Abstract
The Gan-Hang Belt in Southeast China is characterized by several igneous and siliciclastic basins associated with crustal extension during Late Mesozoic. The sedimentary evolution of the red basins is still poorly understood. In this study, sedimentary facies analysis and pebble counting were performed on outcrop sections of the Late Cretaceous Guifeng Group in the Yongfeng-Chongren Basin in central Jiangxi Province. Thirty-five conglomerate outcrops were chosen to measure pebble lithology, size, roundness, weathering degree and preferred orientation. Results show that gravels are mostly fine to coarse pebbles and comprise dominantly quartzites, metamorphic rocks, granitoids and sandstones. Rose diagrams based on imbricated pebbles indicate variable paleocurrent directions. Combining with typical sedimentary structures and vertical successions, we suggest that the Guifeng Group were deposited in alluvial fan, river and playa lake depositional systems. The proposed depositional model indicates that the Hekou Formation represents the start-up stage of the faulted basin, accompanied by sedimentation in alluvial fan and braided river environments. Then this basin turned into a stable expansion stage during the deposition of the Tangbian Formation. Except for minor coarse sediments at the basin margin, the other area is covered with fine-grained sediments of lake and river environments. The Lianhe Formation, however, is once again featured by conglomerates, suggesting a probable tectonic event. Therefore, the study region possibly suffered two tectonic events represented by the conglomerates of the Hekou and Lianhe formations in the context of the crustal extension in Southeast China.
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Blair TC, McPherson JG. (2009) Processes and forms of alluvial fans. In: Parsons AJ, Abrahams AD (Eds.). Geomorphology of Desert Environments (2nd edition). Springer Science + Business Media B.V. DOI: 10.1007/978-1-4020-5719-9_14
Cao K (2013) Cretaceous terrestrial stratigraphic correlation in China. Geological. Review 59(1): 24–40. (In Chinese)
Catuneanu O, Abreu V, Bhattacharya JP, et al. (2009) Towards the standardization of sequence stratigraphy. Earth-Science Reviews 92(1-2): 1–33. DOI: 10.1016/j.earscirev.2008.10.003
Chen LQ, Guo FS, Liang W (2014) A review of terrestrial sequence stratigraphy. Journal of stratigraphy 38(2): 227–235. (In Chinese)
Ebinghaus A, Mc Cann T, Augustsson C. (2012) Facies and provenance analysis of Paleogene-age alluvial conglomerates from the northern part of the Mesta Basin, SW Bulgaria. Geological. Journal 47(4): 409–425. DOI: 10.1002/gj.1348
Goodell PC, Gilder S, Fang X (1991) A preliminary description of the Can-Hang failed rift, southeastern China. Tectonophysics 197(2-4): 245–255. DOI: 10.1016/0040-1951(91)90044-S
Guo FS, Jiang YB, Hu ZH, et al. (2011) Evolution and genesis system features of Danxia landform in Longhushan World Geopark. Journal of Mountain. Science 29(2): 195–201. DOI: 10.3969/j.issn.1008-2786.2011.02.008 (In Chinese)
Guo FS, Zhu ZJ, Huang BH, et al. (2013) Cretaceous sedimentary system and their relationship with Danxia landform in Xinjiang Basin, Jiangxi. Acta Sedimentologica. Sinica 31(6): 954–964. (In Chinese)
Hu RZ, Bi XW, Zhou MF, et al. (2008) Uranium metallogenesis in South China and its relationship to crustal extension during the Cretaceous to Tertiary. Economic. Geology 103(3): 583–598. DOI: 10.2113/gsecongeo.103.3.583
Jiang YB, Guo FS, Chen SS (2013) Spatial distribution and its genesis of the Danxia landforms in Xinjiang Basin, Jiangxi. Journal of Mountain. Science 31(6): 731–737. (In Chinese)
Jo HR, Rhee CW, Chough SK (1997) Distinctive characteristics of a streamflow-dominated alluvial fan deposit: Sanghori area, Kyongsang Basin (Early Cretaceous), southeastern Korea. Sedimentary Geology 110(1-2): 51–79. DOI: 10.1016/S0037-0738(96)00083-8
Kusky TM, Ye MH, Wang JP, et al. (2010) Geological evolution of Longhushan World Geopark in relation to global tectonics. Journal of Earth. Science 21(1): 1–18. DOI: 10.1007/s12583-010-0009-0
Li JH, Zhang YQ, Dong SW, et al. (2014) Cretaceous tectonic evolution of South China: A preliminary synthesis. Earth-Science. Reviews 134: 98–136. DOI: 10.1016/j.earscirev. 2014.03.008
Li XH (2000) Cretaceous magmatism and lithospheric extension in Southeast China. Journal of Asian Earth. Sciences 18(3): 293–305. DOI: 10.1016/S1367-9120(99)00060-7
Li XH, Li WX, Li ZX (2007) On the genetic classification and tectonic implications of the Early Yanshanian granitoids in the Nanling Range, South China. Chinese Science. Bulletin 52(14): 1873–1885. DOI: 10.1007/s11434-007-0259-0
Lindsey DA, Langer WH, Van Gosen BS (2007) Using pebble lithology and roundness to interpret gravel provenance in piedmont fluvial systems of the Rocky Mountains, USA. Sedimentary Geology 199(3-4): 223–232. DOI: 10.1016/j. sedgeo.2007.02.006
Mao JW, Chen YB, Chen MH, et al. (2013) Major types and time-space distribution of Mesozoic ore deposits in South China and their geodynamic settings. Mineralium. Deposita 48(3): 267–294. DOI: 10.1007/s00126-012-0446-z
Miao X, Lu H, Li Z, et al. (2008) Paleocurrent and fabric analyses of the imbricated fluvial gravel deposits in Huangshui valley, the northeastern Tibetan Plateau, China. Geomorphology 99(1-4): 433–442. DOI: 10.1016/j.geomorph. 2007.12.005
Pettijohn FJ (1975) Sedimentary Rocks (3rd edition). New York: Harper & Row.
Potter PE, Pettijohn FJ (1977) Paleocurrents and Basin Analysis. Berlin: Springer-Verlag.
Sciunnach D, Scardia G, Tremolada F (2010) The Monte Orfano Conglomerate revisited: stratigraphic constraints on Cenozoic tectonic uplift of the Southern Alps (Lombardy, northern Italy). International Journal of Earth. Sciences 99(6): 1335–1355. DOI: 10.1007/s00531-009-0452-2
Shu LS, Zhou XM, Deng P, et al. (2009) Mesozoic tectonic evolution of the southeast China block: New insights from basin analysis. Journal of Asian Earth. Sciences 34(3): 376–391. DOI: 10.1016/j.jseaes.2008.06.004
Tucker ME (2003) Sedimentary Rocks in the Field (3rd edition). England: John Wiley & Sons Ltd.
Wang WT, Kirby E, Zhang PZ, et al (2013) Tertiary basin evolution along the northeastern margin of the Tibetan Plateau: Evidence for basin formation during Oligocene transtension. Geological Society of America Bulletin 125(3-4): 377–400. DOI: 10.1130/B30611.1
Wu JH (1995) A discussion on the Late Mesozoic basin features and strata division in northeast Jiangxi Province. Journal of East China Geological Institute 18(2): 143–151. (In Chinese)
Yagishita K (1997) Paleocurrent and fabric analyses of the fluvial conglomerates of the Paleogene Noda Group, northeast Japan. Sedimentary Geology 109(1-2): 53–71. DOI: 10.1016/S0037-0738(96)00058-9
Yang SY, Jiang SY, Jiang YH, et al. (2011) Geochemical, zircon U-Pb dating and Sr-Nd-Hf isotopic constraints on the age and petrogenesis of an Early Cretaceous volcanic-intrusive complex at Xiangshan, Southeast China. Mineralogy and Petrology 101(1-2): 21–48. DOI: 10.1007/s00710-010-0136-4
Yu XQ, Shu LS, Yan TZ, et al. (2005) Prototype and sedimentation of red basins along the Ganhang tectonic belt. Acta Sedimentologica. Sinica 23(1): 12–20. DOI: 10.3969/ j.issn.1000-0550.2005.01.002 (In Chinese)
Zhou XM, Sun T, Shen WZ, et al. (2006) Petrogenesis of Mesozoic granitoids and volcanicrocks in South China: A response to tectonic evolution.. Episodes 29(1): 26–33.
Zhu C, Peng H, Ouyang J, et al. (2010) Rock resistance and the development of horizontal grooves on Danxia slopes. Geomorphology 123(1-2): 84–96. DOI:10.1016/j.geomorph. 2010.07.002
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Chen, Lq., Guo, Fs. & Tang, C. Evolution of the Late Cretaceous Yongfeng-Chongren Basin in Jiangxi Province, southeast China: insights from sedimentary facies analysis and pebble counting. J. Mt. Sci. 13, 342–351 (2016). https://doi.org/10.1007/s11629-014-3387-4
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DOI: https://doi.org/10.1007/s11629-014-3387-4