| Liu, M., Chen, D.Z*., Zhou, X.Q., Yuan, W., Jiang, M.S., Liu, L.J., 2019. Climatic and oceanic changes during the Middle-late Ordovician transition in the Tarim Basin, NW China and implications for the Great Ordovician Biodiversification Event. Palaeogeogr. Paleoclimat. Palaeoecol., 514: 522-535.Ding, Y., Chen, D.Z*., Zhou, X.Q., Huang, T.Y., Guo, C., Yeasmin, R., 2018. Paired d13Ccarb-d13Corg evolution of the Dengying Formation from the northeastern Guizhou and implications for stratigraphic correlation and Late Ediacaran carbon cycle. J. Earth Sci., doi: 10.1007/s12583-018-0886-1.Zou, C.N., Qiu, Z., Poulton, S.W., Dong, D.Z., Wang, H.Y., Chen, D.Z., Liu, B., Shi, Z.S., Tao, H.F., 2018. Ocean euxinia and climate change “double whammy” drove the Late Ordovician mass extinction. Geology, 46 (6): 635-538.Wang, X., Liu, S.A., Wang, Z.R., Chen, D.Z., Zhang, L.Y., 2018. Zinc and strontium isotope evidence for climate cooling and constraints on the Frasnian-Famennian (~372 Ma) mass extinction. Palaeogeogr. Paleoclimat. Palaeoecol., 498: 68-82.Dong, S.F., You, D.H., Guo, Z.H., Guo, C., Chen, D.Z*., 2018. Intense silicification of Ordovician carbonates in the Tarim Basin: Constraints from fluid inclusion Rb-Sr isotope dating and geochemistry of quartz. Terra Nova, 30: 406-413; doi: 10.1111/ter.12356.Guo, C., Chen, D.Z*., Zhou, X.Q., Ding, Y., Wei, W.W., Zhang, G.J., 2018. Depositional facies and cyclic patterns in a subtidal-dominated ramp during the Early-Middle Ordovician in the western Tarim Basin (NW China). Facies, 64:16; doi: 10.1007/s10347-018-0529-0.Guo, C., Chen D.Z*., Song, Y.F., Zhou, X.Q., Ding, Y., Zhang, G.J., Depositional environments and cyclicity of the Early Ordovician carbonate ramp in the western Tarim Basin (NW China). J. Asian Earth Sci., 158: 29-48.De Vleeschouwer, D., da Silva, A.-C., Sinnesael, M., Chen, D.Z., Day, J., Whalen, M., Guo, Z.H., and Claeys, P. 2017. Timing and pacing of the Late Devonian mass extinction event regulated by eccentricity and obliquity. Nature Communications, 8:226; doi: 10.1038/s41467-017-02407-1.Guo, C., Chen, D.Z*., Dong, S.F., Qian, Y.X., Liu, C.G., 2017. Early dolomitisation of the Lower-Middle Ordovician cyclic carbonates in northern Tarim Basin, NW China, Sci. China Earth Sci., 60 (7), 1283-1298; doi: 1007/s11430-017-9056-1.Wei, W.W., Chen, D.Z*., Qing, H.R., Qian, Y.X., 2017. Hydrothermal dissolution of deeply buried Cambrian dolomite rocks and porosity generation: integrated with geological studies and reactive transport modeling in the Tarim Basin, China. Geofluids, 12, 1-19; doi: 10.1155/2017/9562507.Dong, S.F., Chen, D.Z*., Zhou, X.Q., Qing, H.Q., 2017. Tectonically driven dolomitization of Cambrian to Lower Ordovician carbonates of the Quruqtagh area, north-eastern flank of Tarim Basin, north-western China. Sedimentology, 64, 1079-1106.Yeasmin, R., Chen D.Z*., Fu, Y., Guo, C., 2017. Climatic forcing on the organic accumulation across the shelf during the Early Cambrian (Age 2 through 3) in the mid-upper Yangtze Block, NE Guizhou, South China.J. Asian Earth Sci., 134, 365-386.Chen, D.Z., Guo, Z.H., Jiang, M.S., Guo, C., Ding, Y., 2016. Dynamics of cyclic carbonate deposition and biotic recovery on platforms during the Famennian of Late Devonian in Guangxi, South China: Constraints from high-resolution cycle and sequence stratigraphy. Palaeogeogr. Paleoclimat. Palaeoecol., 448, 245-265, doi 10.1016/j.palaeo.2015.11.043.Ma, X.P., Gong, Y.M., Chen, D.Z., Racki, G., Chen, X.Q., Liao, W.H., 2016. The Late Devonian Frasnian-Famennian Event in South China – Patterns and causes of extinctions, sea level changes, and isotope variations. Palaeogeogr. Paleoclimat. Palaeoecol., 448, 224-244, doi 10.1016/j.palaeo.2015.10.047.Guo, C., Chen, D.Z.*, Qing, H.R., Dong, S.F., Li, G.R., Wang, D., Qian, Y.X., Liu, C.G., 2016. Multiple dolomitization and later hydrothermal alteration on the Upper Cambrian-Lower Ordovician carbonates in the northern Tarim Basin. Marine and Petroleum Geology, 72, 295-316.Chen Daizhao, Zhou Xiqiang, Fu Yong, Wang Jianguo, Yan Detian, 2015. New U-Pb zircon ages of the Ediacaran-Cambrian boundary strata in South China. Terra Nova, 27 (1), 62-68.Da Silva, A.C., Whalen, M., Hladil, J., Chadimova, L., Chen, D., Spassov, S., Boulvain, F., Devleeschouwer, X., 2015 (Eds.). Magnetic Susceptibility Application: A window onto Ancient Environments and Climatic Variations. Geological Society (London) Special Publication 414, pp. 283.Zhang Yanqiu, Chen Daizhao*, Zhou Xiqiang, Guo Zenghui, Wei Wenwen, Mutti, M., 2015. Depositional facies and stratal cyclicity of dolomites in the Lower Qiulitag Group (Upper Cambrian) in northwestern Tarim Basin, NW China. Facies, 617, 417. doi 10.1007/s10347-014-0417-1.Zhou Xiqiang, Chen Daizhao*, Tang Dongjie, Dong Shaofeng, Guo chuan, Guo Zenghui, Zhang Yanqiu, 2015. Biogenic iron-rich filaments in the quartz veins in the uppermost Ediacaran Qigebulake Formation, Aksu area, northwestern Tarim Basin, China: Implications for iron oxidizers in subseafloor hydrothermal systems. Astrobiology, 15 (7), 523-537.Zhou Xiqiang, Chen Daizhao*, Dong Shaofeng, Zhang Yanqiu, Guo Zenghui, 2015. Diagenetic barite deposits in the Yurtus Formation in Tarim Basin, NW China: Implications fro barium and sulfur cycling in the earliest Cambrian. Precambrian Research, 263, 79-87.Zhou Xiqiang, Chen Daizhao*, Qing Hairuo, Qian Yixiong, Wang Dan, 2014. Submarine silica-rich hydrothermal activity during the earliest Cambrian in the Tarim Basin, Northwest China. International Geology Review, 56 (15), 1906-1918.Ji Congwei, Qing Hairuo, Chen Daizhao, Luo Ping, Jin Zhijun, Shao Longyi, 2013. Characteristics and dolomitization of Upper Cambrian to Lower Ordovician dolomite from the outcrop in Keping Uplift, western Tarim Basin, Northwest China. Acta Geologica Sinica-English Edition, 87 (4), 1005-1018.Dong ShaoFeng, Chen DaiZhao*, Qing HaiRuo, Jiang MaoSheng, Zhou XiQiang, 2013. In situ stable isotopic constraints on dolomitizing fluids for the hydrothermally-originated saddle dolomites at Keping, Tarim Basin. ChineseScienceBulletin, 58, 2877-2882 [PDF].Dong Shaofeng, Chen Daizhao*, Qing Hairuo, Zhou Xiqiang, Wang Dan, Guo Zenghui, Jiang Maosheng, Qian Yixiong, 2013. Hydrothermal alteration of dolostones in the Lower Ordovician, Tarim Basin, NW China: Multiple constraints from petrology, isotope geochemistry and fluid inclusion microthermometry. Marine and Petroleum Geology, 46, 270-286 [PDF].Chen Daizhao, Wang Jianguo, Racki, G., Li Hua, Wang Chengyuan, Ma Xueping, Whalen, M., 2013. Large sulphur isotopic perturbations and oceanic changes during the Frasnian-Famennian transition of the Late Devonian. J. Geol. Soci. Lond., 170, 465-476 [PDF].Qian Yixiong, You Donghua, Chen Daizhao, Qing Hairuo, He Zhiliang, Ma Yuchun, Tian Mian, Xi Binbin, 2012. The petrographic and geochemical signatures and implication of origin of the Middle and Upper Cambrian dolostones in eastern margin Tarim: Comparative studies with the Whirlpool Point of the Western Sedimentary Basin. Acta Petrologica Sinica, 28 (8), 2524-2541.Wei Hengye, Chen Daizhao*, Wang Jianguo, Yu Hao, Tucker, M.E., 2012. Organic accumulation in the lower Chihsia Formation (Middle Permian) of South China: Constraints from pyrite morphology and multiple geochemical proxies. Palaeogeogr. Palaeoclimat. Palaeoecol., 353-355, 73-86 [PDF].Wei Hengye, Chen Daizhao, Yu Hao, Wang Jianguo, 2012. End-Guadalupian mass extinction and negative carbon isotope excursion at Xiaojiaba, Guangyuan, Sichuan. Sci. China-Earth Sci., 55, 1480-1488[PDF].Wang Jianguo, Chen Daizhao, Yan Detian, Wei Hengye, Xiang Lei, 2012. Evolution from an anoxic to oxic deep ocean during the Ediacaran-Cambrian transition and implications for bioradiation. Chem. Geol., 306-307, 129-138 [PDF].Wang Jianguo, Chen Daizhao*, Wang Dan, Yan Detian, Zhou Xiqiang, Wang Qingchen, 2012. Petrology and geochemistry of chert on the marginal zone of Yangtze Platform, western Hunan, South China, during the Ediacaran-Cambrian transition. Sedimentology, 59, 809-829 [PDF].Yan Detian, Chen Daizhao*, Wang Qingchen, Wang Jianguo, 2012. Predominance of straitified anoxic Yangtze Sea interrupted by short-term oxygenation during the Ordo-Silurian transition. Chem. Geol., 291, 69-78 [PDF].Yan Detian, Chen Daizhao*, Wang Qingchen, Wang Jianguo, 2010. Large-scale climatic fluctuations in the latest Ordovician on Yangzt block, south China. Geology, 38, 599-602 [PDF].Iryu Y., Cabioch G., Chen D.Z*., Matsuda H., Piller W.E. (Eds.), 2009. Carbonates: Biological, Geochemical and Physical Processes. Sediment. Geol., 214, pp.100 (Special issue). Chen Daizhao, Wang Jianguo, Qing Hairuo, Yan Detian, Li Renwei, 2009. Hydrothermal venting activities in the Early Cambrian, South China: Petrological, geochronological and stable isotopic constraints. Chem. Geol., 258: 168-181 [PDF]. Yan Detian, Chen Daizhao*, Wang Qingcheng, Wang Jianguo, Wang Zhuozhuo, 2009. Carbon and sulfur isotopic anomalies across the Ordovician-Silurian boundary on Yangtze Platform, South China. Palaeogeogr. Palaeoclimat. Palaeoecol., 274: 32-39 [PDF]. Yan Detian, Chen Daizhao, Wang Qingcheng, Wang Jianguo, 2009. Geochemical changes across the Ordovician-Silurian transition on the Yangtze Platform, South China. Science in China (Ser. D), 52: 38-54 [PDF]. Yan Detian, Chen Daizhao, Wang Qingcheng, Wang Jianguo, Chu Yang, 2008. Environmental redox changes of the Yangtze Sea during the Ordo-Silurian transition. Acta Geologica Sinica-English Edition, 82 (3): 679-689 [PDF]. Jiang Zaixing, Chen Daizhao, Qiu Longwei, Liang Hongbin and Ma Jun, 2007. Source-controlled carbonates in a small Eocene half-graben lake basin (Shulu Sag) in central Hebei Province, North China. Sedimentology, 54, 265-292 [PDF]. Chen Daizhao, Qing Hairuo, Yan Xin, Li He, 2006. Hydrothermal venting and basin evolution (Devonian, South China): Constraints from rare earth element geochemistry of chert. Sediment. Geol., 183, 203-216 [PDF]. Chen Daizhao, Qing Hairuo, Li Renwei, 2005. The Late Devonian Frasnian-Famennian (F/F) biotic crisis: Insights from δ13Ccarb, δ13Corg, 87Sr/86Sr isotopic systematics. Earth Planet. Sci. Letters, 235, 151-166 [PDF]. Chen Daizhao and Tucker, M.E., 2004. Palaeokarst and its implication for the extinction event at the Frasnian-Famennian boundary (Guilin, South China). Jour.Geol. Soci. London, 161, 895–898 [PDF]. Chen Daizhao, Qing Hairuo and Yang Chao, 2004. Multistage hydrothermal dolomites in the Middle Devonian (Givetian) carbonates from the Guilin area, South China.Sedimentology, 51, 1029–1051 [PDF]. Zhu Jingquan, Li Yongtie, Jiang Maosheng and Chen Daizhao, 2004. Carbon isotopic composition and its implication of the Lower Cretaceous Aptian-Albian shallow water carbonates in the Cuoqin Basin, northern Tibet.Science in China (Series D), 47, 247-254. Chen Daizhao, Tucker, M.E., 2003. Frasnian-Famennian mass extinction: Insights from high-resolution sequence stratigraphy and cyclostratigraphy in South China. Palaeogeogr. Palaeoclimat. Palaeoecol., 193, 87-111 [PDF].Chen Daizhao, Tucker, M.E., Shen Yanan, Yans, J. and Preat, A., 2002. Carbon isotopic excursions and sea-level change: Implications for the Frasnian-Famennian biotic crisis. Jour. Geol. Soci. London, 159, 63-66 [PDF]. Chen Daizhao, Tucker, M.E., Jingquan Zhu and Maosheng Jiang, 2002. Carbonate platform evolution: from a bioconstructed platform margin to a sand shoal system (Devonian, Guilin, South China). Sedimentology, 49, 737-764 [PDF]. Chen Daizhao, Tucker, M.E., Zhu Jingquan and Jiang Maosheng, 2001. Sedimentation in a starved basin, Middle to Late Devonian, southern Guilin, South China. Basin Res., 13, 141-168 [PDF]. Chen Daizhao, Tucker, M.E., Jiang Maosheng and Zhu Jingquan, 2001. Long-distance correlation between tectonic-controlled, isolated carbonate platforms by cyclostratigraphy and sequence stratigraphy in the Devonian of South China. Sedimentology, 48, 57-78 [PDF]. Jiang Maosheng, Zhu Jingquan, Chen Daizhao, Zhang Renhu and Qiao Guangsheng, 2001. Carbon and strontium isotope variations and responses to sea-level fluctuations in the Ordovician of the Tarim Basin. Science in China (Series D), 144, 816-823 [PDF].钱一雄,杜永明,陈代钊,尤东华,张军涛,陈跃,刘忠宝,2014.塔里木盆地肖尔布拉克剖面奇格布拉克组层序界面与沉积相研究。石油实验地质,36(1),1-8.陈代钊,汪建国,严德天,韦恒叶,2012.中扬子地区早寒武世构造-沉积样式与古地理格局。地质科学,47(4):1052-1070. 遇昊,陈代钊,韦恒叶,汪建国,2012.鄂西地区上二叠乐平统大隆组硅质岩成因及有机质富集机理。岩石学报,28(3),1017-1027. 钱一雄,陈代钊,尤东华,卿海若,何志亮,董少峰,马玉春,焦存礼,田密,2012.塔东北库鲁克塔格地区中上寒武统白云岩类型与孔隙演化。古地理学报,14(4),461-476. 陈代钊,汪建国,严德天,韦恒叶,遇昊,王清晨,2011.扬子地区古生代主要烃源岩有机质富集的环境动力学机制与差异。地质科学,46(1),5-26. 汪建国,陈代钊,严德天,韦恒叶,遇昊,2012.湘西地区前寒武纪-寒武纪转折期碳酸盐-硅泥质沉积体系的截然转换:地层-沉积样式、形成机理与意义。地质科学,46(1),27-41. 韦恒叶,陈代钊,2011.鄂西-湘西北地区二叠纪栖霞期岩相古地理。古地理学报,13(5),551-561. 韦恒叶,陈代钊,遇昊,汪建国,2011.鄂西地区中二叠统栖霞组下部烃源岩形成机理。地质科学,46(1):68-82. 遇昊,陈代钊,韦恒叶,汪建国,常华进,2011.二叠纪末期海洋缺氧:来自黄铁矿形态的证据。地质科学,46(1):83091. 严德天,王清晨,陈代钊,汪建国,邱振,2011. 扬子地区晚奥陶世碳酸盐台地淹没事件及其地质意义。地质科学,46(1),42-51.卿海若,陈代钊,2010.非热液成因的鞍形白云石:来自加拿大萨斯喀彻温省东南部奥陶系Yeoman组的岩石学和地球化学证据。沉积学报,28(5),980-986.王丹,陈代钊,杨长春, Hairuo Qing,王旭,吴茂炳,邢秀娟,2010. 埋藏环境白云石结构类型。沉积学报,28(1):17-25.王丹,王旭,陈代钊,杨长春, Hairuo Qing,吴茂炳,邢秀娟,2010. 塔里木盆地塔北、塔中地区寒武系-奥陶系碳酸盐岩中鞍形白云石胶结物特征。地质科学,45(2):580-594.汪建国,陈代钊,严德天,2009. 重大地质转折期的碳、硫循环与环境演变. 地学前缘,16(6):33-47.许志刚,陈代钊,曾荣树,郭凯,李元平,肖斌,王旭, 2009. 我国吉林油田大情字井区块CO2地下埋存试验区地质埋存格架. 地质学报, 83 (6),875-884.许志刚,陈代钊,曾荣树, 2009. CO2地下地质埋存原理和条件. 西南石油大学学报(自然科学版), 31 (1), 91- 97.陈代钊,2008. 构造-热液白云岩化作用与白云岩储层. 石油与天然气地质,29 (5): 614-622. 许志刚,陈代钊,曾荣树,2008. CO2地质埋存渗漏风险及补救对策。地质论评,54 (3): 373-386. 许志刚,陈代钊,曾荣树,郭凯,李元平,2008. CO2地下地质埋存分布状况及环境影响的监测。气候变化研究进展,4 (11): 363-368. 严德天,王清晨,陈代钊,汪建国,王卓卓,2007. 扬子及周缘地区上奥陶统-下志留统烃源岩发育环境及其控制因素。地质学报,82 (2): 321-327. 汪建国,陈代钊,王清晨,严德天,王卓卓,2007.中扬子地区晚震旦世-早寒武世转折期台-盆演化及烃源岩形成机理。地质学报,81 (8): 1102-1109. 许志刚,陈代钊,李胜利,范洪军,韩璐,2007. 南堡地区东营组一段储层敏感性评价及油层保护。沉积与特提斯地质,23 (3): 101-104. 许志刚,陈代钊,曾荣树,2007. CO2的地质埋存与资源化利用进展.地球科学进展,22 (7): 698-707. 王卓卓,陈代钊,汪建国, 2007. 广西南宁地区泥盆纪硅质岩稀土元素地球化学特征及沉积背景. 地质科学, 42 (3): 558-569. 王卓卓,陈代钊,汪建国, 2007. 广西南宁地区泥盆纪硅质岩地球化学特征及沉积环境.沉积学报, 25 (2): 239-245. 陈代钊,王卓卓,汪建国, 2006. 晚泥盆世海洋生态危机与地球各圈层相互作用:来自高分辨率的沉积和同位素地球化学证据。自然科学进展,16 (4): 439-448. 边千韬,朱士兴,I.I. Pospelov, M.A. Semikhatov, 孙淑芬,陈代钊,那春光,2006. 东昆仑南戴中元古代晚期-新元古代早期叠层石组合的发现。地质科学,41 (3): 500-510. Bian Qiantao, Zhu Shixing, Pospelov, I.I., Semikhatove, M.A., Sun Shufen, Chen Daizhao and Na Chunguan, 2005. Discovery of the Jiawengmen stromatolite assemblage in the southern belt of Eastern Kunlun, NW China and its significance. Acta Geologica Sinica (English Edition), 79 (4): 471-480.曾荣树,孙枢,陈代钊,段振豪. 减少二氧化碳向大气层的排放——二氧化碳地下储存研究。中国科学基金,2004, 18 (4): 196-200. Zhu Jingquan, Li Yongtie, Jiang Maosheng and Chen Daizhao, 2004. Carbon isotopic composition and its implication of the Lower Cretaceous Aptian-Albian shallow water carbonates in the Cuoqin Basin, northern Tibet. Science in China (Series D), 47: 247-254.朱井泉,李永铁,江茂生,陈代钊,2003. 藏北错勤盆地早白垩世Aptian-Albian浅水碳酸盐岩碳同位素组成及其意义。中国科学(D辑),33: 216-222.Jiang Maosheng, Zhu Jingquan, Chen Daizhao, Zhang Renhu and Qiao Guangsheng, 2001. Carbon and strontium isotope variations and responses to sea-level fluctuations in the Ordovician of the Tarim Basin. Science in China (Series D), 44: 816-823.江茂生,朱井泉,陈代钊,张任祜,乔广生,2001. 塔里木盆地奥陶纪碳酸盐岩碳锶同位素特征及其对海平面变化的响应. 中国科学 (D辑), 32 (1): 36-42. 陈代钊,2000. 旋回地层-一个正在发展中的理论,第四纪研究,20: 186-195. 陈代钊,1998. 海平面变化与沉积、成矿作用,刊于:地球系统科学 (陈述彭等主编). 陈代钊,1997. 河流沉积占优势地层中的高频层序地层-以盘县西部龙潭组为例. 地质科学, 32 (4): 432-443. 陈代钊,1997. 碳酸盐旋回地层研究现状. 岩相古地理, 17 (1): 64-70. 陈代钊,张鹏飞,1996. 三角洲平原上网结河的发育与聚煤作用. 沉积学报, 14 (3): 103-112.Chen Daizhao, Zhang Pengfei, 1996. Cyclothems of the Longtan Formation, Upper Permian, western Guizhou, Scientia Geologica Sinica (Overseas Edition), 5 (1): 91-104.陈代钊,陈其英,1995. 黔南早中泥盆世沉积演化的动力机制. 沉积学报, 13 (3): 54-65. 陈代钊,陈其英,江茂生,1995. 泥盆纪海相碳酸盐沉积碳同位素组成及演变. 岩相古地理, 15 (5): 22-28. 陈代钊,张鹏飞,1995. 近海平原型含煤地层旋回层及其沉积演替,沉积学及岩相古地理学新进展(王英华主编),石油工业出版社, 133-139. 陈代钊,陈其英,1994. 华南泥盆纪沉积演化及海水进退规程. 地质科学,29 (3): 246-255. 陈代钊,陈其英,1994. 黔南早中泥盆世层序地层格架与海平面变化. 中国科学(B辑),24 (11): 1197-1205. 邵龙义,张鹏飞,陈代钊,罗中,1994. 滇东黔西晚二叠世早期辫状河三角洲沉积体系及其聚煤特征,沉积学报, 12 (4): 133-139. |
