Late Triassic Deep Water Trace Fossils and Their Sedimentary Environment in the Jinmuda,Rangtang,Sichuan

YANG Feng qing; XIONG Wei

The study area,Jinmuda,Rangtang county, Sichuan province is located in the southeast of Aba Mass. During the early period of Late Triassic, deep water detrital sediments, which can be divided into Zhuwo Formation and Xinduqiao Formation, deposited in this area.The area is one part of Songpan-Ganze trough. For the first time,plenty of trace fossils have been discovered in Late Triassic Zhuwo Formation and Xind uqiao Formation in Riji Gully of Jinmuda area. After determination, these trace fossils have been classified into 38 ichnogenera and 63 ichnospecies.Most of them belong to deep water trace fossil. According to their composition, the relative abundance in different stratigraphic horizons and distribution features, five ich- noassemblages have been established, namely： (1) Helminthopsis-Paleodictyon ichnoassemblage, (2) Paleodictyon-Neonereites ichnoassemblage, (3) Megagrapton-Imponoglyphus ichnoassemblage, (4) Paleodictyon -Phycosiphon ichnoassemblage, (5) Megagrapton-Helminthoida ichnoassemblage. Based on detailed study it,turns out that all these five ichnoassemblages belong to Nereites ichnofacies. In order to analyze depositional environment, habit classification, characteristics and ichnofacies of trace fossils have been adopted. This paper concludes that each ichnoassemblage represents different depositional environment,ie. the first ichnoassemblage represents bathyal middle-lower slope environment, the second repre- sents abyssal basin margin environment,the third represents bathyal lower slope environment, the fourth repre sents abyssal basin and the fifth represents bathyal lower slope environment. Therefore it could be concluded that the sea level of Late Triassic Zuwo Formation in Riji Gully of Jinmuda area occurred secondary fluctuation with the general tendency of ascent, while from the top part of Zuwo Formation to Xinduqiao Formation, sea level began to descend. Thus, early Late Triassic depositional environment in Jinmuda area experienced the evolution of lower slope-abyssal basin margin-middle-lower slope-abyssal basin-lower slope. The study of deep water trace fossil brings another evidence for clarifying sedimentary water depth and eustatic fluctuation of the study area. Besides, it also provides new evidence for restoring paleogeography of the study area. In the study area,there are many gold deposits occurred in the turbidite of Late Triassic Xinduqiao Formation. Based on the study on trace fossils, the host strata of gold deposit,Xinduqiao Formation,was fomed in lower slope. So the study of trace fossil has a certain significance for searching for gold deposit and studying the formation environment of gold deposit.

China University of Geosciences, Wuhan 430074

Received Date: 1998-11-08

Rev Recd Date: 1999-04-22

Publish Date: 2000-03-10

Key words:

Abstract: The study area,Jinmuda,Rangtang county, Sichuan province is located in the southeast of Aba Mass. During the early period of Late Triassic, deep water detrital sediments, which can be divided into Zhuwo Formation and Xinduqiao Formation, deposited in this area.The area is one part of Songpan-Ganze trough. For the first time,plenty of trace fossils have been discovered in Late Triassic Zhuwo Formation and Xind uqiao Formation in Riji Gully of Jinmuda area. After determination, these trace fossils have been classified into 38 ichnogenera and 63 ichnospecies.Most of them belong to deep water trace fossil. According to their composition, the relative abundance in different stratigraphic horizons and distribution features, five ich- noassemblages have been established, namely： (1) Helminthopsis-Paleodictyon ichnoassemblage, (2) Paleodictyon-Neonereites ichnoassemblage, (3) Megagrapton-Imponoglyphus ichnoassemblage, (4) Paleodictyon -Phycosiphon ichnoassemblage, (5) Megagrapton-Helminthoida ichnoassemblage. Based on detailed study it,turns out that all these five ichnoassemblages belong to Nereites ichnofacies. In order to analyze depositional environment, habit classification, characteristics and ichnofacies of trace fossils have been adopted. This paper concludes that each ichnoassemblage represents different depositional environment,ie. the first ichnoassemblage represents bathyal middle-lower slope environment, the second repre- sents abyssal basin margin environment,the third represents bathyal lower slope environment, the fourth repre sents abyssal basin and the fifth represents bathyal lower slope environment. Therefore it could be concluded that the sea level of Late Triassic Zuwo Formation in Riji Gully of Jinmuda area occurred secondary fluctuation with the general tendency of ascent, while from the top part of Zuwo Formation to Xinduqiao Formation, sea level began to descend. Thus, early Late Triassic depositional environment in Jinmuda area experienced the evolution of lower slope-abyssal basin margin-middle-lower slope-abyssal basin-lower slope. The study of deep water trace fossil brings another evidence for clarifying sedimentary water depth and eustatic fluctuation of the study area. Besides, it also provides new evidence for restoring paleogeography of the study area. In the study area,there are many gold deposits occurred in the turbidite of Late Triassic Xinduqiao Formation. Based on the study on trace fossils, the host strata of gold deposit,Xinduqiao Formation,was fomed in lower slope. So the study of trace fossil has a certain significance for searching for gold deposit and studying the formation environment of gold deposit.

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Reference (11)

[1]	李日辉.陕西富平中奥陶统金粟山组遗迹化石及沉积环境[J].沉积学报，1993，11（2）：27～32
[2]	杨式溥.我国浊流沉积复理石相的遗迹化石及其古生态和古环境[A].见：中国古生物学会编辑，中国古生物学会第十三、十四届学术年会论文集[C].合肥：安徽科学技术出版社，1984.143～165
[3]	杨式溥，宋志敏，梁定益.西藏阿里（狮泉河-多玛）地区中侏罗-早白垩世复理石相遗迹化石[J].地质学报，1982，（4）：302～313
[4]	杨式溥，宋志敏，梁定益.西藏阿里地区晚石炭世-早二叠世复理石相遗迹化石[J].地球科学，1983，（1）：93～104
[5]	杨式溥，宋志敏.西藏阿里地区扎达县中、上三叠统遗迹化石及其地质意义[J].西藏地质，1985，（创刊号）：1～4
[6]	晋慧娟，李育慈，准噶尔盆地晚古生代深水斜坡沉积中的遗迹相及其环境分析[J].中国科学（B辑），1991，（4）：408～415
[7]	杨逢清，王治平，朱世宏.四川松潘马拉墩晚三叠世侏倭组的遗迹化石及沉积环境[J].岩相古地理，1996，16（6）：34～41
[8]	杨逢清，王治平，杨恒书.四川省若尔盖巴西-求吉地区晚三叠世遗迹化石及遗迹相[J].中国区域地质，1997，16（3）：291～296
[9]	Hantzschel W. Trace fossils and problematica[A].In： Teichert C，ed. Treatise on invertibrate paleontology[C].Pt. W, Miscellanea , Geol. Soc. Amer. and Univ. Kansas Supp.1, 1975.1～269.
[10]	Seilacher A. Pattern analysis of Paleodictyon and related trace fossils[A]. In： Crimes T P，Harper J C，eds. Trace fossils　11[C]. Seel House Press, Liverpool, 1977.289～334
[11]	Ekdale A A,Bromley R G，Pemberton S G. The use of trace fossils in sedimentology and stratigraphy[A].SEPM. Tulsa Oklahoma,1984.1～316

Late Triassic Deep Water Trace Fossils and Their Sedimentary Environment in the Jinmuda,Rangtang,Sichuan

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