Meng Qingren, Xue Feng, Zhang Guowei. Conglomerate Sedimentation and its Tectonic Implication,Heihe Area Within Shangdan Zone of the Qinling[J]. Acta Sedimentologica Sinica, 1994, 12(3): 37-46.
| Citation:
|
Meng Qingren, Xue Feng, Zhang Guowei. Conglomerate Sedimentation and its Tectonic Implication,Heihe Area Within Shangdan Zone of the Qinling[J]. Acta Sedimentologica Sinica, 1994, 12(3): 37-46.
|
Conglomerate Sedimentation and its Tectonic Implication,Heihe Area Within Shangdan Zone of the Qinling
-
Abstract
The Shangdan fault zone is the most important tectonic boundary within the Qinling orogen during the Phanerozic. A large volume of sedimentary rocks,which formed in the subduction process of north and south qnling plates,is preserved in the zone. Conglomerate is the facies which is believed to be closely related to orogenesis. Different sorts of conglomerate are produced in distinct tectonic settings. Heihe conglomerate within the Shangdan zone was considered to be Mollasse of basal conglomerate in previous studies, and accordingly served as a crucial piece of evidence supporting the inferrence that the Qinlin orogenic belt was built during the Caledonian period. However,this study shows that Heihe conglomerates is actually fore一arc deposits in the process of plate subduction and can not be interpreted as product resulting from plate collison. Heihe conglomerate can be divided into six different facies and two distinct facies associations.Most facies were deposited from debris flows and density一modified grainflows, and conglomeratic beds show clear evidence of laminar flow. The others represent gravelly high一density turbidites.Grading is well developed in conglomerate beds,including inverse, inverse一to一normal, and normal,but structureless or massive beds are also common. Some of gravity flows probably underwent flow transformation,for instance,certain debris flows might originate from turbidity currents. It is proved that all the conglomerate formed in a subaqueous environments. This conclusion is mainly based upon the analyses of internal sedimentary structures of conglomerates and their close association with turbidites. Two distinct facies associations actually build two independent conglomerate lenticular bodies in space. Association I consists predominantly of clast一supported conglomerate with abundant are derived materials, and pyroclastic rocks are clearly coexisting. It is believed that Association I was deposited from lahar which flowed from volcanic island to a foreare basin. Matrix一supported conglomerate is characteristic of Association Ⅱ and obviously interlayered with fine to medium grained turbidites. Especially,the two associations occurred separately,indicating that they were typically two independent subaqueous apron deposit. Different factors controlled the development of the two distinct aprons. Volcanic eruptions were the main cause of initiation of lahar which produced Association I,while faulting triggered the occurrence of submarine gravity flows which brought about formation of Assocition Ⅱ. A direct relationship exists between sedimentation of conglomerate and co一existing lithofacies and evolution of Danfeng ophiolites. Sedimentary sequence conformably overlies volcanic rocks of southern arcflank of the inferred arc and is approximately concurrent with arc development.Conglomerate,together with other lithofacies, was evidently fore一are basin fills and resulted from coeval subduction tectonism. The two associations occurred in different parts of basin and therefore possessed distinct facies sequences. Heihe area was marked by occurrence of small一scale apron deposits instead of well一developed large一scale submarine fans, reflecting an unstable tectonic sedimentary environment at that time.
-
References
|
[1]
|
肖思云,张维吉,宋子季,1988,北秦岭变质地层,西安:西安交通大学出版社。 |
|
[2]
|
于在平,孙勇,张成立,Altenberger, U.,1981,秦岭商丹缝合带变质砂岩地球化学特及构造环境探讨,地质论评,37(6) ; 492~507. |
|
[3]
|
张国伟,1991,试论秦岭造山带岩石圈构造演化基本特征,西北大学学报,21(2) : 77-87. |
|
[4]
|
Dickinson,W. R. and Seely/y,D. R.,1979, Structure and stratigraphy of fore一arc regions, Bull,Am.Assoc. Pet. Geol.,V.63,p.2~31. |
|
[5]
|
Fisher, R. V.,1971, Features of coarse一grained, high一concentration fluids and their deposits. J. Sediment.Petrol., V. 91, p. 916一927. |
|
[6]
|
Fisher, R. V.,1983,F1ow transformations in sediment gravity flow. Geology,V. 11,p. 273~274. |
|
[7]
|
Hampton, M. A.,1972,The role of subaqueous debris flow in generating turbidity currents. J. Sediment.Petrol. V. 92, p. 775一739. |
|
[8]
|
Hampton, M. A.,1975,Competence of fine一grained debris flows. J. Sediment. Petrol., V. 45, p. 834一899. |
|
[9]
|
Johnson, A. M.,1970.Physical processes in geology. Freeman,Cooper and Co.,San Francisco. |
|
[10]
|
Karig, D. E. and Sharman, G. F.,1975, Subduction and accretion in trenches, Geol. Soc. Am. Bull., V. 86, p.377-389. |
|
[11]
|
Lowe,D.R.,1976,Grain flow and grain flow deposits,J. Sediment. Petrol. V. 46,P. 188~199. |
|
[12]
|
Lowe,D. R.,1982,Sediment gravity flow:1 .Depositional models with special references to the deposit of high一density tubidity currents. J. Sediment. Petrol., V. 52,p. 279一297. |
|
[13]
|
Naylor, M. A.,1980,The,on琪n of inverse grading in muddy debris flow deposits一a review. J. Sediment.Petrol.,V.50,p. 1111~1116. |
|
[14]
|
Nemec, W. and Stee1,R. J.,1989,Alluvial and coastal conglomenrates;their significancant features and some comments on gravelly mass一flow deposits, Can. Soc. Petrol. Geol.,Mem. 10,p. 1~31. |
-
-
Proportional views
-
DownLoad: