酒西盆地鸭儿峡白垩系砂（砾）岩稀土元素特征及物源分析

doi:10.3969/j.issn.1673-8926.2015.06.004

LITHOLOGIC RESERVOIRS ›› 2015, Vol. 27 ›› Issue (6): 23-29.doi: 10.3969/j.issn.1673-8926.2015.06.004

Previous Articles Next Articles

Provenance analysis based on rare earth element characteristics of Cretaceous sandstone （ conglomerate ） in Yaerxia area, Jiuxi Basin

Zhang Guangwei¹， Pan Shuxin¹， Wei Haoyuan²， Li Wei²， Zhang Liping¹， Long Liwen¹

1. PetroChina Research Institute of Exploration & Development-Northwest ， Lanzhou 730020 ， China ； 2. Research Institute of Exploration and Development ， PetroChina Yumen Oilfield Company ， Jiuquan 735019 ， Gansu ， China

Received:2015-07-22 Revised:2015-08-26 Online:2015-12-20 Published:2015-12-20

Abstract

Abstract:

The Cretaceous sandstone （conglomerate） is good reservoir in Yaerxia area, Jiuxi Basin. The research on the provenance of the sandstone （conglomerate） is seldom, which restricts the sandstone （conglomerate） reservoir exploration in this area. The Rare earth element （REE） of the Cretaceous sandstone （conglomerate） in Yaerxia is analyzed, and the provenance and geochemical behavior were discussed. The results show that the content of the REE of the sandstone （conglomerate） is low, and there are no obvious differences between the Cretaceous sandstone （conglomerate） samples. The light rare earth element content obviously enriches compared with the heavy rare earth element content, with negative Eu anomalies shown in the chondrite aerolite standard pattern. The provenances supply of the sandstone may be derived from the upper crust. The Ce/Ce^*and Ce_anomindexes indicate that the palaeoenvironment of the Cretaceous in Jiuxi Basin was a reduction environment, and the environment is profitable for the oil and gas formation. There is no difference between the characteristics of Cretaceous sandstone （conglomerate） come from Liubei and Yaerxia.

Key words: sandstone reservoir, diagenesis , Qigu Formation , Fudong slope area

Zhang Guangwei， Pan Shuxin， Wei Haoyuan， Li Wei， Zhang Liping， Long Liwen. Provenance analysis based on rare earth element characteristics of Cretaceous sandstone （ conglomerate ） in Yaerxia area, Jiuxi Basin[J].LITHOLOGIC RESERVOIRS, 2015, 27(6): 23-29.

References

［1］陈建平，陈建军，张立平，等.酒西盆地油气形成与勘探方向新认识（一）———基本石油地质条件及生油潜力［J］.石油勘探与开发，2001，28（1）：19-22.

Chen Jianping，Chen Jianjun，Zhang Liping，et al. New opinions on oil and gas generation and exploration in Jiuxi basin（Ⅰ）—Basic petroleum and geological condition and oilgenerating potential［J］. Petroleum Exploration and Development，2001，28（1）：19-22.

［2］陈建平，陈建军，张立平，等.酒西盆地油气形成与勘探方向新认识（三）———油气运移、成藏规律与勘探方向［J］.石油勘探与开发，2001，28（3）：12-16.

Chen Jianping，Chen Jianjun，Zhang Liping，et al. New opinions on oil and gas generation and exploration in Jiuxi basin（Ⅲ）—Oil and gas migration，pool formation and exploration target［J］. Petroleum Exploration and Development，2001，28（3）：12-16.

［3］杨智明，王琪，史基安，等.酒西坳陷青西凹陷富油的地质-地球化学因素分析［J］.沉积学报，2003，21（4）：695-700.

Yang Zhiming，Wang Qi，Shi Ji’an，et al. Controls on the enrichment of oil pools in Qingxi Sag，Jiuxi Basin［J］. Acta Sedimentologica Sinica，2003，21（4）：695-700.

［4］李涛，杨克荣，韩小松，等.酒泉盆地鸭西地区白垩系岩性油藏控制因素分析［J］.岩性油气藏，2010，22（增刊 1）：14-17.

Li Tao，Yang Kerong，Han Xiaosong，et al. Analysis on controlling factors of Cretaceous lithologic reservoirs in Yaxi area of Jiuquan Basin［J］. Lithologic Reservoirs，2010，22（S1）：14-17.

［5］王崇孝，田多文，魏军，等.酒泉盆地窟窿山油藏裂缝分布特征［J］.岩性油气藏，2008，20（4）：20-25.

Wang Chongxiao，Tian Duowen，Wei Jun，et al. Fractures distribution characteristics of Kulongshan reservoir in Jiuquan Basin［J］.Lithologic Reservoirs，2008，20（4）：20-25.

［6］Guy C，Daux V，Schott J. Behaviour of rare earth elements during seawater/basalt interactions in the Mururoa Massif［J］. Chemical Geology，1999，158：21-35.

［7］Brian A，Haley，Gary P K，et al. Rare earth elements in pore waters of marine sediments［J］. Geochimica et Cosmochimica Acta，2004， 68（6）：1265-1279.

［8］苏中堂，陈洪德，徐粉燕，等.鄂尔多斯盆地马家沟组白云岩稀土元素地球化学特征［J］.吉林大学学报：地球科学版，2012，42（增刊 2）：53-61.

Su Zhongtang，Chen Hongde，Xu Fenyan，et al. REE characters of the Majiagou dolomites in Ordos Basin［J］. Journal of Jilin University： Earth Science Edition，2012，42（S2）：53-61.

［9］杨守业，李从先. REE 示踪沉积物物源研究进展［J］.地球科学进展，1999，14（2）：164-167.

Yang Shouye，Li Congxian. Research progress in REE tracer for sediment source［J］. Advance in Earth Sciences，1999，14（2）：164-167.

［10］Cullers R L，Barrett T，Carlson R，et al. REE and mineralogic changes in Holocene soil and stream sediment［J］. Chemical Geology， 1987，63：275-297.

［11］Cullers R L，Basu A，Suttner L J. Geochemical signature of provenance in sand-size mineral in soil and stream near the tabacco root batholith，Montana，USA［J］. Chemical Geology，1988，70：335-348.

［12］张沛，郑建平，张瑞生，等.塔里木盆地塔北隆起奥陶系—侏罗系泥岩稀土元素地球化学特征［J］.沉积学报，2005，23（4）：740-746.

Zhang Pei，Zheng Jianping，Zhang Ruisheng，et al. Rare earth elemental characteristics of Ordovician-Jurassic mudstone in Tabei Uplift，Tarim Basin［J］. Acta Sedimentologica Sinica，2005，23（4）： 740-746.

［13］侯伟，刘招君，何玉平，等.砂岩稀土元素地球化学特征在沉积物源区分析中的应用［J］.沉积学报，2010，28（2）：285-293.

Hou Wei，Liu Zhaojun，He Yuping，et al. Application of REE geochemical characteristics of sandsone to study on pronenance ［J］.Acta Sedimentologica Sinica，2010，28（2）：285-293.

［14］魏然，李红阳，于斌，等.沉积盆地物源体系分析方法及研究进展［J］.岩性油气藏，2013，25（3）：53-57.

Wei Ran，Li Hongyang，Yu Bin，et al. Approaches and prospects of provenance system analysis in sedimentary basins ［J］. Lithologic Reservoirs，2013，25（3）：53-57.

［15］Murray R W，Buchholtzten Brink M R，Brumsack H J，et al. Rare earth elements in Japan Sea sediments and diagenetic behavior of Ce/Ce：Results from ODP Leg 127［J］. Geochimica et Cosmochimica Acta，1991，55（9）：2453-2466.

［16］Murray R W. Chemical criteria to identify the depositional environment of chert：General principles and applications［J］. Sedimentary Geology，1994，90（3）：213-232.

［17］Lee J H，Byrne R H. Complexation of trivalent rare earth elements （Ce，Eu，Gd，Tb，Yb） by carbonate ions［J］. Geochimica et Cosmochimica Acta，1993，57（2）：295-302.

［18］Millero F J. Stability constants for the formation of rare earth inorganic complexes as a function of ionic strength［J］. Geochimica et Cosmochimica Acta，1992，56（8）：3123-3132.

［19］Cullers R L，Basu A，Suttner L J. Geochemical signature of provenance in sand-size mineral in soil and stream near the tabacco root batholith，Montana，USA ［J］. Chemical Geology，1988，70 （4）： 335-348.

［20］Bau M，Schmidt K，Koschinsky A，et al. Discriminating between different genetic types of marine ferro-manganese crusts and nodules based on rare earth elements and yttrium［J］. Chemical Geology，2014，381：1-9.

［21］Yan B，Yan W，Miao L，et al. Geochemical characteristics and provenance implication of rare earth elements in surface sediments from bays along Guangdong Coast，Southeast China［J］. Environmental Earth Sciences，2012，65（7）：2195-2205.

［22］杨忠芳，陈岳龙.陆源碎屑沉积作用对化学元素配分的制约［J］.地质论评，1997，43（6）：593-600.

Yang Zhongfang，Chen Yuelong. Constraints of terrigenons clastic sedimentation of element partitioning［J］. Geological Review，1997， 43（6）：593-600.

［23］银晓，罗顺社，李鑫，等.鄂尔多斯盆地姬塬地区延长组长 8 时期物源分析［J］.岩性油气藏，2008，20（3）：59-63.

Yin Xiao，Luo Shunshe，Li Xin，et al. Provenance analysis of Chang 8 period in Jiyuan area of Ordos Basin［J］. Lithologic Reservoirs， 2008，20（3）：59-63.

［24］胡俊杰，李琦，汪双清，等.羌塘盆地角木茶卡地区展金组白云岩岩石学及地球化学特征［J］.岩性油气藏，2014，26（5）：80-85.

Hu Junjie，Li Qi，Wang Shuangqing，et al. Petrological and geochemical characteristics of dolomite of Zhanjin Formation in Jiaomuchaka area，Qiangtang Basin［J］. Lithologic Reservoirs，2014， 26（5）：80-85.

［25］王崇孝，马国福，周在华.酒泉盆地中、新生代构造演化及沉积充填特征［J］.石油勘探与开发，2005，32（1）：33-36.

Wang Chongxiao，Ma Guofu，Zhou Zaihua. Structure evolution and sedimentary filling of Jiuquan Basin in Mesozoic-Cenozoic period， NW China［J］. Petroleum Exploration and Development，2005，32（1）：33-36.

［26］Haskin M A，Haskin L A. Rare earth in European shales：A redetermination［J］. Science，1966，154：507-509.

［27］赵志根.不同球粒陨石平均值对稀土元素参数的影响———兼论球粒陨石标准［J］.标准化报道，2000，21（3）：15-16.

Zhao Zhigen. Effect of different chondrite on the parameter of rare— earth elements：Discussion on the standard of chondrite［J］. Reporting of Standardization，2000，21（3）：15-16.

［28］McLennan S M，Hemming S，McDaniel M J，et al. Geochemical approaches to sedimentation，provenance and tectonics［G］∥Jonhanson M J，Basu A. Processes controlling the composit ion of clastic sediments boulder，Colorado：Geological Society of America Special Paper 284，1993：21-40.

［29］王中刚，于学元，赵振华.稀土元素地球化学［M］.北京：科学出版社，1989：76-88.

Wang Zhonggang，Yu Xueyuan，Zhao Zhenhua. Rare earth element ［M］. Beijing：Science Press，1989：76-88.

［30］刘俊海，杨香华，于水，等.东海盆地丽水凹陷古新统沉积岩的稀土元素地球化学特征［J］.现代地质，2003，17（4）：421-427.

Liu Junhai，Yang Xianghua，Yu Shui，et al. The REE geochemical characteritics of Paleocene-eocene in the Lishui Sag of the Donghai Basin［J］. Geoscience，2003，17（4）：421-427.

［31］Gu X X，Liu J M，Zheng M H，et al. Provenance and tectonic setting of the Proterozoic turb idites in Hunan，South China：geochemical evidence［J］. Journal of Sedimentary Research，2002，72（3）：393-407.

Related Articles 15

[1]	BAI Jiajia, SI Shuanghu, TAO Lei, WANG Guoqing, WANG Longlong, SHI Wenyang, ZHANG Na, ZHU Qingjie. Mechanism of DES+CTAB composite oil displacement agent system to improve oil recovery of low-permeability tight sandstone reservoirs [J]. Lithologic Reservoirs, 2024, 36(1): 169-177.
[2]	YANG Kaile, HE Shenglin, YANG Zhaoqiang, WANG Meng, ZHANG Ruixue, REN Shuangpo, ZHAO Xiaobo, YAO Guangqing. Diagenesis characteristics of tight sandstone reservoirs with high temperature,overpressure and high CO₂ content: A case study of Neogene Meishan-Huangliu Formation in LD10 area,Yinggehai Basin [J]. Lithologic Reservoirs, 2023, 35(1): 83-95.
[3]	LI Chuanliang, WANG Fenglan, DU Qinglong, YOU Chunmei, SHAN Gaojun, LI Binhui, ZHU Suyang. Water displacement rules of sandstone reservoirs at extra-high water-cut stage [J]. Lithologic Reservoirs, 2021, 33(5): 163-171.
[4]	LONG Shengfang, WANG Yushan, LI Guoliang, DUAN Chuanli, SHAO Yingming, HE Yongmei, CHEN Lingyun, JIAO Xu. Heterogeneity characteristics of tight reservoir of lower submember of He 8 member in Su 49 block,Sulige gas field [J]. Lithologic Reservoirs, 2021, 33(2): 59-69.
[5]	GAO Jixian, SUN Wenju, WU Peng, DUAN Changjiang. Accumulation characteristics of Upper Paleozoic tight sandstone in Shenfu block,northeastern margin of Ordos Basin [J]. Lithologic Reservoirs, 2021, 33(1): 121-130.
[6]	ZHANG Yan, GAO Shichen, MENG Wanying, CHENG Yuhong, JIANG Sisi. Uncertainty analysis in AVO forward modeling for tight sandstone reservoirs [J]. Lithologic Reservoirs, 2020, 32(6): 120-128.
[7]	ZHANG Peng, YANG Qiaoyun, FAN Yiren, ZHANG Yun, ZHANG Haitao. Gas-bearing property evaluation of tight sandstone reservoir based on Xu-White model [J]. Lithologic Reservoirs, 2020, 32(6): 138-145.
[8]	YANG Zhaoping, YUE Shijun, ZHENG Changlong, LIU Xiongzhi, CHEN Gengxin. Production split method restricted synthetically by multi-factors in thin interbed sandstone reservoirs [J]. Lithologic Reservoirs, 2018, 30(6): 117-124.
[9]	SHANG Qinghua, WANG Yuxia, HUANG Chunxia, CHEN Longlong. Supercritical and non-supercritical CO₂ flooding characteristics in tight sandstone reservoir [J]. Lithologic Reservoirs, 2018, 30(3): 153-158.
[10]	HAN Jingjing, LIU Jian, WU Long. Fracturing technology of Chang 6 tight sandstone reservoir in Ordos Basin [J]. Lithologic Reservoirs, 2017, 29(1): 130-134.
[11]	Chai Yu,Wang Guiwen . Petrophysical facies classification of tight sandstone reservoir and high-quality reservoir prediction: A case study from the second member of Xujiahe Formation in Anyue area, central Sichuan Basin [J]. Lithologic Reservoirs, 2016, 28(3): 74-85.
[12]	Liu Xiaohong,Feng Mingyou,Xi Aihua,Yan Xiaorong,Wu Yu,Liu Chang. Diagenesis and pore evolution of Carboniferous volcanic reservoirs in Dixi area, Kelameili Gas Field [J]. Lithologic Reservoirs, 2016, 28(1): 38-48.
[13]	Wu Zhixiong,Wang Bo,Zhao Jian,Zou Kaizhen,Zhou Fei,Xiong Kun. Diagenesis of Jurassic and its influence on reservoir properties in Niudong area, eastern Altun foreland [J]. Lithologic Reservoirs, 2016, 28(1): 58-64.
[14]	Yang Xiaoli,Dong Xuehua,Guo Aihua,Chen Qiyan,Wang Hailong. Sedimentary environment and reservoir characteristics during depositional stage of Es 3 in Gaobei ramp region [J]. Lithologic Reservoirs, 2016, 28(1): 65-71.
[15]	Jiang Yanxia,Wen Huaguo,Zhang Haang,Liu Yapeng,Li Yun,Jin Jun. Diagenesis of sandstone reservoirs of Qigu Formation in Fudong slope area, eastern Junggar Basin [J]. LITHOLOGIC RESERVOIRS, 2015, 27(6): 78-86.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 10

[1]	YANG Zhanlong,ZHANG Zhenggang,CHEN Qilin,GUO Jingyi,SHA Xuemei,LIU Wensu. Using multi-parameters analysis of seismic information to evaluate lithologic traps in continental basins[J]. Lithologic Reservoirs, 2007, 19(4): 57 -63 .
[2]	FANG Chaohe, WANG Yifeng, ZHENG Dewen, GE Zhixin. Maceral and petrology of Lower Tertiary source rock in Qintong Sag, Subei Basin[J]. Lithologic Reservoirs, 2007, 19(4): 87 -90 .
[3]	LIN Chengyan, TAN Lijuan, YU Cuiling. Research on the heterogeneous distribution of petroleum(Ⅰ)[J]. Lithologic Reservoirs, 2007, 19(2): 16 -21 .
[4]	WANG Tianqi, WANG Jiangong, LIANG Sujuan, SHA Xuemei. Fine oil exploration of Putaohua Formation in Xujiaweizi area, Songliao Basin[J]. Lithologic Reservoirs, 2007, 19(2): 22 -27 .
[5]	WANG Xiwen,SHI Lanting,YONG Xueshan,YNAG Wuyang. Study on seismic impedance inversion[J]. Lithologic Reservoirs, 2007, 19(3): 80 -88 .
[6]	HE Zongbin,NI Jing,WU Dong,LI Yong,LIU Liqiong,TAI Huaizhong. Hydrocarbon saturation determined by dual-TE logging[J]. Lithologic Reservoirs, 2007, 19(3): 89 -92 .
[7]	YUAN Shengxue,WANG Jiang. Identification of the shallow gas reservoir in Shanle area,Tuha Basin[J]. Lithologic Reservoirs, 2007, 19(3): 111 -113 .
[8]	CHEN Fei，WEI Dengfeng，YU Xiaolei，WU Shaobo. Sedimentary facies of Chang 2 oil-bearing member of Yanchang Formation in Yanchi-Dingbian area, Ordos Basin[J]. Lithologic Reservoirs, 2010, 22(1): 43 -47 .
[9]	XU Yunxia，WANG Shanshan，YANG Shuai. Using Walsh transform to improve signal-to-noise ratio of seismic data[J]. Lithologic Reservoirs, 2009, 21(3): 98 -100 .
[10]	LI Jianming，SHI Lingling，WANG Liqun，WU Guangda. Characteristics of basement reservoir in Kunbei fault terrace belt in southwestern Qaidam Basin[J]. Lithologic Reservoirs, 2011, 23(2): 20 -23 .

TRENDMD: