鄂尔多斯盆地西北缘奥陶系克里摩里组等深流沉积<sup>*</sup>

doi:10.7605/gdlxb.2024.04.086

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Abstract Contour current deposits are a common type of deep-water deposits. However,limited work has been done on identification and formative mechanisms of contour current deposits in the rock record. Here,a new type of contour current deposits(lenticular contour current deposits)is documented in the Ordovician Kelimoli Formation of the study area in the Ordos Basin. The results show that There are four types of lithofacies and lithofacies associations in the study area,including lenticular micrite(lithofacies 1),mainly lenticular silt-sized silt-crystalline limestone(lithofacies 2),micrite and sparry calcarenite or calcirudite(lithofacies 3),and bedded calcirudite(lithofacies 4). It is found that lenticular micrite,silt-sized silt-crystalline limestone,and calcarenite or calcirudite are present as fine-grained through coarse-grained to fine-grained facies sequences. These deposits are characterized by relatively thin bed thickness,wavy surface,lenticular geometry,and association with muddy lamina,stripe,and spot,which are attributed to the persistent effect of contour current. Silt-sized silt-crystalline limestones are usually mottled. Bedded calcirudites with imbricate structures and the inverse Chinese character of “small”are likely to be storm deposits. In addition,carbon and oxygen isotopes indicate that relative sea level and paleotemperature show two rising to falling cycles and a continously-rising half cycle. It is also found that the contour current in the study area are low energy thermohaline circulation and that the strength of the contour current is positively correlated with eustatic sea level and salinity change. Finally,the energy of the contour current increases gradually upsection with occassional transient extremes,which might be also effected by storms in the Kelimoli stage.

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	Articles by authors
	LI Hua
	HE Youbin
	YAO Fengnan
	HE Yiming
	JIANG Chunwei
	ZHANG Xiankun
	WU Jize
	XU Yanxia
	LIANG Jianshe

Key words： contour current contour current deposit Kelimoli Formation Ordovician Ordos Basin

Received: 30 January 2024

ZTFLH:

P512.32

Fund:Financially supported by the National Natural Science Foundation of China(Nos. 42272113,42272115)

About author: LI Hua,born in 1984,Ph.D.,an associate professor,is engaged in teaching and research on sedimentology and deepwater deposits. E-mail: 501026@yangtzeu.edu.cn.

Cite this article:

LI Hua,HE Youbin,YAO Fengnan et al. Contour current deposits in the Ordovician Kelimoli Formation,northwestern margin of Ordos Basin[J]. JOPC, 2024, 26(4): 962-971.

URL:

http://www.gdlxb.cn/EN/10.7605/gdlxb.2024.04.086 OR http://www.gdlxb.cn/EN/Y2024/V26/I4/962

[1] 李华,何幼斌. 2017. 等深流沉积研究进展. 沉积学报, 35(2): 228-240.
[Li H,He Y B.2017. Research processes on contourites. Acta Sedimentologica Sinica, 35(2): 228-240]
[2] 李华,何幼斌,黄伟,刘朱睿鸷,张锦. 2016. 鄂尔多斯盆地南缘奥陶系平凉组等深流沉积. 古地理学报, 18(4): 631-642.
[Li H,He Y B,Huang W,Liu Z R Z,Zhang J.2016. Contourites of the Ordovician Pingliang Formation in southern margin of Ordos Basin. Journal of Palaeogeography(Chinese Edition), 18(4): 361-642]
[3] 李向东,阙易,郇雅棋. 2017. 桌子山中奥陶统克里摩里组下段薄层状石灰岩垂向序列分析. 地球科学进展, 32(3): 276-291.
[Li X D,Que Y,Huan Y Q.2017. Analysis of vertical sedimentary successions in the lower part of Kelimoli Formation,Middle Ordovician,Zhuozishan area. Advances in Earth Science, 32(3): 276-291]
[4] 李华,何幼斌,黄伟,刘朱睿鸷,张锦. 2018. 鄂尔多斯盆地南缘奥陶系平凉组深水沉积特征及其与古环境关系: 以陕西富平赵老峪地区为例. 沉积学报, 36(3): 483-499.
[Li H,He Y B,Huang W,Liu Z R Z,Zhang J.2018. Research on relationship between characteristics of deep-water deposits and palaeoenvironment in the Ordovician,Pingliang Formation,southern margin of the Ordos Basin: a case of Zhaolaoyu countryside,Fuping town,Shaanxi Province. Acta Sedimentologica Sinica, 36(3): 483-499]
[5] 李华,何明薇,邱春光,王英民,何幼斌,徐艳霞,何瑞武. 2023. 深水等深流与重力流交互作用沉积(2000—2022年)研究进展. 沉积学报, 41(1): 18-36.
[Li H,He M W,Qiu C G,Wang Y M,He Y B,Xu Y X,He R W.2023. Research processes on deep-water interaction between contour current and gravity flow deposits,2000 to 2022. Acta Sedimentologica Sina, 41(1): 18-36]
[6] 李向东,魏泽昳,陈洪达. 2023. 鄂尔多斯盆地西缘上奥陶统拉什仲组内波和内潮汐沉积成因分析. 地质学报, 97(4): 1278-1294.
[Li X D,Wei Z Y,Chen H D.2023. Genetic analysis of interna-wave and internal-tide deposits in the Upper Ordovician Lashengzhong Formation,western Ordos basin. Acta Geologcia Sinica, 97(4): 1278-1294]
[7] 罗顺社,席明利,吕奇奇,何幼斌,李梦杰,肖彬. 2015. 湘北沅古坪地区下奥陶统等深流沉积特征研究. 沉积学报, 22(4): 641-648.
[Luo S S,Xi M L,Lü Q Q,He Y B,Li M J,Xiao B.2015. Study on characteristics of Lower Ordovician contour current deposits in Yuanguping,northern Hunan,China. Acta Sedimentologica Sinica, 22(4): 641-648]
[8] 王振涛,周洪瑞,王训练,景秀春,张永生,袁路明,沈智军. 2016. 鄂尔多斯盆地西缘北部奥陶纪盆地原型: 来自贺兰山和桌子山地球奥陶系的沉积响应. 地质论评, 62(4): 1041-1061.
[Wang Z T,Zhou H R,Wang X L,Jing X C,Zhang R S,Yuan L M,Shen Z J.2016. The Ordovician basin prototype in the northwest Ordos basin: constraint from the Ordovician sedimentary respond in the Helan-Zhuozishan Mountains. Geological Review, 62(4): 1041-1061]
[9] 于洲,周进高,李程善,宋晓娇,罗超,吴兴宁,吴东旭,胡琮. 2021. 鄂尔多斯盆地西缘奥陶纪克里摩里期—乌拉力克期构造—岩相古地理特征. 天然气地球科学, 32(6): 816-825.
[Yu Z,Zhou J G,Li C S,Song X J,Luo C,Wu X N,Wu D X,Hu C.2021. Tectonic-lithofacies paleogeographic characteristics of Ordovician Kelimoli and Wulalike stages in the western edge of Ordos Basin. Natural Gas Geoscience, 32(6): 816-825]
[10] Li H,He Y B,Huang W,Liu Z R Z,Zhang J,Zhang C,Wang J X,Huang J.2017. Characteristics of contourites in the Upper Ordovician Pingliang Formation along southwestern margin of the Ordos Basin,western China. 3^rd Deep-water Circulation Conference. Wuhan.
[11] Li H,He Y B,van Loon A J,Huang W,Liu Z R Z,Zhang J,Zhang C,Wang J X,Huang J.2018. Interaction between gravity flows and contour currents along the southern margin of the Ordos Basin(China): a study of the Ordovician Pingliang Formation. The 20th International Sedimentological Congress,2018. Québec City,Canada.
[12] Li H,van Loon A J,He Y B.2020. Cannibalism of contourites by gravity flows: explanation of the facies distribution of the Ordovician Pingliang Formation along the southern margin of the Ordos basin,China. Canadian Journal of Earth Sciences, 57: 331-347.
[13] Rebesco M,Hernández-Molina F J,Van Rooij D,Wåhlin A.2014. Contourites and associated sediments controlled by deep-water circulation processes: state-of-the-art and future considerations. Marine Geology, 352: 111-154.
[14] Scholle P A,Arthur M A.1980. Carbon isotope fluctuations in Cretaceous pelagic limestones: potential stratigraphic and petroleum exploration tool. AAPG Bulletin, 64(1): 67-87.
[15] Stow D A V,Kahler G,Reeder M. 2002. Fossil contourites: type example from an Oligocene palaeoslope system,Cyprus. In: Stow D A V,Pudsey C J,Howe J A,Faugères J-C,Viana A R(eds). Deep-water contourite systems: modern drifts and ancient series,seismic and sedimentary characteristics. Geological Society Memoir22,443-455.
[16] Wang Z,Fan R Y,Zong R W,Gong Y M.2022. Middle Ordovician bottom current deposits in the western margin of the North China craton: evidence from sedimentary and magnetic fabrics. Sedimentology, 69: 1424-1455.