[1] Dewey J F. Extensional collapse of orogens[J]. Tectonics, 1988, 7(6): 1123-1139.
[2] Leech M L. Arrested orogenic development: Eclogitization, delamination, and tectonic collapse[J]. Earth and Planetary Science Letters, 2001, 185(1/2): 149-159.
[3] Li S G, Huang F, Li H. Post-collisional lithosphere delamination of the Dabie-Sulu orogen[J]. Chinese Science Bulletin, 2002, 47(3): 259-263.
[4] 吴福元,黄宝春,叶凯,等. 青藏高原造山带的垮塌与高原隆升[J]. 岩石学报,2008,24(1):1-30.

Wu Fuyuan, Huang Baochun, Ye Kai, et al. Collapsed Himalayan-Tibetan orogen and the rising Tibetan Plateau[J]. Acta Petrologica Sinica, 2008, 24(1): 1-30.
[5] Giovanni M K, Horton B K, Garzione C N, et al. Extensional basin evolution in the Cordillera Blanca, Peru: Stratigraphic and isotopic records of detachment faulting and orogenic collapse in the Andean hinterland[J]. Tectonics, 2010, 29(6): TC6007.
[6] Therrien F. Depositional environments and fluvial system changes in the dinosaur-bearing Sânpetru Formation (Late Cretaceous, Romania): Post-orogenic sedimentation in an active extensional basin[J]. Sedimentary Geology, 2006, 192(3/4): 183-205.
[7] Bulois C, Pubellier M, Chamot-Rooke N, et al. From orogenic collapse to rifting: A case study of the northern Porcupine Basin, offshore Ireland[J]. Journal of Structural Geology, 2018, 114: 139-162.
[8] Sun J P, Dong Y P. Middle-Late Triassic sedimentation in the Helanshan tectonic belt: Constrain on the tectono-sedimentary evolution of the Ordos Basin, North China[J]. Geoscience Frontiers, 2019, 10(1): 213-227.
[9] 任纪舜. 论中国南部的大地构造[J]. 地质学报,1990,64(4):275-288.

Ren Jishun. On the geotectonics of southern China[J]. Acta Geologica Sinica, 1990, 64(4): 275-288.
[10] Faure M, Shu L S, Wang B, et al. Intracontinental subduction: A possible mechanism for the Early Palaeozoic orogen of SE China[J]. Terra Nova, 2009, 21(5): 360-368.
[11] Li Z X, Li X H, Wartho J A, et al. Magmatic and metamorphic events during the Early Paleozoic Wuyi-Yunkai orogeny, southeastern South China: New age constraints and pressure-temperature conditions[J]. GSA Bulletin, 2010, 122(5/6): 772-793.
[12] 李三忠,李玺瑶,赵淑娟,等. 全球早古生代造山带(Ⅲ):华南陆内造山[J]. 吉林大学学报(地球科学版),2016,46(4):1005-1025.

Li Sanzhong, Li Xiyao, Zhao Shujuan, et al. Global Early Paleozoic orogens (Ⅲ): Intracontinental orogen in South China[J]. Journal of Jilin University (Earth Science Edition), 2016, 46(4): 1005-1025.
[13] 张国伟,郭安林,王岳军,等. 中国华南大陆构造与问题[J]. 中国科学:地球科学,2013,43(10):1553-1582.

Zhang Guowei, Guo Anlin, Wang Yuejun, et al. Tectonics of South China continent and its implications[J]. Science China: Earth Science, 2013, 43(10): 1553-1582.
[14] Shu L S, Jahn B M, Charvet J, et al. Early Paleozoic depositional environment and intraplate tectono-magmatism in the Cathaysia Block (South China): Evidence from stratigraphic, structural, geochemical and geochronological investigations[J]. American Journal of Science, 2014, 314(1): 154-186.
[15] Yao W H, Li Z X. Tectonostratigraphic history of the Ediacaran–Silurian Nanhua Foreland Basin in South China[J]. Tectonophysics, 2016, 674: 31-51.
[16] Yao W H, Li Z X, Li W X, et al. Post-kinematic lithospheric delamination of the Wuyi-Yunkai orogen in South China: Evidence from ca. 435 Ma high-Mg basalts[J]. Lithos, 2012, 154: 115-129.
[17] 刘文均,张锦泉,陈洪德. 华南泥盆纪的沉积盆地特征沉积作用和成矿作用[J]. 地质学报,1993,67(3):244-254.

Liu Wenjun, Zhang Jinquan, Chen Hongde. Geological features of Devonian sedimentary basins in South China and their deposition and mineralization[J]. Acta Geologica Sinica, 1993, 67(3): 244-254.
[18] 陈洪德,张锦泉,刘文均. 泥盆纪—石炭纪右江盆地结构与岩相古地理演化[J]. 广西地质,1994,7(2):15-23.

Chen Hongde, Zhang Jinquan, Liu Wenjun. Structure of Youjiang Basin in Devonian-Carboniferous period and its evolution of lithofacies and palageogeography[J]. Guangxi Geology, 1994, 7(2): 15-23.
[19] 刘文均. 海西—印支期华南板块的沉积特点[J]. 成都理工学院学报,1998,25(2):328-336.

Liu Wenjun. Evolution of sedimentation of South China Plate in the Hercynian-Indosinian stage[J]. Journal of Chengdu University of Technology, 1998, 25(2): 328-336.
[20] Chen D Z, Qing H R, Yan X, et al. Hydrothermal venting and basin evolution (Devonian, South China): Constraints from rare earth element geochemistry of chert[J]. Sedimentary Geology, 2006, 183(3/4): 203-216.
[21] Li Z X, Li X H. Formation of the 1300-km-wide intracontinental orogen and postorogenic magmatic province in Mesozoic South China: A flat-slab subduction model[J]. Geology, 2007, 35(2): 179-182.
[22] Li Z X, Li X H, Chung S L, et al. Magmatic switch-on and switch-off along the South China continental margin since the Permian: Transition from an Andean-type to a western Pacific-type plate boundary[J]. Tectonophysics, 2012, 532-535: 271-290.
[23] 刘宝珺,许效松. 中国南方岩相古地理图集:震旦纪—三叠纪[M]. 北京:科学出版社,1994:1-188.

Liu Baojun, Xu Xiaosong. Atlas of lithofacies and paleogeography of South China[M]. Beijing: Science Press, 1994: 1-188.
[24] 牟传龙,丘东洲,王立全,等. 湘鄂赣二叠纪岩相古地理研究[J]. 岩相古地理,1997,17(6):1-21.

Mou Chuanlong, Qiu Dongzhou, Wang Liquan, et al. Permian sedimentary facies and palaeogeography in the Hunan-Hubei-Jiangxi region[J]. Sedimentary Facies and Palaeogeography, 1997, 17(6): 1-21.
[25] 何卫红,唐婷婷,乐明亮,等. 华南南华纪—二叠纪沉积大地构造演化[J]. 地球科学:中国地质大学学报,2014,39(8):929-953.

He Weihong, Tang Tingting, Yue Mingliang, et al. Sedimentary and tectonic evolution of Nanhuan-Permian in South China[J]. Earth Science: Journal of China University of Geosciences, 2014, 39(8): 929-953.
[26] 马永生,陈洪德,王国力. 中国南方构造—层序岩相古地理图集:震旦纪—新近纪[M]. 北京:科学出版社,2009:1-301.

Ma Yongsheng, Chen Hongde, Wang Guoli. Atlas of tectono-sequence lithofacies and paleogeography of South China: From Sinian to Neogene[M]. Beijing: Science Press, 2009: 1-301.
[27] Xun Z, Allen M B, Whitham A G, et al. Rift-related Devonian sedimentation and basin development in South China[J]. Journal of Southeast Asian Earth Sciences, 1996, 14(1/2): 37-52.
[28] 马丽芳. 中国地质图集[M]. 北京:地质出版社,2002:1-348.

Ma Lifang. Altas of geological maps of China[M]. Beijing: Geological Publishing House, 2002: 1-348.
[29] Xu Y G, Chung S L, Jahn B M, et al. Petrologic and geochemical constraints on the petrogenesis of Permian-Triassic Emeishan flood basalts in southwestern China[J]. Lithos, 2001, 58(3/4): 145-168.
[30] Huang H, Cawood P A, Hou M C, et al. Zircon U-Pb age, trace element, and Hf isotopic constrains on the origin and evolution of the Emeishan large igneous province[J]. Gondwana Research, 2022, 105: 535-550.
[31] Xu Y G, He B, Chung S L, et al. Geologic, geochemical, and geophysical consequences of plume involvement in the Emeishan flood-basalt province[J]. Geology, 2004, 32(10): 917-920.
[32] 张德高. 广东二叠纪火山事件地层学研究[J]. 中国煤田地质,2000,12(3):5-9.

Zhang Degao. Study on the Permian volcanic eventstratigraphy in Guangdong province[J]. Coal Geology of China, 2000, 12(3): 5-9.
[33] Li X H, Li Z X, Li W X, et al. Initiation of the Indosinian orogeny in South China: Evidence for a Permian magmatic arc on Hainan Island[J]. The Journal of Geology, 2006, 114(3): 341-353.
[34] 夏斌,林清茶,张玉泉. 广东罗定龙塘碱性花岗岩锆石SHRIMP定年及地质意义[J]. 地质科学,2006,41(3):511-517.

Xia Bin, Lin Qingcha, Zhang Yuquan. Zircon SHRIMP dating of the Longtang alkaline granite at Luoding, Guangdong, and its geological implications[J]. Chinese Journal of Geology, 2006, 41(3): 511-517.
[35] 谢才富,朱金初,丁式江,等. 海南尖峰岭花岗岩体的形成时代、成因及其与抱伦金矿的关系[J]. 岩石学报,2006,22(10):2493-2508.

Xie Caifu, Zhu Jinchu, Ding Shijiang, et al. Age and petrogenesis of the Jianfengling granite and its relationship to metallogenesis of the Baolun gold deposit, Hainan Island[J]. Acta Petrologica Sinica, 2006, 22(10): 2493-2508.
[36] Xin Y J, Li J H, Ratschbacher L, et al. Early Devonian (415-400 Ma) A-type granitoids and diabases in the Wuyishan, eastern Cathaysia: A signal of crustal extension coeval with the separation of South China from Gondwana[J]. GSA Bulletin, 2020, 132(11/12): 2295-2317.
[37] 余心起,张德会,颜铁增,等. 浙西北及江绍断裂带分别发现早古生代和晚古生代岩浆活动[J]. 地质通报,2013,32(10):1558-1565.

Yu Xinqi, Zhang Dehui, Yan Tiezeng, et al. The discovery of the Early and Late Paleozoic magmatic activities in northwest Zhejiang province, southeast China[J]. Geological Bulletin of China, 2013, 32(10): 1558-1565.
[38] Yu J H, Liu Q, Hu X M, et al. Late Paleozoic magmatism in South China: Oceanic subduction or intracontinental orogeny?[J]. Chinese Science Bulletin, 2013, 58(7): 788-795.
[39] 沈林伟. 华南东南部晚古生代构造演化:来自岩浆岩及沉积岩的证据[D]. 南京:南京大学,2018:1-152.

Shen Linwei. Late Paleozoic tectonics of southeast South China: Evidenced from igneous and sedimentary rocks[D]. Nanjing: Nanjing University, 2018: 1-152.
[40] 周怀玲,张振贤. 华南早泥盆世的岩相古地理[J]. 广西地质,1993(3):21-32.

Zhou Huailing, Zhang Zhenxian. Early Devonian lithofacies and palaeogeography in South China[J]. Guangxi Geology, 1993(3): 21-32.
[41] Ma X P, Liao W H, Wang D M. The Devonian System of China, with a discussion on sea-level change in South China[J]. Geological Society, London, Special Publications, 2009, 314: 241-262.
[42] Ma X P, Gong Y M, Chen D Z, et al. The Late Devonian Frasnian–Famennian event in South China: patterns and causes of extinctions, sea level changes, and isotope variations[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 2016, 448: 224-244.
[43] Qie W K, Ma X P, Xu H H, et al. Devonian integrative stratigraphy and timescale of China[J]. Science China Earth Sciences, 2019, 62(1): 112-134.
[44] 汪啸风. 中国地层典:奥陶系[M]. 北京:地质出版社,1996:1-126.

Wang Xiaofeng. Stratigraphy of China: Ordovician[M]. Beijing: Geological Publishing House, 1996: 1-126.
[45] Cohen K M, Finney S C, Gibbard P L, et al. The ICS international chronostratigraphic chart[J]. Episodes, 2013, 36(3): 199-204.
[46] 高振家,陈克强,魏家庸. 中国岩石地层辞典[M]. 武汉:中国地质大学出版社,2000:1-628.

Gao Zhenjia, Chen Keqiang, Wei Jiayong. Chinese dictionary of rock stratigraphy[M]. Wuhan: China University of Geosciences Press, 2000: 1-628.
[47] Shen S Z, Zhang H, Zhang Y C, et al. Permian integrative stratigraphy and timescale of China[J]. Science China Earth Sciences, 2019, 62(1): 154-188.
[48] 侯章帅. 华南二叠纪高精度定量古地理研究[D]. 合肥:中国科学技术大学,2020:1-119.

Hou Zhangshuai. High-resolution quantitative paleogeographic study of the Permian in South China[D]. Hefei: University of Science and Technology of China, 2020: 1-119.
[49] 杨帅,陈安清,张玺华,等. 四川盆地二叠纪栖霞—茅口期古地理格局转换及勘探启示[J]. 沉积学报,2021,39(6):1466-1477.

Yang Shuai, Chen Anqing, Zhang Xihua, et al. Paleogeographic transition of the Permian Chihsia-Maokou period in the Sichuan Basin and indications for oil-gas exploration[J]. Acta Sedimentologica Sinica, 2021, 39(6): 1466-1477.
[50] 吴祥和,董文兰,王洪弟,等. 黔西南石炭—二叠“跨纪”沉积层序[J]. 地层学杂志,1983,7(4):289-298.

Wu Xianghe, Dong Wenlan, Wang Hongdi, et al. Carboniferous-Permian cross-period sequence stratigraphy in the southwestern Guizhou[J]. Journal of Stratigraphy, 1983, 7(4): 289-298.
[51] 周建平. 广西隆林常么马平组䗴类化石带:兼论石炭—二叠系分界[J]. 古生物学报,1991,30(3):396-405.

Zhou Jianping. Fusulinid zones from Maping Formation of Changmo, Longlin, Guangxi: On Carboniferous-Permian boundary[J]. Acta Palaeontologica Sinica, 1991, 30(3): 396-405.
[52] 李建成,洪祖寅. 福建沙县船山组䗴类生物地层:兼论石炭系—二叠系界线[J]. 地层学杂志,2003,27(3):185-192.

Li Jiancheng, Hong Zuyin. Biostratigraphy of the Chuanshan Formation of Shaxian in Fujian with comments on the Carboniferous-Permian boundary[J]. Journal of Stratigraphy, 2003, 27(3): 185-192.
[53] 颜铁增. 浙江省船山组的划分与对比[J]. 地层学杂志,2003,27(4):318-323.

Yan Tiezeng. Subdivision and correlation of the Chuanshan Formation in Zhejiang[J]. Journal of Stratigraphy, 2003, 27(4): 318-323.
[54] Watts A B, Ryan W B F. Flexure of the lithosphere and continental margin basins[J]. Developments in Geotectonics, 1976, 12: 25-44.
[55] Sinclair H D, Naylor M. Foreland basin subsidence driven by topographic growth versus plate subduction[J]. GSA Bulletin, 2012, 124(3/4): 368-379.
[56] 王成善,李祥辉. 沉积盆地分析原理与方法[M]. 北京:高等教育出版社,2003:1-378.

Wang Chengshan, Li Xianghui. Sedimentary basin: From principles to analyses[M]. Beijing: Higher Education Press, 2003: 1-378.
[57] 王清晨. 沉积盆地成因学[M]. 北京:科学出版社,2018:1-223.

Wang Qingchen. Genetics of sedimentary basin[M]. Beijing: Science Press, 2018: 1-223.
[58] Hegarty K A, Weissel J K, Mutter J C. Subsidence history of Australia’s southern margin: Constraints on basin models[J]. AAPG Bulletin, 1988, 72(5): 615-633.
[59] 广西壮族自治区地质矿产局. 广西壮族自治区区域地质志[M]. 北京:地质出版社,1985:1-853.

Bureau of Geology and Mineral Resources of Guangxi Zhuang Autonomous Region. Regional geology of Guangxi Zhuang Autonomous Region[M]. Beijing: Geological Publishing House, 1985: 1-853.
[60] 陈洪德,曾允孚,李孝全. 丹池晚古生代盆地的沉积和构造演化[J]. 沉积学报,1989,7(4):85-96.

Chen Hongde, Zeng Yunfu, Li Xiaoquan. Evolution of the sedimentation and tectonics of Late Paleozoic Danchi Basin[J]. Acta Sedimentologica Sinica, 1989, 7(4): 85-96.
[61] 广东省地质矿产局. 广东省区域地质志[M]. 北京:地质出版社,1988:1-941.

Bureau of Geology and Mineral Resources of Guangdong Province. Regional geology of Guangdong province[M]. Beijing: Geological Publishing House, 1988: 1-941.
[62] 毛晓冬,杨振强. 粤北泥盆纪裂陷盆地特征及其演化[J]. 华南地质与矿产,1998(3):26-36.

Mao Xiaodong, Yang Zhenqiang. Characteristics and evolution of Devonian rift basin in northern Guangdong[J]. Geology and Mineral Resources of South China, 1998(3): 26-36.
[63] Chen D, Tucker M E, Zhu J, et al. Carbonate sedimentation in a starved pull-apart basin, Middle to Late Devonian, southern Guilin, South China[J]. Basin Research, 2001, 13(2): 141-167.
[64] 福建省地质矿产局. 福建省区域地质志[M]. 北京:地质出版社,1985:1-671.

Bureau of Geology and Mineral Resources of Fujian Province. Regional geology of Fujian province[M]. Beijing: Geological Publishing House, 1985: 1-671.
[65] 凌联海,楼法生,冯晔,等. 江西省泥盆纪岩石地层划分与对比[J]. 地层学杂志,2004,28(2):126-136.

Ling Lianhai, Lou Fasheng, Feng Ye, et al. The Devonian lithostratigraphic classification and correlation of Jiangxi province[J]. Journal of Stratigraphy, 2004, 28(2): 126-136.
[66] 湖南省地质矿产局. 湖南省区域地质志[M]. 北京:地质出版社,1988:1-728.

Hunan Bureau of Geology and Mineral Resources. Regional geology of Hunan province[M]. Beijing: Geological Publishing House, 1988: 1-728.
[67] 张宁,夏文臣. 华南晚古生代硅质岩时空分布及再扩张残留海槽演化[J]. 地球科学:中国地质大学学报,1998,23(5):480-486.

Zhang Ning, Xia Wenchen. Time-space distribution of Late Paleozoic cherts and evolution of respreading trench in South China[J]. Earth Science: Journal of China University of Geosciences, 1998, 23(5): 480-486.
[68] 梅冥相,马永生,邓军,等. 滇黔桂盆地及其邻区石炭纪至二叠纪层序地层格架及三级海平面变化的全球对比[J]. 中国地质,2005,32(1):13-24.

Mei Mingxiang, Ma Yongsheng, Deng Jun, et al. Carboniferous to Permian sequence stratigraphic framework of the Yunnan-Guizhou-Guangxi Basin and its adjacent areas and global correlation of third-order sea-level change[J]. Geology in China, 2005, 32(1): 13-24.
[69] 杨怀宇. 湘桂地区泥盆纪岩相古地理重建[J]. 西南石油大学学报(自然科学版),2014,36(1):1-8.

Yang Huaiyu. Reconstruction of Devonian lithofacies palaeogeography in Hunan and Guangxi provinces[J]. Journal of Southwest Petroleum University (Science & Technology Edition), 2014, 36(1): 1-8.
[70] 杜远生,徐亚军. 华南加里东运动初探[J]. 地质科技情报,2012,31(5):43-49.

Du Yuansheng, Xu Yajun. A preliminary study on Caledonian event in South China[J]. Geological Science and Technology Information, 2012, 31(5): 43-49.
[71] 徐亚军,杜远生. 从板缘碰撞到陆内造山:华南东南缘早古生代造山作用演化[J]. 地球科学,2018,43(2):333-353.

Xu Yajun, Du Yuansheng. From periphery collision to intraplate orogeny: Early Paleozoic orogenesis in southeastern part of South China[J]. Earth Science, 2018, 43(2): 333-353.
[72] Chen D Z, Tucker M E, Zhu J Q, et al. Carbonate platform evolution: From a bioconstructed platform margin to a sand-shoal system (Devonian, Guilin, South China)[J]. Sedimentology, 2002, 49(4): 737-764.
[73] 曾允孚,陈洪德,张锦泉,等. 华南泥盆纪沉积盆地类型和主要特征[J]. 沉积学报,1992,10(3):104-113.

Zeng Yunfu, Chen Hongde, Zhang Jinquan, et al. Types and main characteristics of Devonian sedimentary basin in South China[J]. Acta Sedi-mentologica Sinia, 1992, 10(3): 104-113.
[74] Chen B, Chen J T, Qie W K, et al. Was climatic cooling during the earliest Carboniferous driven by expansion of seed plants?[J]. Earth and Planetary Science Letters, 2021, 565: 116953.
[75] Chen J T, Montañez I P, Qi Y P, et al. Strontium and carbon isotopic evidence for decoupling of pCO2 from continental weathering at the apex of the Late Paleozoic glaciation[J]. Geology, 2018, 46(5): 395-398.
[76] Gao B, Xin H, Huang X, et al. A record of enhanced water cycle in the Late Paleozoic icehouse[J]. Global and Planetary Change, 2022, 218: 103957.
[77] Haq B U, Schutter S R. A chronology of Paleozoic sea-level changes[J]. Science, 2008, 322(5898): 64-68.
[78] Cocks L R M, Torsvik T H. The dynamic evolution of the Palaeozoic geography of eastern Asia[J]. Earth-Science Reviews, 2013, 117: 40-79.