��ժҪ��Ϣ

[an error occurred while processing this directive]

�� 2018, 37(2) 507-517 DOI: 10.3969/j.issn.1004-5589.2018.02.017 ISSN: 1004-5589 CN: 22-1111/P

��Ŀ¼ | ��Ŀ¼ | �� | �߼�� [��ӡ��ҳ] [�ر�]

��

	��չ��

	��Ϣ
	Supporting info
	PDF(8375KB)
	[HTMLȫ��]
	�ο��[PDF]
	�ο��
	��뷴��
	�ѱ��Ƽ��
	��ҵ��
	��ù��
	��ñ��
	Email Alert
	��·��
	��Ϣ
	��Ĺؼ��
	׼��
	��ϲ�
	��
	��
	��
	��
	��ΰ
	��ʯ
	·��
	��
	��
	̷��
	��
	PubMed
	Article by Shen W
	Article by Fang S
	Article by Lu J
	Article by Zhang Y
	Article by Liu M
	Article by Tan J
	Article by Xiang J

׼��ϲ�٪��ϵ��

��ΰ¹, ��ʯ¹, ·��³, ��³, ��³, ̷��³, ��³

1. ��ִ�ѧ ��ѧѧԺ, �� 130061;
2. �½��Դ�Ƽ��ι�˾, �½� �� 834000;
3. �½��﹫˾ ½��ҵ��, �½� �� 834000

ժҪ�� ԡ��⾮��ߡ��Լ��㷴�ݣ��ʾ��ϲ��٪��ͳ��ɰ��ĳ��ҪΪ��޺��Դ��Ҫ��о��Ͷ��о��ǰԵ��У��ϲ��ΰ��Է��һ��ϲ����²��ǳ��Է��ˮ��ǳ�ٱ��ʱ��ݻ��ϣ��о��ݻ��ء�

�ؼ���� ׼�� ϲ� ��

Sedimentary characteristics and its control factors of Jurassic Sangonghe Formation in southern Xiayan area,Junggar Basin

SHEN Wei¹, FANG Shi¹, LU Jian-guo³, ZHANG Yong-bo³, LIU Ming-yang³, TAN Jian-hua³, XIANG Jia-lin³

1. College of Earth Sciences, Jilin University, Changchun 130061, China;
2. Xinjiang Wandun Energy Technology Co., Ltd., Karamay 834000, Xinjiang, China;
3. Luliang Oil Recovery Factory, Xinjiang Oilfield Company, Karamay 834000, Xinjiang, China

Abstract: Based on lithology,well logs,seismic reflections and reservoir inversion,it is revealed that the sedimentary facies distribution of the lower Jurassic Sangonghe Formation in the southern Xiayan area of Junggar Basin is mainly lake,fan delta and gravity flow. The provenances are mainly in the north and in the east of the study area. The fan delta front is developed in the eastern part of the study area,and the gravity flow is developed in the central and western regions. The semi-deep lacustrine facies is relatively developed on the top of second member and third member of Sangonghe Formation. The gravity flow mostly occurred on the top of first member of Sangonghe Formation. The shore-shallow lake mainly developed at the bottom of second member of Sangonghe Formation. In general,the water depth variation is coupled with the climate evolution of the period, which was from deep to shallow to deep,and climate is the main controlling factor of the sedimentary evolution in the study area.

Keywords: Junggar Basin southern Xiayan area Sangonghe Formation sedimentary facies control factors

�ո�� 2018-02-12 �޻�� 2018-04-28 ��淢��

DOI: 10.3969/j.issn.1004-5589.2018.02.017

��Ŀ:

��Դ��ܳ��Ƽ��˲��ƻ��Ŀ��201311111��͹��Ȼ��ѧ��Ŀ��3A414BA74422��3A509J084422��.

ͨѶ��: ��ʯ(1974-),��,��,��Ҫ��̽��ࡢ��ѧ��о�.E-mail:fs812625@vip.sina.com

��߼��:

��Email: fs812625@vip.sina.com

�ο��ף�

[1] ��,��,��,��.׼��̽��ɹ��ǰ��[J].�½�ʯ�͵��,2002,23(6):449-455. WANG Yi-lin,ZHANG Yi-jie,WANG Guo-hui,et al. Achievements and prospect for petroleum exploration and development in Junggar Basin[J].Xinjiang Petroleum Geology,2002,23(6):449-455.
[2] ��,��·�,��Ӧ��,��. ׼��ε��ز��صĵ��Ϳ��[C]//�й��̽��չ��鼰��ֻ�,2007:74-97. LYU Xi-min,CHEN Xin-fa,ZHAO Ying-cheng,et al.Geological characteristics and control factors of stratigraphic lithologic oil and gas reservoirs in the Xiayan area of the Junggar Basin[C]//China's Oil and Gas Exploration in Six Major Areas of Progress, Experience and Technical Seminars,2007:94-97.
[3] �·��,��,�Ź��,��.�й��С��ǰ½��صĹ��͵��ѧ[J].��ѧ,1996,21(4):366-372. CHEN Fa-jing,WANG Xin-wen,ZHANG Guang-ya,et al. Tectonic features and geodynamics of Mesozoic and Cenozoic Foreland Basins in China[J]. Earth Science,1996,21(4):366-372.
[4] �й��ѧԺ��ѧ��½�ʯ�͹��.׼��γ��ݻ��γ�[M].��:��ѧ��,1989:89. Chinese Academy of Sciences,Xinjiang Petroleum Administration Bureau. Evolution and hydrocarbon formation in Junggar Basin[M].Beijing:Science Press,1989:89.
[5] ��ا��.׼��ع��ɲ�[M].��:��ʳ��,2010:147-162. LI Pi-long.Tectonic deposition and reservoir formation in the Junggar Basin[M].Beijing:Geological Publishing House,2010:147-162.
[6] ��,�εǷ�,��,��.׼��½��¡��ɲ�[J]. ��ʿ�ѧ, 2012, 41(1):73-91. WU Xiao-zhi,HE Deng-fa,YANG Di-sheng.et al.Structural character and hydrocarbon accumulation in the Luliang uplift,Junggar Basin[J].Chinese Journal of Geology,2012,41(1):73-91.
[7] ��ҵȫ,��ΰ��.׼��ع��ݻ��ɲ��[J].ʯ�ʹ�ѧѧ��,2004,28(3):4-8. CHEN Ye-quan,WANG Wei-feng.Structural evolution and pool-forming in Junggar Basin[J].Journal of Petroleum University,2004,28(3):4-8.
[8] ��.׼��٪��ز㼰�߷�ֲ��Ⱥ�о�:˶ʿѧλ��[D].��:��ѧ,2008. LIU Chun-lei.The Early Jurassic stratigraphy and sporopllen assemblages of the central depression in the Junggar Basin:master's degree thesis[D]. Xi'an:Northwest University,2008.
[9] ��,��,��.׼��٪��߷��[J].��ʦ��ѧѧ��(��Ȼ��ѧ��),2013,41(1):95-98. LIU Chun-lei,YIN Feng-juan,FAN Ting-ting.The Early Jurassic sporo-pollen assemblages and paleoclimate of the central depression in the Junggar Basin[J].Journal of Shaanxi Normal University(Natural Science Edition),2013,41(1):95-98.
[10] ��.׼��ظ��٪��ϵ�߷��򻷾��[J].�й��(�Ƽ��),2014(14):189. LIU Zhen-yang.Analysis of the characteristics of the sporopollen assemblage and paleoclimate of the Jurassic in the abdominal region of the Junggar Basin[J].China Electronic Market (Technological Innovation),2014(14):189.
[11] ��,��в�.׼��ݻ��ɰ��˳ɿ��õ��Լ[J].��˵��ʿ�ѧ,2016,33(3):140-145. YANG Ye,HE Zhong-bo.Characteristics of Mesozoic-Cenozoic paleoclimate evolution and its constraint on mineralization of sandstone type uranium deposit in Junggar Basin,Xinjiang,China[J].World Nuclear Geoscience,2016,33(3):140-145.
[12] Li S L,Yu X H,Tan C P,et al. Jurassic sedimentary evolution of southern Junggar Basin:implication for palaeoclimate changes in northern Xinjiang Uygur Autonomous Region,China[J].Journal of Palaeogeography,2014,3(2):145-161.
[13] ��ӱ.׼��ع�ɽ��Ե��ز��ڵĳ��ݻ��о�[J].�ز�ѧ��־, 2014, 38(3):347-354. LIU Ya-ying.Jurassic sequence stratigraphy and paleoclimate evolution on the southern margin of the Hala'Alat Mountain,Junggar Basin[J]. Journal of Stratigraphy, 2014,38(3):347-354.
[14] ��.׼��½��˾۳ɲع�ϵ�о�:˶ʿѧλ��[D].�ɶ�:��ʯ�ʹ�ѧ,2005. ZHAO Wei-jun.Study on the relationship between unconformity and hydrocarbon migration and accumulation in the Luxi area of the Junggar Basin:master's degree thesis[D]. Chengdu:Southwest Petroleum University,2005.
[15] �±�.׼��½��¡��ݻ�:˶ʿѧλ��[D].�ൺ:�й�ʯ�ʹ�ѧ, 2012. HAO Bing.Tectonic characteristic and evolution of Luliang uplift in Junggar Basin:master's degree thesis[D]. Qingdao:China University of Petroleum,2012.
[16] ��,��.׼��½��¡��Ź��ָ��о�[J].��̽�󹤳�, 2008,20(8):116-118. GUO Hua-jun,LIU Qing-cheng.Study on restoration of paleo structure of Luliang uplift in Junggar Basin[J].West-China Exploration Engineering,2008,20(8):116-118.
[17] ��ƽ,½��,��ѧ��,��.׼��ظ��粻��ͼ��ṹ[J].��ʿ�ѧ,2012,47(1):92-101. CHEN Ping,LU Yong-chao,DU Xue-bin,et al.Types and vertical structures of Mesozoic unconformity in the compressional abdominal area of Junggar Basin[J].Chinese Journal of Geology,2012,47(1):92-101.
[18] �Ŵ��,��,�ض��,��.�½��¹��٪�޼͹�ֲ��򼰹Ż��̽��[J].�ִ��,2002,16(2):147-152. ZHANG Dai-sheng,FU Guo-bin,QIN En-peng,et al.Jurassic palaeoclimate,palaeovegetation and palaeoenvironment in the Tuha Basin in Xinjiang[J]. Geoscience,2002,16(2):147-152.
[19] ��,��,��Ӹ�.�½��³��-��п�ѷ��٪��߷�ֲ��Ⱥ��[J].�й��,2004,31(2):186-191. YIN Feng-juan,HUA Hong,ZHANG Zi-fu.Early Jurassic sporopollen assemblages from the Toksun subbasin in the Turpan-Hami Basin, Xinjiang and their significance[J].Geology in China,2004,31(2):186-191.
[20] ��,��в�.׼��ݻ��ɰ��˳ɿ��õ��Լ[J].��˵��ʿ�ѧ,2016,33(3):140-145. YANG Ye,HE Zhong-bo.Characteristics of Mesozoic-Cenozoic paleoclimate evolution and its constraint on mineralization of sandstone type uranium deposit in Junggar Basin, Xinjiang, China[J].World Nuclear Geoscience,2016,33(3):140-145.
[21] ��,��ͨ,��ѩ��,��.׼��ؿ�̽�ɹ��ͷ��[J].ʯ�Ϳ�̽�뿪��, 2005,32(2):32-37,65. KUANG Li-chun,LYU Huan-tong,QI Xue-feng,et al.Exploration and targets for lithologic reservoirs in Junggar Basin, NW China[J].Petroleum Exploration and Development, 2005,32(2):32-37,65.
[22] ��,��ս��,��ֻ�,��.׼��й�͹��٪��ϵ��Ͳؿ��[J].��Ȼ��ѧ,2006,17(5):703-707. LYU Xi-min,REN Zhan-li,FANG Le-hua,et al.Dominant factors of the Jurassic stratigraphic reservoir in Zhongguai uplift of Junggar Basin[J].Natural Gas Geoscience,2006,17(5):703-707.
[23] ��,��,��,��.׼��ذ׼Һ�͹��ؿ�̽[J].�½�ʯ�͵��,2013,34(3):269-271. ZHU Yong-jin,DU Wei-xing,ZHANG Xiu-li,et al.Exploration of Sangonghe lithologic reservoir in Baijiahai swell of Junggar Basin[J].Xinjiang Petroleum Geology,2013,34(3):269-271.

��е��

1��ʥ, ��֥, ��, ��.׼��1��εͿ��[J]. ��, 2018,37(3): 873-881

2��ǿ, ��, ��в�, ��, �μ�Ҷ, ��ǿ, �ִ�, ̷˼Զ.׼��ɰ��˿�ز��Զ��Ԥ��[J]. ��, 2018,37(2): 447-457

3��, ��ΰ��, ��, ���, ��.��ɽ�Ӱ��ľ��ˮ��Ǳ��:��׼��ض��ʯ̿ϵ��ɽ��Ϊ��[J]. ��, 2018,37(2): 518-526

4��չ, ��ջ�, ��, ��޽�, ��н�.��ݻ�[J]. ��, 2018,37(1): 185-198

5��, ��Ө, ��, ��.�½�׼��٪��˹��չ��Scarburgia��һ��[J]. ��, 2017,36(2): 327-332

6��.��½�׼��٪��²�³��(Ginkgo obrutschewii Seward)Ҷ��Ƥ��[J]. ��, 2017,36(1): 15-21

7��, ��, ۬��, ��, ��.�� SZK01 ��٪��ͳ��Ʊ��༰��л��[J]. ��, 2016,35(1): 207-305

8��, ��ˮ, ��, ��Զ, ��, �ź�.��״��سɲع��ɷ�� —��Ϊ��[J]. ��, 2015,34(4): 1052-1060

9��ʥ��, ��, �ſ��, �ֻ�ϲ, ��ʤ.׼��ʯ̿ϵ��ͬ��Դ��ģ��о�[J]. ��, 2015,34(3): 697-704

10��ռ��, ֣��ΰ, �˱�֥.׼��س��ӵ��ز�ˮ��Ӳ��صĹ�ϵ[J]. ��, 2015,34(2): 524-530

11��ͩ, ��ˮ, ¥��, ��, ��, ��.��¦��—Ȫͷ��һ�δ��Լ��[J]. ��, 2014,33(1): 129-136

12��, ��, ��, ��ƽ, ��, �ܺ콨.��ľ��ر�Ե��٪��ϵ��[J]. ��, 2013,32(3): 531-538

13��1, Ѧ�ָ�1, ��Ӣ2, �Դ��3, ��Ĳ�1.�Ϻ��--��ݻ�[J]. ��, 2013,32(2): 359-365

14��ս1, 2, ��ǰ��2.ʮ��Ӫ��—ɳ��鴢��ط��[J]. ��, 2013,32(2): 300-304

15��ʱ��, ��, ��, ��, ��.��ϵ��̽��[J]. ��, 2012,31(4): 712-720