地质科学
地質科學
지질과학
SCIENTIA GEOLOGICA SINICA
2010年
1期
181-193
,共13页
冯志硕%张志诚%李建锋%郭召杰
馮誌碩%張誌誠%李建鋒%郭召傑
풍지석%장지성%리건봉%곽소걸
石包城盆地%沉积特征%阿尔金断裂%上新统%古流向
石包城盆地%沉積特徵%阿爾金斷裂%上新統%古流嚮
석포성분지%침적특정%아이금단렬%상신통%고류향
Shibaocheng Basin%Sedimentary characteristic%Altyn Tagh fault system%Pliocene%Paleocurrent
阿尔金断裂是由阿尔金主干断层及其它次级断裂组成的巨型走滑断裂系,其分布规律符合左行走滑挤压模式.石包城盆地位于阿尔金断裂带内,为祁连山所围限,面积大约为3 000 km~2.通过对盆地上新统地层、砾岩砾石成份、古流向等沉积特征的综合研究分析表明:盆地南部边缘位于土大坂以南,主要由砾岩和含砾砂岩组成,其中灰岩占砾石成份80%以上;盆地东部边缘在石包城乡地区,砾岩砾石成份以花岗岩、片岩和片麻岩等变质岩居多,夹杂少量硅质岩;盆地的沉降中心位于双泉井子附近,靠近阿尔金断裂一侧;石包城盆地古水流方向为北西和北北西方向,说明该地区地势自南东至北西方向逐渐降低,盆地南东方向应为隆起区;石包城盆地双泉井子以西物源区应为盆地南缘的大雪山等一系列山体,而东北部物源应来自石包城乡附近的山体.石包城盆地是阿尔金断裂带中主干断层与分枝断层联合作用形成的走滑分枝盆地,从上新世以来,盆地至今扩张量约为30~40 km.按相同的位移速率,本文估算了阿尔金主干断层石包城段自渐新世以来的走滑量,大约为218 km.
阿爾金斷裂是由阿爾金主榦斷層及其它次級斷裂組成的巨型走滑斷裂繫,其分佈規律符閤左行走滑擠壓模式.石包城盆地位于阿爾金斷裂帶內,為祁連山所圍限,麵積大約為3 000 km~2.通過對盆地上新統地層、礫巖礫石成份、古流嚮等沉積特徵的綜閤研究分析錶明:盆地南部邊緣位于土大坂以南,主要由礫巖和含礫砂巖組成,其中灰巖佔礫石成份80%以上;盆地東部邊緣在石包城鄉地區,礫巖礫石成份以花崗巖、片巖和片痳巖等變質巖居多,夾雜少量硅質巖;盆地的沉降中心位于雙泉井子附近,靠近阿爾金斷裂一側;石包城盆地古水流方嚮為北西和北北西方嚮,說明該地區地勢自南東至北西方嚮逐漸降低,盆地南東方嚮應為隆起區;石包城盆地雙泉井子以西物源區應為盆地南緣的大雪山等一繫列山體,而東北部物源應來自石包城鄉附近的山體.石包城盆地是阿爾金斷裂帶中主榦斷層與分枝斷層聯閤作用形成的走滑分枝盆地,從上新世以來,盆地至今擴張量約為30~40 km.按相同的位移速率,本文估算瞭阿爾金主榦斷層石包城段自漸新世以來的走滑量,大約為218 km.
아이금단렬시유아이금주간단층급기타차급단렬조성적거형주활단렬계,기분포규률부합좌행주활제압모식.석포성분지위우아이금단렬대내,위기련산소위한,면적대약위3 000 km~2.통과대분지상신통지층、력암력석성빈、고류향등침적특정적종합연구분석표명:분지남부변연위우토대판이남,주요유력암화함력사암조성,기중회암점력석성빈80%이상;분지동부변연재석포성향지구,력암력석성빈이화강암、편암화편마암등변질암거다,협잡소량규질암;분지적침강중심위우쌍천정자부근,고근아이금단렬일측;석포성분지고수류방향위북서화북북서방향,설명해지구지세자남동지북서방향축점강저,분지남동방향응위륭기구;석포성분지쌍천정자이서물원구응위분지남연적대설산등일계렬산체,이동북부물원응래자석포성향부근적산체.석포성분지시아이금단렬대중주간단층여분지단층연합작용형성적주활분지분지,종상신세이래,분지지금확장량약위30~40 km.안상동적위이속솔,본문고산료아이금주간단층석포성단자점신세이래적주활량,대약위218 km.
The Altyn Tagh fault,a major strike-slip fault system in NW China,is consists of the main fault and the subsidiary faults with a distribution pattern corresponds to a simple shear model.Shibaocheng Basin is located in the south of the eastern section of Altyn Tagh fault,confined by Qilian Mountains,covered an area of approximately 3 000 km~2.The sedimentary characteristics,such as the Pliocene stratigraphic features,conglomerate gravel compositions and paleocurrent,has been studied.The southern fringe of the Sbibaocheng Basin,located at south of Tudaban,is composed mainly by the conglomerate and pebbly sandstone,which limestone gravel components accounted for more than 80%.The eastern edge of Shibaocheng Basin,situated near Shibaocheng Town,is consist of sandstone and siltstone with some conglomerate,which gravel compositions mostly are granite,schist,gneiss and other metamorphic rocks.The sedimentary center of the basin is located in the vicinity of Shuangquanjingzi,close to the side of the Altyn Tagh fault.The paleocurrent direction of Pliocene formation was from SE to NW and N-W-N.The terrain of Shibaocheng Basin was gradual lowering from South East to North West during Pliocene.The source area of the western Shibaocheng Basin was the Daxue Mountains and some other mountain,which is located in the southern to the Shibaocheng Basin.The source area of the eastern Shibaocheng Basin was the uplift mountains near the Shibaocheng town.Shibaocheng Basin is a strike-slip branch basin formed by interaction of the Altyn main fault and its branch faults.The Basin began to extend in Pliocene and its extensional width is now about 30~40 km.The extending rate of the Shibaocheng Basin is about 0.66 cm/a.Based on the same rate,the displacement of the Altyn main fault is approximately estimated 218 km from Oligocene in Subei-Shibaocheng segment.