Based on the data of element geochemistry, electron probe, tectonic attributes, etc., the composition of the clastic and parent rock in the source area was analyzed for the Yanchang Formation in Longdong area. Research shows that the Yanchang Formation includes single crystal quartz, polycrystalline quartz, bicyclic quartz, fragmented quartz, dust-rich turbid quartz, and wavy matte quartz. Different types of quartz come from different parent rocks in different areas of the basin. Feldspar mainly comes from Guanshan pluton, Cuihua mountain, Haiyuan, and Longxi intermediate acid biotite granite in the periphery of the basin. In the Yanchang Formation in the study area, most of the heavy minerals in the sandstone formed by the northeast provenance come from the metamorphic parent rock in the Yinshan area, while the heavy minerals in the sandstone formed by the southwest provenance are formed in the hydrothermal metamorphic parent rock. The content of heavy minerals varies greatly in different depositional stages, and the provenance direction of sandstone in different intervals and the type of parent rock in the source area vary. The cuttings particles have a long transport distance, fine particle size, little cuttings retention, poor stability of rock structure and composition, weak resistance to weathering, and low cuttings content.
Published in | Earth Sciences (Volume 10, Issue 2) |
DOI | 10.11648/j.earth.20211002.13 |
Page(s) | 64-69 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
Copyright |
Copyright © The Author(s), 2021. Published by Science Publishing Group |
Ordos Basin, Longdong Area, Yanchang Formation, Clastic Component, Parent Rock Component
[1] | Cao Yingchang, Jin Jiehua, Liu Haining, et al. Deep-water gravity flow deposits in a lacustrine rift basin and their oil and gas geological significance in eastern China[J]. Petroleum Exploration and Development, 2021, 48 (2): 247-257. |
[2] | Yuan Xuanjun, Zhou Hongying, Zhang Zhijie, et al. Depositional features and growth pattern of large shallow-water deltas in depression basin. Lithologic Reservoirs, 2021, 33 (1): 1-11. |
[3] | Fan Leyuan, Wu Jiapeng, Diao Wan, et al. Sedimentary characteristics of the shallow water delta in rifted lacustrine basin: A case study in the Aradeiba Formation, Unity Sag, Muglad Basin. Earth Science Frontiers, 2021, 28 (01): 155-166. |
[4] | Wang Jiahao, Wang Hua, Xiao Dunqing, et al. Differentiation between hyperpycnal flow deposition and slump-induced gravity flow deposition in terrestrial rifted lacustrine basin [J]. Acta Pctrolci Sinica, 2020, 41 (04): 392-402, 411. |
[5] | Gao Yi, Lin Lifei, Yin Shuai, Hu Guoxiang, et al. Characteristics of in situ stress of tight oil reservoirs and its influence on petrophysical properties: A case study of Upper Triassic Yanchang Formation in Ordos Basin [J]. Petroleum Geology&Experiment, 2021, 43 (02): 250-258. |
[6] | Liu Jiangbin, Wu Xiaobin, Li Dan, et al. The Main Controlling Factors Of Tight Oil Reservoir Forma-Tion Of The Chang6 Member Of Triassic Yanchang Formation In Shuanglong Area, Ordos Basin[J]. Mineralogy And Petrology, 2021, 41 (01): 116-127. |
[7] | Zhong Hongli, Zhang Fengqi, Zhao Zhenyu, et al. Micro-scale pore-throat distributions in tight sandstone reservoirs and its constrain to movable Fluid [J]. PETROLEUM GEOLOGY & EXPERIMENT, 2021, 43 (01): 77-85. |
[8] | Liu Hanlin, Qiu Zhen, Xu Liming, et al. Distribution of shallow water delta sand bodies and the genesis of thick layer sand bodies of the Triassic Yanchang Formation, Longdong Area, Ordos Basin [J]. Petroleum Exploration and Development, 2021, 48 (1): 106-117. |
[9] | Zhang Xiaohui, Feng Shunyan, Liang Xiaowei, et al. Sedimentary microlacies identification and inferred evolution of the Chang 7 Member of Yanchang Formation in the Longdong area, Ordos basin. Acta Geologica Sinica, 2020, 94 (03): 957-967. |
[10] | Ma Yao, Shi Tao, Crown Man, et al. Sandbody structural characteristics and genetic model of Chang 82 in Longdong area. Journal of Northwest University (Natural Science Edition), 2019, 49 (05): 765-771. |
[11] | Qiu Yajie, Li Baiqiang, Li Yang, et al. Sedimentary microfacies characteristics of Chant 9 reservoir in Huaqin} area, Ordos Basin [J]. Journal of Xi'an Shiyou University (Natural Science Edition), 2015, 30 (04): 1-5+7. |
[12] | Li Yijia, Ruan Zhuang, Liu Shuai, et al. Provenance and Tectonic Setting of Chang 10-Chang 8 Member in the Southern Ordos Basin [J]. Geoscience, 2020, 34 ( 4): 784-799. |
[13] | Fan Mengmeng, Bu Jun, Li Wenhou,. Early provenance and sedimentary environment characteristics of the Yanchang Formation in the southeast of Ordos Basin [J]. Chinese Journal of Geology, 2020, 55 (03): 782-794. |
[14] | Liu Shuai, Ruan Zhuang, Yang Zhihui, et al. Provenance evolution of southern margin of Ordos Basin during the Middle-Later Triassic and its geological implication[J]. Journal Of Palaeogeography (Chinese Edition), 2019, 21 (06): 939-958. |
[15] | Feng Yujing, Long Hao, Huang Yinzhou, et al. Luminescence dating of Holocene lacustrine sediments from the southeastern Mu Us sandy land: Comparison of quartz OSL and K-feldspar pIRIR150 ages [J]. J. Lake Sci., 2015, 27 (03): 535-547. |
[16] | Pan Jie, Liu Zhongqun, Po Renhai, et al. Provenance Direction and Sedimentary Facies of Chang 7-Chang 8 Members in Yanchang Formation of Jinghe Oilfield, Southwest Margin of Ordos Basin [J]. ACTA SEDIMENTOLOGICA STNTCA, 2017, 35 (01): 124-138. |
APA Style
He Taping, Yun Yuping. (2021). A Comparative Study on the Composition of the Clastic and the Parent Rock of the Source Area in the Yanchang Formation in the Longdong Area of the Ordos Basin. Earth Sciences, 10(2), 64-69. https://doi.org/10.11648/j.earth.20211002.13
ACS Style
He Taping; Yun Yuping. A Comparative Study on the Composition of the Clastic and the Parent Rock of the Source Area in the Yanchang Formation in the Longdong Area of the Ordos Basin. Earth Sci. 2021, 10(2), 64-69. doi: 10.11648/j.earth.20211002.13
AMA Style
He Taping, Yun Yuping. A Comparative Study on the Composition of the Clastic and the Parent Rock of the Source Area in the Yanchang Formation in the Longdong Area of the Ordos Basin. Earth Sci. 2021;10(2):64-69. doi: 10.11648/j.earth.20211002.13
@article{10.11648/j.earth.20211002.13, author = {He Taping and Yun Yuping}, title = {A Comparative Study on the Composition of the Clastic and the Parent Rock of the Source Area in the Yanchang Formation in the Longdong Area of the Ordos Basin}, journal = {Earth Sciences}, volume = {10}, number = {2}, pages = {64-69}, doi = {10.11648/j.earth.20211002.13}, url = {https://doi.org/10.11648/j.earth.20211002.13}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.earth.20211002.13}, abstract = {Based on the data of element geochemistry, electron probe, tectonic attributes, etc., the composition of the clastic and parent rock in the source area was analyzed for the Yanchang Formation in Longdong area. Research shows that the Yanchang Formation includes single crystal quartz, polycrystalline quartz, bicyclic quartz, fragmented quartz, dust-rich turbid quartz, and wavy matte quartz. Different types of quartz come from different parent rocks in different areas of the basin. Feldspar mainly comes from Guanshan pluton, Cuihua mountain, Haiyuan, and Longxi intermediate acid biotite granite in the periphery of the basin. In the Yanchang Formation in the study area, most of the heavy minerals in the sandstone formed by the northeast provenance come from the metamorphic parent rock in the Yinshan area, while the heavy minerals in the sandstone formed by the southwest provenance are formed in the hydrothermal metamorphic parent rock. The content of heavy minerals varies greatly in different depositional stages, and the provenance direction of sandstone in different intervals and the type of parent rock in the source area vary. The cuttings particles have a long transport distance, fine particle size, little cuttings retention, poor stability of rock structure and composition, weak resistance to weathering, and low cuttings content.}, year = {2021} }
TY - JOUR T1 - A Comparative Study on the Composition of the Clastic and the Parent Rock of the Source Area in the Yanchang Formation in the Longdong Area of the Ordos Basin AU - He Taping AU - Yun Yuping Y1 - 2021/05/14 PY - 2021 N1 - https://doi.org/10.11648/j.earth.20211002.13 DO - 10.11648/j.earth.20211002.13 T2 - Earth Sciences JF - Earth Sciences JO - Earth Sciences SP - 64 EP - 69 PB - Science Publishing Group SN - 2328-5982 UR - https://doi.org/10.11648/j.earth.20211002.13 AB - Based on the data of element geochemistry, electron probe, tectonic attributes, etc., the composition of the clastic and parent rock in the source area was analyzed for the Yanchang Formation in Longdong area. Research shows that the Yanchang Formation includes single crystal quartz, polycrystalline quartz, bicyclic quartz, fragmented quartz, dust-rich turbid quartz, and wavy matte quartz. Different types of quartz come from different parent rocks in different areas of the basin. Feldspar mainly comes from Guanshan pluton, Cuihua mountain, Haiyuan, and Longxi intermediate acid biotite granite in the periphery of the basin. In the Yanchang Formation in the study area, most of the heavy minerals in the sandstone formed by the northeast provenance come from the metamorphic parent rock in the Yinshan area, while the heavy minerals in the sandstone formed by the southwest provenance are formed in the hydrothermal metamorphic parent rock. The content of heavy minerals varies greatly in different depositional stages, and the provenance direction of sandstone in different intervals and the type of parent rock in the source area vary. The cuttings particles have a long transport distance, fine particle size, little cuttings retention, poor stability of rock structure and composition, weak resistance to weathering, and low cuttings content. VL - 10 IS - 2 ER -