海(台湾海峡北口),随着研究区上游地势不断淤高,在11.5ka BP之后发育了NE向经北部向海到达西引岛附近的古河流,至约9.2ka BP海平面上升到约-30m高度时,全部河流消失于海面之下,闽江最后一次退出研究区。在闽江口东面,埋藏古丘陵的中南部高于现海面下50m(-50m),受其阻挡未能发育向东直接入海的闽江古河道。本文的研究结果提供了研究区自MIS 6末期以来古河流发育和演变等方面的新认识和证据。
High-resolution shallow-seismic surveys were carried out off the Minjiang River estuary in Southeast China in May-July 2005 and October 2008 to March 2009.The maximum sediment penetration was about 90 m.Six seismic units,i.e.,U1-U6,were identified.They formed a serial sedimentary marine-littoral-alluvial sequence deposited during the MIS 1 to MS 6,respectively,of which between subphases MIS 5.2 and 5.4 was a sea level regression when sea level dropped for over 15 m.Based on seismographic interpretation,the distribution,evolution,and formation of the sequences were analyzed.Results revealed paleo-river channels that developed during MIS 2,4,5.2 and 5.4,respectively.In detail,before the Early Holocene(11.5 ka BP),the paleo-Minjiang River flew southeastward through the southern part of the study area and the east of the Haitan Island into the East China Sea(the north entry of the Taiwan Strait).Later,as the upstream of the study area was silted up by alluvial deposition,NE-directed paleo-rivers were developed reaching the Xiyin Island across the northern part of the study area.At about 9.2 ka BP when sea level raised to 30 m below present sea level(BPSL),all paleo-rivers in the study area submerged under the sea,and the Minjiang River retreated from the study area for the last time,and no eastward paleo-rivers into the sea had ever developed due to the barriers of buried paleo-hills(–50 m BPSL) to the east.
High-resolution shallow-seismic surveys were carried out off the Minjiang River estuary in Southeast China in May-July 2005 and October 2008 to March 2009.The maximum sediment penetration was about 90 m.Six seismic units,i.e.,U1-U6,were identified.They formed a serial sedimentary marine-littoral-alluvial sequence deposited during the MIS 1 to MS 6,respectively,of which between subphases MIS 5.2 and 5.4 was a sea level regression when sea level dropped for over 15 m.Based on seismographic interpretation,the distribution,evolution,and formation of the sequences were analyzed.Results revealed paleo-river channels that developed during MIS 2,4,5.2 and 5.4,respectively.In detail,before the Early Holocene(11.5 ka BP),the paleo-Minjiang River flew southeastward through the southern part of the study area and the east of the Haitan Island into the East China Sea(the north entry of the Taiwan Strait).Later,as the upstream of the study area was silted up by alluvial deposition,NE-directed paleo-rivers were developed reaching the Xiyin Island across the northern part of the study area.At about 9.2 ka BP when sea level raised to 30 m below present sea level(BPSL),all paleo-rivers in the study area submerged under the sea,and the Minjiang River retreated from the study area for the last time,and no eastward paleo-rivers into the sea had ever developed due to the barriers of buried paleo-hills(–50 m BPSL) to the east.
引文
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李广雪,刘勇,杨子赓,2009.中国东部陆架沉积环境对末次冰盛期以来海面阶段性上升的响应.海洋地质与第四纪地质,29(4):13-19
李广雪,刘勇,杨子赓等,2004.末次冰期东海陆架平原上的长江古河道.中国科学D辑地球科学,35(3):284-289
李双林,李绍全,杨文达等,2002.东海陆架HY126EA1孔有孔虫壳体的氧、碳同位素记录.海洋学报,24(3):81-87
杨肖琪,宋文隆,陈承惠,1996.台湾海峡地质构造特征.台湾海峡,15(2):127-136
杨建明,1993.闽江口晚第四纪海侵地层的研究.福建师范大学学报(自然科学版),9(1):86-90
汪品先,闵秋宝,卞云华等,1981.我国东部第四纪海侵地层的初步研究.地质学报,55(1):1-13
陈峰,王海鹏,郑志凤等,1998.闽江口水下三角洲的形成与演变I.水下三角洲形成的环境因子与地貌发育.台湾海峡,17(4):396-401
林观得,1982.台湾海峡海底地貌的探讨.台湾海峡,1(2):58-63
周勐佳,吴自银,马胜中等,2016.台湾海峡晚更新世以来的高分辨率地震地层学研究.海洋学报,38(9):76-88
郑荣章,陈桂华,陈锡伟等,2005.福州盆地埋藏晚第四纪沉积地层划分.地震地质,27(4):556-565
姚政权,石学法,2015.渤海湾沿岸第四纪海侵研究进展.海洋地质前沿,31(2):9-16,70
钱建兴,1994.南海8KL岩芯的氧同位素记录与海平面变化.地质学报,68(4):368-378
高金耀,刘保华,2014.中国近海海洋-海洋地球物理.北京:海洋出版社,220-221
蓝东兆,张维林,陈承惠等,1993.晚更新世以来台湾海峡西部的海侵及海平面变化.海洋学报,15(4):77-84
蔡锋,曹超,周兴华等,2013.中国近海海洋-海底地形地貌.北京:海洋出版社,22-23,177-180
Chappell J,Shackleton N J,1986.Oxygen isotopes and sea level.Nature,324(6093):137-140
Mitchum Jr R M,Vail P R,Thompson III S,1977a.Seismic stratigraphy and global changes of sea level,Part 2:the depositional sequence as a basic unit for stratigraphic analysis.In:Payton C E ed.Seismic Stratigraphy:Applications to Hydrocarbon Exploration.Memoir:American Association of Petroleum Geologists,53-62
Mitchum Jr R M,Vail P R,Sangree J B,1977b.Seismic stratigraphy and global changes of sea level,Part 6:stratigraphic interpretation of seismic reflection patterns in depositional sequences.In:Payton C E ed.Seismic Stratigraphy:Applications to Hydrocarbon Exploration.Memoir:American Association of Petroleum Geologists,117-133
Sherman C E,Fletcher C H,Rubin K H et al,2014.Sea-level and reef accretion history of Marine Oxygen Isotope Stage 7 and late Stage 5 based on age and facies of submerged late Pleistocene reefs,Oahu,Hawaii.Quaternary Research,81(1):138-150
Sun Z Y,Li G,Yin Y,2015.The Yangtze River deposition in southern Yellow Sea during Marine Oxygen Isotope Stage 3and its implications for sea-level changes.Quaternary Research,83(1):204-215
Waelbroeck C,Labeyrie L,Michel E et al,2002.Sea-level and deep water temperature changes derived from benthic foraminifera isotopic records.Quaternary Science Review,21(1-3):295-305
Wang Y,Zhang Y Z,Zou X Q et al,2012.The sand ridge field of the South Yellow Sea:Origin by river-sea interaction.Marine Geology,291-294:132-146
马宗晋,王乾盈,徐杰等,2002.台湾海峡两岸横向构造的对比研究.中国科学(D辑),32(6):441-451
王珏,1990.闽江河口区晚更新世以来的自然环境变化.台湾海峡,9(1):22-28
王利波,李军,陈正新等,2014.晚更新世以来台湾浅滩西部地层结构与古环境演化.沉积学报,32(6):1089-1099
王张华,赵宝成,陈静等,2008.长江三角洲地区晚第四纪年代地层框架及两次海侵问题的初步探讨.古地理学报,10(1):99-110
王雨灼,1990.福建省第四纪地层的划分.福建地质,9(4):289-306
王海鹏,张培辉,陈峰等,2000.闽江口水下三角洲沉积特征及沉积环境II.晚更新世一全新世沉积特征和沉积环境.台湾海峡,19(2):132-140
王靖泰,汪品先,1980.中国东部晚更新世以来海面升降与气候变化的关系.地理学报,35(4):299-312
刘阿成,吕文英,蔡峰,2005.广东汕头南部近海晚第四纪埋藏古河曲的研究.海洋与湖沼,36(2):104-110
刘阿成,陆琦,吴巍,2017.南黄海太阳沙西侧海域晚第四系地震层序和沉积环境演变.海洋学研究,35(2):11-22
刘奎,庄振业,刘冬雁等,2009.长江口外陆架区埋藏古河道研究.海洋学报,31(5):80-88
刘振夏,Berne S,L'Atalante科学考察组,1999.中更新世以来东海陆架的古环境.海洋地质与第四纪地质,19(2):1-10
许江,朱嘉,张异彪等,2010.平潭海域地震层序及地层层序特征.地球物理学进展,25(2):396-402
李广雪,刘勇,杨子赓,2009.中国东部陆架沉积环境对末次冰盛期以来海面阶段性上升的响应.海洋地质与第四纪地质,29(4):13-19
李广雪,刘勇,杨子赓等,2004.末次冰期东海陆架平原上的长江古河道.中国科学D辑地球科学,35(3):284-289
李双林,李绍全,杨文达等,2002.东海陆架HY126EA1孔有孔虫壳体的氧、碳同位素记录.海洋学报,24(3):81-87
杨肖琪,宋文隆,陈承惠,1996.台湾海峡地质构造特征.台湾海峡,15(2):127-136
杨建明,1993.闽江口晚第四纪海侵地层的研究.福建师范大学学报(自然科学版),9(1):86-90
汪品先,闵秋宝,卞云华等,1981.我国东部第四纪海侵地层的初步研究.地质学报,55(1):1-13
陈峰,王海鹏,郑志凤等,1998.闽江口水下三角洲的形成与演变I.水下三角洲形成的环境因子与地貌发育.台湾海峡,17(4):396-401
林观得,1982.台湾海峡海底地貌的探讨.台湾海峡,1(2):58-63
周勐佳,吴自银,马胜中等,2016.台湾海峡晚更新世以来的高分辨率地震地层学研究.海洋学报,38(9):76-88
郑荣章,陈桂华,陈锡伟等,2005.福州盆地埋藏晚第四纪沉积地层划分.地震地质,27(4):556-565
姚政权,石学法,2015.渤海湾沿岸第四纪海侵研究进展.海洋地质前沿,31(2):9-16,70
钱建兴,1994.南海8KL岩芯的氧同位素记录与海平面变化.地质学报,68(4):368-378
高金耀,刘保华,2014.中国近海海洋-海洋地球物理.北京:海洋出版社,220-221
蓝东兆,张维林,陈承惠等,1993.晚更新世以来台湾海峡西部的海侵及海平面变化.海洋学报,15(4):77-84
蔡锋,曹超,周兴华等,2013.中国近海海洋-海底地形地貌.北京:海洋出版社,22-23,177-180
Chappell J,Shackleton N J,1986.Oxygen isotopes and sea level.Nature,324(6093):137-140
Mitchum Jr R M,Vail P R,Thompson III S,1977a.Seismic stratigraphy and global changes of sea level,Part 2:the depositional sequence as a basic unit for stratigraphic analysis.In:Payton C E ed.Seismic Stratigraphy:Applications to Hydrocarbon Exploration.Memoir:American Association of Petroleum Geologists,53-62
Mitchum Jr R M,Vail P R,Sangree J B,1977b.Seismic stratigraphy and global changes of sea level,Part 6:stratigraphic interpretation of seismic reflection patterns in depositional sequences.In:Payton C E ed.Seismic Stratigraphy:Applications to Hydrocarbon Exploration.Memoir:American Association of Petroleum Geologists,117-133
Sherman C E,Fletcher C H,Rubin K H et al,2014.Sea-level and reef accretion history of Marine Oxygen Isotope Stage 7 and late Stage 5 based on age and facies of submerged late Pleistocene reefs,Oahu,Hawaii.Quaternary Research,81(1):138-150
Sun Z Y,Li G,Yin Y,2015.The Yangtze River deposition in southern Yellow Sea during Marine Oxygen Isotope Stage 3and its implications for sea-level changes.Quaternary Research,83(1):204-215
Waelbroeck C,Labeyrie L,Michel E et al,2002.Sea-level and deep water temperature changes derived from benthic foraminifera isotopic records.Quaternary Science Review,21(1-3):295-305
Wang Y,Zhang Y Z,Zou X Q et al,2012.The sand ridge field of the South Yellow Sea:Origin by river-sea interaction.Marine Geology,291-294:132-146
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