柴达木盆地台南地区滩坝砂体粒度特征及水动力

易定红; 刘应如; 李积永; 刘俊丰; 奎明清; 陈汾君; 吴颜雄; 李红哲; 张婷静; 易定红; 刘应如; 李积永; 刘俊丰; 奎明清; 陈汾君; 吴颜雄; 李红哲; 张婷静

doi:DOI:10.14027/j.issn.1000-0550.2023.114

[1]

姜在兴. 沉积学[M]. 北京：石油工业出版社，2003：71-73.

Jiang Zaixing. Sedimentology[M]. Beijing: Petroleum Industry Press, 2003: 71-73.

[2]

郑浚茂，王德发，孙永传. 黄骅拗陷几种砂体的粒度分布特征及其水动力条件的初步分析[J]. 石油实验地质，1980，2（2）：9-20，61.

Zheng Junmao, Wang Defa, Sun Yongchuan. Characteristics of grain size distribution and preliminary hydrodynamic analysis of several types of sandbodies in Huanghua Depression[J]. Petroleum Geology & Experiment, 1980, 2(2): 9-20, 61.

[3]

操应长，王健，刘惠民. 利用环境敏感粒度组分分析滩坝砂体水动力学机制的初步探讨：以东营凹陷西部沙四上滩坝砂体沉积为例[J]. 沉积学报，2010，28（2）：274-284.

Cao Yingchang, Wang Jian, Liu Huimin. Preliminary study on the hydrodynamic mechanism of beach-bar sandbodies with environmentally sensitive grain size components: A case study from beach-bar sandbody sediments of the upper part of the Fourth member of the Shahejie Formation in the western Dongying Depression[J]. Acta Sedimentologica Sinica, 2010, 28(2): 274-284.

[4]

Kolmer J R. A wave tank analysis of the beach foreshore grain size distribution[J]. Journal of Sedimentary Research, 1973, 43(1): 200-204.

[5]

路慎强，王健，操应长，等. 车西洼陷沙二段滩坝砂体粒度特征及其水动力学意义[J]. 油气地质与采收率，2013，20（3）：26-29.

Lu Shenqiang, Wang Jian, Cao Yingchang, et al. Study on characteristics and hydrodynamic significance of grain size components of beach-bar sandbodies, Second member of Shahejie Formation, Chexi Sag[J]. Petroleum Geology and Recovery Efficiency, 2013, 20(3): 26-29.

[6]

王健，操应长，弭连山，等. 山东高密峡山水库现代滨浅湖滩坝砂体的粒度特征及水动力学分析[J]. 西安石油大学学报（自然科学版），2009，24（增刊1）：35-39.

Wang Jian, Cao Yingchang, Mi Lianshan, et al. Grain size characteristics and hydrodynamic analysis of sand bodies of modern shoreline shallow lake beach bar in Gaomi Xiashan reservoir, Shandong province[J]. Journal of Xi'an Shiyou University (Natural Science Edition), 2009, 24(Suppl.1): 35-39.

[7]

陈桥，刘东艳，陈颖军，等. 粒级—标准偏差法和主成分因子分析法在粒度敏感因子提取中的对比[J]. 地球与环境，2013，41（3）：319-325.

Chen Qiao, Liu Dongyan, Chen Yingjun, et al. Comparative analysis of grade-standard deviation method and factors analysis method for environmental sensitive factor analysis[J]. Earth and Environment, 2013, 41(3): 319-325.

[8]

孙有斌，高抒，李军. 边缘海陆源物质中环境敏感粒度组分的初步分析[J]. 科学通报，2003，48（1）：83-86.

Sun Youbin, Gao Shu, Li Jun. Preliminary analysis of grain-size populations with environmentally sensitive terrigenous components in marginal sea setting[J]. Chinese Science Bulletin, 2003, 48(1): 83-86.

[9]

Sun D H, Bloemendal J, Rea D K, et al. Grain-size distribution function of polymodal sediments in hydraulic and aeolian environments, and numerical partitioning of the sedimentary components[J]. Sedimentary Geology, 2002, 152(3/4): 263-277.

[10]

肖尚斌，李安春. 东海内陆架泥区沉积物的环境敏感粒度组分[J]. 沉积学报，2005，23（1）：122-129.

Xiao Shangbin, Li Anchun. A study on environmentally sensitive grain-size population in inner shelf of the East China Sea[J]. Acta Sedimentologica Sinica, 2005, 23(1): 122-129.

[11]

向荣，杨作升， Saito Y，等. 济州岛西南泥质区近2300a来环境敏感粒度组分记录的东亚冬季风变化[J]. 中国科学：地球科学，2006，36（7）：654-662.

Xiang Rong, Yang Zuosheng, Saito Y, et al. East Asia Winter Monsoon changes inferred from environmentally sensitive grain-size component records during the last 2300 years in mud area southwest off Cheju Island, ECS[J]. Science China Earth Sciences, 2006, 36(7): 654-662.

[12]

徐树建，潘保田，高红山，等. 末次间冰期—冰期旋回黄土环境敏感粒度组分的提取及意义[J]. 土壤学报，2006，43（2）：183-189.

Xu Shujian, Pan Baotian, Gao Hongshan, et al. Analysis of grain-size populations with environmentally sensitive components of loess during the last interglacial-glacial cycle and their implications[J]. Acta Pedologica Sinica, 2006, 43(2): 183-189.

[13]

徐树建. 风成沉积物环境敏感粒度指标的提取及意义[J]. 干旱区资源与环境，2007，21（3）：95-98.

Xu Shujian. Analysis of grain-size populations with environmentally sensitive components in aeolian deposits and their implications[J]. Journal of Arid Land Resources and Environment, 2007, 21(3): 95-98.

[14]

姜在兴，王俊辉，张元福. 滩坝沉积研究进展综述[J]. 古地理学报，2015，17（4）：427-440.

Jiang Zaixing, Wang Junhui, Zhang Yuanfu. Advances in beach-bar research: A review[J]. Journal of Palaeogeography, 2015, 17(4): 427-440.

[15]

易定红，石亚军，李翔，等. 柴达木盆地西部扎哈泉地区新近系上干柴沟组滩坝砂体沉积演化及其控制因素[J]. 古地理学报，2022，24（4）：713-727.

Yi Dinghong, Shi Yajun, Li Xiang, et al. Sedimentary evolution and controlling factors of beach bar sand bodies of the Upper Ganchaigou Formation of Neogene in Zhahaquan area, western Qaidam Basin[J]. Journal of Palaeogeography, 2022, 24(4): 713-727.

[16]

姜在兴，王雯雯，王俊辉，等. 风动力场对沉积体系的作用[J]. 沉积学报，2017，35（5）：863-876.

Jiang Zaixing, Wang Wenwen, Wang Junhui, et al. The influence of wind field on depositional systems[J]. Acta Sedimentologica Sinica, 2017, 35(5): 863-876.

[17]

Jiang Z X, Wang J H, Fulthorpe C S, et al. A quantitative model of paleowind reconstruction using subsurface lacustrine longshore bar deposits: An attempt[J]. Sedimentary Geology, 2018, 371: 1-15.

[18]

Wang J H, Jiang Z X, Xian B Z, et al. A method to define the palaeowind strength from lacustrine parameters[J]. Sedimentology, 2018, 65(2): 461-491.

[19]

Isla M F, Coronel M D, Schwarz E, et al. Depositional architecture of a wave-dominated clastic shoreline (Pilmatué member, Argentina): Linking dynamics and stratigraphic record of bar-trough systems[J]. Marine and Petroleum Geology, 2020, 118: 104417.

[20]

朱筱敏，康安，韩德馨，等. 柴达木盆地第四纪环境演变、构造变形与青藏高原隆升的关系[J]. 地质科学，2003，38（3）：367-376.

Zhu Xiaomin, Kang An, Han Dexin, et al. Relation among Quaternary environmental evolution, tectonic deformation in the Qaidam Basin and uplifting of the Qinghai-Tibet Plateau[J]. Chinese Journal of Geology, 2003, 38(3): 367-376.

[21]

Yin A, Dang Y Q, Zhang M, et al. Cenozoic tectonic evolution of the Qaidam Basin and its surrounding regions (Part 3): Structural geology, sedimentation, and regional tectonic reconstruction[J]. GSA Bulletin, 2008, 120(7/8): 847-876.

[22]

党玉琪，张道伟，徐子远，等. 柴达木盆地三湖地区第四系沉积相与生物气成藏[J]. 古地理学报，2004，6（1）：110-118.

Dang Yuqi, Zhang Daowei, Xu Ziyuan, et al. Sedimentary facies and biogenic gas pool of the Quaternary of Sanhu area in Qaidam Basin[J]. Journal of Palaeogeography, 2004, 6(1): 110-118.

[23]

杨玲，鲍志东，陈开远，等. 柴达木盆地三湖地区第四系沉积相研究[J]. 科技导报，2010，28（14）：59-66.

Yang Ling, Bao Zhidong, Chen Kaiyuan, et al. Study on sedimentary facies of the Quaternary in Sanhu area of Qaidam Basin[J]. Science & Technology Review, 2010, 28(14): 59-66.

[24]

吴光大. 柴达木盆地东部台南气田的发现[J]. 天然气工业，1994，14（1）：18-23.

Wu Guangda. The discovery of Tainan gas field in the east part of Qaidam Basin[J]. Natural Gas Industry, 1994, 14(1): 18-23.

[25]

朱锐，张昌民，龚福华，等. 粒度资料的沉积动力学在沉积环境分析中的应用：以江汉盆地西北缘上白垩统红花套组沉积为例[J]. 高校地质学报，2010，16（3）：358-364.

Zhu Rui, Zhang Changmin, Gong Fuhua, et al. Use of sediment dynamic analysis in environment interpretation: A case study on Honghuatao Formation, Upper Cretaceous of western Jianghan Basin, Hubei province[J]. Geological Journal of China Universities, 2010, 16(3): 358-364.

[26]

袁静，杜玉民，李云南. 惠民凹陷古近系碎屑岩主要沉积环境粒度概率累积曲线特征[J]. 石油勘探与开发，2003，30（3）：103-106.

Yuan Jing, Du Yumin, Li Yunnan. Probability cumulative grain size curves in terrigenous depositional environments of the Paleogene in Huimin Sag[J]. Petroleum Exploration and Development, 2003, 30(3): 103-106.

[27]

孙东怀，安芷生，苏瑞侠，等. 古环境中沉积物粒度组分分离的数学方法及其应用[J]. 自然科学进展，2001，11（3）：269-276.

Sun Donghuai, An Zhisheng, Su Ruixia, et al. The mathenatical method and its application of partitioning grain-size distribution from the sedimentaly components in paleoenvironments[J]. Progress in Natural Science, 2001, 11(3): 269-276.

[1]	姜在兴. 沉积学[M]. 北京：石油工业出版社，2003：71-73. Jiang Zaixing. Sedimentology[M]. Beijing: Petroleum Industry Press, 2003: 71-73.
[2]	郑浚茂，王德发，孙永传. 黄骅拗陷几种砂体的粒度分布特征及其水动力条件的初步分析[J]. 石油实验地质，1980，2（2）：9-20，61. Zheng Junmao, Wang Defa, Sun Yongchuan. Characteristics of grain size distribution and preliminary hydrodynamic analysis of several types of sandbodies in Huanghua Depression[J]. Petroleum Geology & Experiment, 1980, 2(2): 9-20, 61.
[3]	操应长，王健，刘惠民. 利用环境敏感粒度组分分析滩坝砂体水动力学机制的初步探讨：以东营凹陷西部沙四上滩坝砂体沉积为例[J]. 沉积学报，2010，28（2）：274-284. Cao Yingchang, Wang Jian, Liu Huimin. Preliminary study on the hydrodynamic mechanism of beach-bar sandbodies with environmentally sensitive grain size components: A case study from beach-bar sandbody sediments of the upper part of the Fourth member of the Shahejie Formation in the western Dongying Depression[J]. Acta Sedimentologica Sinica, 2010, 28(2): 274-284.
[4]	Kolmer J R. A wave tank analysis of the beach foreshore grain size distribution[J]. Journal of Sedimentary Research, 1973, 43(1): 200-204.
[5]	路慎强，王健，操应长，等. 车西洼陷沙二段滩坝砂体粒度特征及其水动力学意义[J]. 油气地质与采收率，2013，20（3）：26-29. Lu Shenqiang, Wang Jian, Cao Yingchang, et al. Study on characteristics and hydrodynamic significance of grain size components of beach-bar sandbodies, Second member of Shahejie Formation, Chexi Sag[J]. Petroleum Geology and Recovery Efficiency, 2013, 20(3): 26-29.
[6]	王健，操应长，弭连山，等. 山东高密峡山水库现代滨浅湖滩坝砂体的粒度特征及水动力学分析[J]. 西安石油大学学报（自然科学版），2009，24（增刊1）：35-39. Wang Jian, Cao Yingchang, Mi Lianshan, et al. Grain size characteristics and hydrodynamic analysis of sand bodies of modern shoreline shallow lake beach bar in Gaomi Xiashan reservoir, Shandong province[J]. Journal of Xi'an Shiyou University (Natural Science Edition), 2009, 24(Suppl.1): 35-39.
[7]	陈桥，刘东艳，陈颖军，等. 粒级—标准偏差法和主成分因子分析法在粒度敏感因子提取中的对比[J]. 地球与环境，2013，41（3）：319-325. Chen Qiao, Liu Dongyan, Chen Yingjun, et al. Comparative analysis of grade-standard deviation method and factors analysis method for environmental sensitive factor analysis[J]. Earth and Environment, 2013, 41(3): 319-325.
[8]	孙有斌，高抒，李军. 边缘海陆源物质中环境敏感粒度组分的初步分析[J]. 科学通报，2003，48（1）：83-86. Sun Youbin, Gao Shu, Li Jun. Preliminary analysis of grain-size populations with environmentally sensitive terrigenous components in marginal sea setting[J]. Chinese Science Bulletin, 2003, 48(1): 83-86.
[9]	Sun D H, Bloemendal J, Rea D K, et al. Grain-size distribution function of polymodal sediments in hydraulic and aeolian environments, and numerical partitioning of the sedimentary components[J]. Sedimentary Geology, 2002, 152(3/4): 263-277.
[10]	肖尚斌，李安春. 东海内陆架泥区沉积物的环境敏感粒度组分[J]. 沉积学报，2005，23（1）：122-129. Xiao Shangbin, Li Anchun. A study on environmentally sensitive grain-size population in inner shelf of the East China Sea[J]. Acta Sedimentologica Sinica, 2005, 23(1): 122-129.
[11]	向荣，杨作升， Saito Y，等. 济州岛西南泥质区近2300a来环境敏感粒度组分记录的东亚冬季风变化[J]. 中国科学：地球科学，2006，36（7）：654-662. Xiang Rong, Yang Zuosheng, Saito Y, et al. East Asia Winter Monsoon changes inferred from environmentally sensitive grain-size component records during the last 2300 years in mud area southwest off Cheju Island, ECS[J]. Science China Earth Sciences, 2006, 36(7): 654-662.
[12]	徐树建，潘保田，高红山，等. 末次间冰期—冰期旋回黄土环境敏感粒度组分的提取及意义[J]. 土壤学报，2006，43（2）：183-189. Xu Shujian, Pan Baotian, Gao Hongshan, et al. Analysis of grain-size populations with environmentally sensitive components of loess during the last interglacial-glacial cycle and their implications[J]. Acta Pedologica Sinica, 2006, 43(2): 183-189.
[13]	徐树建. 风成沉积物环境敏感粒度指标的提取及意义[J]. 干旱区资源与环境，2007，21（3）：95-98. Xu Shujian. Analysis of grain-size populations with environmentally sensitive components in aeolian deposits and their implications[J]. Journal of Arid Land Resources and Environment, 2007, 21(3): 95-98.
[14]	姜在兴，王俊辉，张元福. 滩坝沉积研究进展综述[J]. 古地理学报，2015，17（4）：427-440. Jiang Zaixing, Wang Junhui, Zhang Yuanfu. Advances in beach-bar research: A review[J]. Journal of Palaeogeography, 2015, 17(4): 427-440.
[15]	易定红，石亚军，李翔，等. 柴达木盆地西部扎哈泉地区新近系上干柴沟组滩坝砂体沉积演化及其控制因素[J]. 古地理学报，2022，24（4）：713-727. Yi Dinghong, Shi Yajun, Li Xiang, et al. Sedimentary evolution and controlling factors of beach bar sand bodies of the Upper Ganchaigou Formation of Neogene in Zhahaquan area, western Qaidam Basin[J]. Journal of Palaeogeography, 2022, 24(4): 713-727.
[16]	姜在兴，王雯雯，王俊辉，等. 风动力场对沉积体系的作用[J]. 沉积学报，2017，35（5）：863-876. Jiang Zaixing, Wang Wenwen, Wang Junhui, et al. The influence of wind field on depositional systems[J]. Acta Sedimentologica Sinica, 2017, 35(5): 863-876.
[17]	Jiang Z X, Wang J H, Fulthorpe C S, et al. A quantitative model of paleowind reconstruction using subsurface lacustrine longshore bar deposits: An attempt[J]. Sedimentary Geology, 2018, 371: 1-15.
[18]	Wang J H, Jiang Z X, Xian B Z, et al. A method to define the palaeowind strength from lacustrine parameters[J]. Sedimentology, 2018, 65(2): 461-491.
[19]	Isla M F, Coronel M D, Schwarz E, et al. Depositional architecture of a wave-dominated clastic shoreline (Pilmatué member, Argentina): Linking dynamics and stratigraphic record of bar-trough systems[J]. Marine and Petroleum Geology, 2020, 118: 104417.
[20]	朱筱敏，康安，韩德馨，等. 柴达木盆地第四纪环境演变、构造变形与青藏高原隆升的关系[J]. 地质科学，2003，38（3）：367-376. Zhu Xiaomin, Kang An, Han Dexin, et al. Relation among Quaternary environmental evolution, tectonic deformation in the Qaidam Basin and uplifting of the Qinghai-Tibet Plateau[J]. Chinese Journal of Geology, 2003, 38(3): 367-376.
[21]	Yin A, Dang Y Q, Zhang M, et al. Cenozoic tectonic evolution of the Qaidam Basin and its surrounding regions (Part 3): Structural geology, sedimentation, and regional tectonic reconstruction[J]. GSA Bulletin, 2008, 120(7/8): 847-876.
[22]	党玉琪，张道伟，徐子远，等. 柴达木盆地三湖地区第四系沉积相与生物气成藏[J]. 古地理学报，2004，6（1）：110-118. Dang Yuqi, Zhang Daowei, Xu Ziyuan, et al. Sedimentary facies and biogenic gas pool of the Quaternary of Sanhu area in Qaidam Basin[J]. Journal of Palaeogeography, 2004, 6(1): 110-118.
[23]	杨玲，鲍志东，陈开远，等. 柴达木盆地三湖地区第四系沉积相研究[J]. 科技导报，2010，28（14）：59-66. Yang Ling, Bao Zhidong, Chen Kaiyuan, et al. Study on sedimentary facies of the Quaternary in Sanhu area of Qaidam Basin[J]. Science & Technology Review, 2010, 28(14): 59-66.
[24]	吴光大. 柴达木盆地东部台南气田的发现[J]. 天然气工业，1994，14（1）：18-23. Wu Guangda. The discovery of Tainan gas field in the east part of Qaidam Basin[J]. Natural Gas Industry, 1994, 14(1): 18-23.
[25]	朱锐，张昌民，龚福华，等. 粒度资料的沉积动力学在沉积环境分析中的应用：以江汉盆地西北缘上白垩统红花套组沉积为例[J]. 高校地质学报，2010，16（3）：358-364. Zhu Rui, Zhang Changmin, Gong Fuhua, et al. Use of sediment dynamic analysis in environment interpretation: A case study on Honghuatao Formation, Upper Cretaceous of western Jianghan Basin, Hubei province[J]. Geological Journal of China Universities, 2010, 16(3): 358-364.
[26]	袁静，杜玉民，李云南. 惠民凹陷古近系碎屑岩主要沉积环境粒度概率累积曲线特征[J]. 石油勘探与开发，2003，30（3）：103-106. Yuan Jing, Du Yumin, Li Yunnan. Probability cumulative grain size curves in terrigenous depositional environments of the Paleogene in Huimin Sag[J]. Petroleum Exploration and Development, 2003, 30(3): 103-106.
[27]	孙东怀，安芷生，苏瑞侠，等. 古环境中沉积物粒度组分分离的数学方法及其应用[J]. 自然科学进展，2001，11（3）：269-276. Sun Donghuai, An Zhisheng, Su Ruixia, et al. The mathenatical method and its application of partitioning grain-size distribution from the sedimentaly components in paleoenvironments[J]. Progress in Natural Science, 2001, 11(3): 269-276.