Jianli Zeng, Tingshan Zhang, Mihai Emilian Popa, Yongdong Wang, Xi Zhang, Liqin Li, Yuanyuan Xu, Ning Lu, Xiaoqing Zhang
{"title":"四川盆地湖底三叠纪末风暴沉积及其驱动机制","authors":"Jianli Zeng, Tingshan Zhang, Mihai Emilian Popa, Yongdong Wang, Xi Zhang, Liqin Li, Yuanyuan Xu, Ning Lu, Xiaoqing Zhang","doi":"10.1007/s11430-022-1360-y","DOIUrl":null,"url":null,"abstract":"<p>Storm deposits or tempestites are event sequences formed by storms, requiring at least a water temperature of 26.5°C. While inland lakes are unlikely to form storm deposits because of their limited width and water temperature. The Upper Triassic Xujiahe Formation in the Sichuan Basin is a set of coal-bearing, clastic sequences with dominant sedimentary facies varying from braided river delta to lacustrine settings, with storm deposits widely reported. In the Zilanba of Guanyuan area, <i>in situ</i> tree trunks on a palaeosol surface in Member V of the Xujiahe Formation provide new evidence of a storm event. Six fallen-down directions of nine <i>in situ</i> tree trunks were predominant in the NW direction, contrary to the palaeocurrent direction of the underlying strata, suggesting that the southeasterlies prevailed during the end-Triassic in the northern Sichuan Basin. Massive mud clasts were frequently recorded in sandstones of the Xujiahe Formation, as well as in the Xindianzi section. These mud clasts showed a rip-up or a plastic deformation with upside-down V-shapes, were capped on an erosional surface, showed no transport traces and were therefore interpreted as a storm lag deposit. The megamonsoonal climate prevailed during the Late Triassic, although the megamonsoons themselves could not generate a storm deposition in the Xujiahe Formation due to its low maximum surface wind speed. The driving mechanism for generating storm deposits in the Xujiahe Formation is suggested to be tropical cyclones over the Tethys Ocean moving eastward, further landfalling on the western margin of the Sichuan Basin. Statistics of storm events in the circum-Tethys region show a widespread storm surge in low latitudes during the end-Triassic. The storm deposits at the top of the Xujiahe Formation represent a sedimentary response to the end-Triassic hyperthermal event.</p>","PeriodicalId":21651,"journal":{"name":"Science China Earth Sciences","volume":"2 1","pages":""},"PeriodicalIF":6.0000,"publicationDate":"2024-06-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"End-Triassic storm deposits in the lacustrine Sichuan Basin and their driving mechanisms\",\"authors\":\"Jianli Zeng, Tingshan Zhang, Mihai Emilian Popa, Yongdong Wang, Xi Zhang, Liqin Li, Yuanyuan Xu, Ning Lu, Xiaoqing Zhang\",\"doi\":\"10.1007/s11430-022-1360-y\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Storm deposits or tempestites are event sequences formed by storms, requiring at least a water temperature of 26.5°C. While inland lakes are unlikely to form storm deposits because of their limited width and water temperature. The Upper Triassic Xujiahe Formation in the Sichuan Basin is a set of coal-bearing, clastic sequences with dominant sedimentary facies varying from braided river delta to lacustrine settings, with storm deposits widely reported. In the Zilanba of Guanyuan area, <i>in situ</i> tree trunks on a palaeosol surface in Member V of the Xujiahe Formation provide new evidence of a storm event. Six fallen-down directions of nine <i>in situ</i> tree trunks were predominant in the NW direction, contrary to the palaeocurrent direction of the underlying strata, suggesting that the southeasterlies prevailed during the end-Triassic in the northern Sichuan Basin. Massive mud clasts were frequently recorded in sandstones of the Xujiahe Formation, as well as in the Xindianzi section. These mud clasts showed a rip-up or a plastic deformation with upside-down V-shapes, were capped on an erosional surface, showed no transport traces and were therefore interpreted as a storm lag deposit. 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引用次数: 0
摘要
风暴沉积或暴风雨岩是由风暴形成的事件序列,要求水温至少达到 26.5°C。而内陆湖泊由于宽度和水温有限,不太可能形成风暴沉积。四川盆地的上三叠统徐家河地层是一组含煤碎屑岩序列,主要沉积面从辫状河三角洲到湖泊背景各不相同,其中风暴沉积的报道很多。在关中地区的紫兰坝,徐家河地层第五系古沉积物表面的原位树干提供了风暴事件的新证据。9根原生树干的6个倒伏方向以西北方向为主,与下伏地层的古水流方向相反,表明四川盆地北部三叠纪末期盛行东南风。在徐家河组砂岩和新店子组砂岩中经常发现大量泥质碎屑。这些泥质碎屑呈撕裂状或倒 V 形塑性变形,覆盖在侵蚀面上,没有搬运痕迹,因此被解释为风暴滞后沉积。晚三叠世盛行大季风气候,但由于徐家河地层地表最大风速较低,大季风本身并不能在徐家河地层中产生风暴沉积。徐家河地层风暴沉积的驱动机制被认为是特提斯洋上的热带气旋向东移动,并进一步登陆四川盆地西缘。对环特提斯地区风暴事件的统计表明,在三叠纪末期,低纬度地区出现了广泛的风暴潮。徐家河地层顶部的风暴沉积是对三叠纪末超高温事件的沉积反应。
End-Triassic storm deposits in the lacustrine Sichuan Basin and their driving mechanisms
Storm deposits or tempestites are event sequences formed by storms, requiring at least a water temperature of 26.5°C. While inland lakes are unlikely to form storm deposits because of their limited width and water temperature. The Upper Triassic Xujiahe Formation in the Sichuan Basin is a set of coal-bearing, clastic sequences with dominant sedimentary facies varying from braided river delta to lacustrine settings, with storm deposits widely reported. In the Zilanba of Guanyuan area, in situ tree trunks on a palaeosol surface in Member V of the Xujiahe Formation provide new evidence of a storm event. Six fallen-down directions of nine in situ tree trunks were predominant in the NW direction, contrary to the palaeocurrent direction of the underlying strata, suggesting that the southeasterlies prevailed during the end-Triassic in the northern Sichuan Basin. Massive mud clasts were frequently recorded in sandstones of the Xujiahe Formation, as well as in the Xindianzi section. These mud clasts showed a rip-up or a plastic deformation with upside-down V-shapes, were capped on an erosional surface, showed no transport traces and were therefore interpreted as a storm lag deposit. The megamonsoonal climate prevailed during the Late Triassic, although the megamonsoons themselves could not generate a storm deposition in the Xujiahe Formation due to its low maximum surface wind speed. The driving mechanism for generating storm deposits in the Xujiahe Formation is suggested to be tropical cyclones over the Tethys Ocean moving eastward, further landfalling on the western margin of the Sichuan Basin. Statistics of storm events in the circum-Tethys region show a widespread storm surge in low latitudes during the end-Triassic. The storm deposits at the top of the Xujiahe Formation represent a sedimentary response to the end-Triassic hyperthermal event.
期刊介绍:
Science China Earth Sciences, an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China, and published by Science China Press, is committed to publishing high-quality, original results in both basic and applied research.