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中国东北、韩国东南和日本西南部早白垩世非海相与海相地层对比,非海相软体动物的生物年代学和古地理意义 被引量:8

NON-MARINE AND MARINE STARTIGRAPHIC CORRELATION OF EARLY CRETACEOUS DEPOSITS IN NE CHINA,SE KOREA AND SW JAPAN,NON-MARINE MOLLUSCAN BIOCHRONOLOGY,AND PALAEOGEOGRAPHIC IMPLICATIONS
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摘要 根据非海相与海相,特别是共同的海相和非海相软体动物化石的对比,并结合放射性同位素测年,中国东北黑龙江东部和辽宁西部,韩国东南部庆尚盆地,日本西南部内带岐阜县北部牧户/庄川地区和外带四国德岛和物部地区早白垩世地层得到了对比,产自这些地层的非海相软体动物的时代也因此受到了约束。著名的中国东北含煤地层龙爪沟和鸡西群,盛产热河生物群/动物群的热河群的时代均为欧特里沃期/巴列姆期阿普特期,它们的上覆地层桦山群和孙家湾组为阿尔必期。韩国西南部新洞群和除金洞组以外的河阳群为阿普特期阿尔必期,不整合于新洞群之下的卯谷组主要为欧特里沃期。日本西南部内带的牧户/庄川地区的手取群和外带德岛和物部地区的物部川群均为欧特里沃期阿尔必期。Cuniopsis kihongi,Nakamuranaia leei,Koreanaia cheongi和Trigonioides(Wakinoa)tetoriensis的时代为欧特里沃期早巴列姆期。Viviparus onogoensis,Unio ogamigoensis,Myrene(Mesocorbicular)tetoriensis及Tetoria(Tetoria)yokoyami为欧特里沃期阿普特期。Arguniella cf.quadrata,A.cf.ventricosa,Sphaerium(Sphaerium)anderssoni,Probaicalia vitimensis和Pr.gerassimovi为欧特里沃期/巴列姆期阿普特期。Nakamuranaia chingshanensis,Plicatounio(Plicatounio)multiplicatus,Sphaerium(Sphaerium)coreanicum和Micromelania?katoensis为阿普特期阿尔必期。Nippononaia sinensis,Nip.tetoriensis,Nip.ryosekiana和Trigo-nioides(Wakinoa)wakinoensis是阿普特期的标志。Trigonioides(Trigonioides)quadratus,T.(T.)heilongjiangensis,Plicatounio(Plicatounio)naktongensis,Unio longus与Sphaerium(Sphaerium)chintaoense为晚阿普特期阿尔必期或阿尔必期的标志化石。我国东北、韩国东南和日本西南部非海相,特别是淡水软体动物接近的相似性表明这三地区在早白垩世时相连,并处于同一水系。但是,在欧特里沃期阿尔必期期间,这一陆块的东部,即频临古太平洋的日本西南部的外带因地势低而多被海水覆盖,在牧户/庄川和黑龙江东部存有遭受海侵的浅而窄的海湾,凡兰吟期,特别是欧特里沃期/巴列姆期之前,中国东北韩国东南部日本西南部陆块为受造山运动引起的隆起和沉降活动影响的高低不平的高原,经受了广泛而长期的剥蚀。多数含有包括熔岩和凝灰岩在内的火山岩,并与北东北北东方向的断裂带近于平行分布的非海相白垩纪盆地直至欧特里沃期/早巴列期(有些地区可能稍早(凡兰吟期))(134~126Ma),即华北克拉通破坏的高峰期(130~120Ma)才形成。这一现象表明,这些盆地受断裂,特别是伴随有强烈火山喷发和时而局部海侵的沿着古太平洋西北缘和郯庐断裂带的构造运动的控制。 On the basis of non-marine and marine correlation, particularly between the common marine and non-marine molluscan fossils, together with radiometric dating, the Early Cretaceous strata of eastern Heilongjiang and western Liaoning in NE China, the Gyeongsang Basin of SE Korea and the Makito/Shokawa area of northern Gifu in the Inner Zone, and the Tokushima and Monobe areas of Shikoku in the Outer Zone of SW Japan are correlated, and, as a result, the ages of the non-marine molluscs yielded from these strata are constrained. The well-known coal-bearing Longzhaogou and Jixi groups and the Jehol Biota/Fauna-bearing Jehol Group of NE China are all Hauterivian/Barre- mian-Aptian in age, and the overlying Huashan Group and Suinjiawan Formation are Albian. The Sindong Group and the Hayang Group, with the exception of the Jindong Formation, in SE Korea is Aptian-Albian, and the Myogog Formation unconformably underlying the Sindong Group is mainly Hauterivian. The Tetori Group in the Makito/Shokawa area and the Monobegawa Group in the Tokushima and Monobe areas of SW Japan are both Hauterivian-Abian. Cuniopsis kihongi, Nakamuranaia leei, Koreanaia cheongi and Trigonioides (Wakinoa) tetoriensis are Hauterivian-early Barremian in age. Viviparus onogoensis, Unio ogamigoensis, Myrene (Mesocorbicular) tetoriensis and Tetoria (Tetoria) yokoyami range from Hauterivian to Aptian. Arguniella cf. quadrata, A. cf. ventricosa, Sphaerium (Sphaerium) anders- soni, Probaicalia vitimensis and Pr. gerassimovi range from Hauterivian/Barremian to Aptian. Nakamuranaia ching- shanensis, Plicatounio (Plicatounio) multiplicatus, Sphaerium (Sphaerium) coreanicum and Micromelania? katoensis are Aptian-Albian. Nippononaia sinensis, Nip. tetoriensis, Nip. ryosekiana and Trigonioides (Wakinoa) wakinoensis are good indicators of the Aptian. Trigonioides (Trigonioides) quadratus, T. (1.) heilongjiangensis, Plicatounio (Plicatounio) naktongensis, Unio longus and Sphaerium (Sphaerium) chintaoense are good indicators of late Aptian-Albian or Albian. The clo.se resemblances of Hauterivian-Albian non-marine, particularly freshwater, bivalves in NE China, SE Korea and SW Japan indicate that all three areas were connected and contained a single fluvial system during the Early Cretaceous. However, the eastern part of this landmass, the Outer Zone of SW Japan facing the Palaeo-Pacific, was low topographi- cally and mainly occupied by the sea in Hauterivian-Albian time, and there were some shallow and narrow embay- ment(s) that were subjected to marine transgressions in the Makito/Shokawa area and eastern Heilongjiang. Before the Valanginian, and particularly before the Hauterivian/Barremian, the NE China-SE Korea-SW Japan landmass was a plateau that was affected by uplift and subsidence associated with orogeny, which led to widespread and long-lasting erosion. The non-marine Cretaceous basins, containing volcanic rocks including lavas and tufts, oriented subparallel to NE- to NNE-trending fault zones, mostly did not develop until the Hauterivian/Barremian, although possibly a little earlier (Valanginian) in some areas (134- 126 Ma), within the peak time (130-120 Ma) of destruction of the North China Craton, indicating that they were controlled by faults, associated with tectonic movements and violent volcanic eruptions and local transgressions along the northwestern margin of the Palaeo-Pacific and the Tan-Lu fault system.
出处 《地层学杂志》 CSCD 北大核心 2012年第2期357-381,共25页 Journal of Stratigraphy
基金 国家自然科学基金(No.91114201) 国家重点基础研究发展计划(2012CB821906) 中国地质调查局(1212011120116)资助研究和出版~~
关键词 非海相与海相 生物地层对比 非海相软体动物的生物年代学 古地理意义 早白垩世 中国 韩国 日本 non-marine and marine, biostratigraphic correlation, non-marine molluscan biochronology, palaeo-geographic implications, Early Cretaceous, China, Korea, Japan
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