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[1] Liu, D.D., Zhang, C., Pan, Z.K., et al. 2020. Natural fractures in carbonate-rich tight oil reservoirs from the Permian Lucaogou Formation, southern Junggar Basin, NW China: insights from fluid inclusion microthermometry and isotopic geochemistry. Marine and Petroleum Geology, 119, 104500.
[2] Liu, D.D., Zhang, C., Li, C., et al. 2020. Slab roll-back and crustal growth in the Eastern Junggar terrane, NW China: evidence from Carboniferous A-type granitoids and adakitic rocks. International Geology Review, doi: 10.1080/00206814.2020.1730248
[3] Zhang, C., Liu, D.D.*, Zhang, X., et al., 2020. Hafnium isotopic disequilibrium during sediment melting and assimilation. Geochemical Perspectives Letters 12, 34-39.
[4] Zhang, C., Zhang, X., Santosh, M., Liu, D.D.*, et al., 2020. Zircon Hf-O-Li isotopes of granitoids from the Central Asian Orogenic Belt: Implications for supercontinent evolution. Gondwana Research 83, 132-140.
[5] Liu, D.D., Zhang, C., Yang, D.X., et al., 2019. Petrography and geochemistry of the Lopingian (upper Permian)-Lower Triassic strata in the southern Junggar and Turpan basins, NW China: implications for weathering, provenance, and palaeogeography. International Geology Review 61(8), 1016-1036.
[6] Liu, D.D., Li, Z., Jiang, Z.X., et al., 2019. Impact of laminae on pore structures of lacustrine shales in the southern Songliao Basin, NE China. Journal of Asian Earth Sciences, 182, 103935.
[7] Zhang, C., Liu, D.D.*, Zeng, J.H., et al., 2019. Nd-O-Hf isotopic decoupling in S-type granites: Implications for ridge subduction . Lithos 332-333, 261-273.
[8] Zhang, C., Jiang, S., Liu, D.D.*, et al., 2019. A novel model for silicon recycling in the lithosphere: Evidence from the Central Asian Orogenic Belt. Gondwana Research 76, 115-122.
[9] Kong, X.Y., Zhang, C., Liu, D.D.*, et al., 2019. Disequilibrium partial melting of metasediments in subduction zones: Evidence from O–Nd–Hf isotopes and trace elements in S–type granites of the Chinese Altai. Lithosphere 11(1), 149-168.
[10] Liu, D.D., Kong, X.Y., Zhang, C., et al., 2018. Provenance and geochemistry of Lower to Middle Permian strata in the southern Junggar and Turpan basins: A terrestrial record from mid-latitude NE Pangea. Palaeogeography, Palaeoclimatology, Palaeoecology 495, 259-277.
[11] Zhang, C., Liu, D.D.*, Luo, Q., et al., 2018. An evolving tectonic environment of Late Carboniferous to Early Permian granitic plutons in the Chinese Altai and Eastern Junggar terranes, Central Asian Orogenic Belt, NW China. Journal of Asian Earth Sciences 159, 185-208.
[12] Liu, D.D., Zhang, C., Yao, E.D., et al., 2017. What generated the Late Permian to Triassic unconformities in the southern Junggar Basin and western Turpan Basin; tectonic uplift, or increasing aridity? Palaeogeography, Palaeoclimatology, Palaeoecology 468, 1-17.
[13] Liu, D.D., Cheng, F., Guo, Z.J., et al., 2015. Lahar facies of the Latest Paleozoic Arbasay Formation: geomorphological characters and paleoenvironment reconstruction of Northern Tian Shan, NW China. Journal of Asian Earth Sciences 113, 282-292.
[14] Liu, D.D., Guo, Z.J., Jolivet, M., et al., 2014. Petrology and geochemistry of Early Permian volcanic rocks in South Tian Shan, NW China: Implications for the tectonic evolution and Phanerozoic continental growth. International Journal of Earth Sciences 103(3), 737-756.
[15] Liu, D.D., Jolivet, M., Yang, W., et al., 2013. Latest Palaeozoic - Early Mesozoic basin-range interactions in South Tian Shan (Northwest China) and their tectonic significance: Constraints from detrital zircon U-Pb ages. Tectonophysics 599, 197-213.
[16] Zhang, C., Santosh, M., Luo, Q., Jiang, S., Liu, L.F., Liu, D.D.#, 2019. Impact of residual zircon on Nd-Hf isotope decoupling during sediment recycling in subduction zone. Geoscience Frontiers 10, 241-251.
[17] Luo, Q., Zhang, C., Jiang, S., Liu, L.F., Liu, D.D., et al., 2019. Partial melting of oceanic sediments in subduction zones and its contribution to the petrogenesis of peraluminous granites in the Chinese Altai. Geological Magazine 156(4), 585-604.
[18] Zhang, C., Luo, Q., Zhang, X., Liu, L.F., Liu, D.D., et al, 2018. Geochronological, geochemical, and Sr–Nd–Hf isotopic studies of the Aketas adakitic granites in Eastern Junggar: Petrogenesis and tectonic implications. Geological Journal 53, 80-101.
[19] Zhang, C., Santosh., M., Liu, L.F., Luo, Q., Zhang, X., Liu, D.D., 2018. Early Silurian to Early Carboniferous ridge subduction in NW Junggar: Evidence from geochronological, geochemical, and Sr-Nd-Hf isotopic data on alkali granites and adakites. Lithos 300–301: 314–329.
[20] Luo, Q., Zhang, C., Dai, Q., Liu, D.D., et al., 2017. Characterization of compact carbonate pore–throat network systems in the xiagou formation in qingxi sag, jiuquan basin, china. Journal of Petroleum Science and Engineering 159, 853–868.
[21] Zhang, C., Zhu, D.Y., Luo, Q., Liu, L.F., Liu, D.D., et al., 2017. Major factors controlling fracture development in the Middle Permian Lucaogou Formation tight oil reservoir, Junggar Basin, NW China. Journal of Asian Earth Sciences 146, 279-295.
[22] Zhu, B., Guo, Z.J., Liu, R.C., Liu, D.D., et al., 2014. No pre-eruptive uplift in the Emeishan large igneous province: New evidences from its ‘inner zone’, Dali area, Southwest China. Journal of Volcanology and Geothermal Research 269, 57–67.
[23] 刘冬冬,杨东旭,张子亚,等, 2019. 基于常规测井和成像测井的致密储层裂缝识别方法——以吉木萨尔凹陷芦草沟组为例. 岩性油气藏, 31(3): 76-85.
[24] 刘冬冬, 罗群,张译丹,等, 2017. 吉木萨尔凹陷芦草沟组致密油储层裂缝发育特征及控制因素. 中国石油勘探, 22(4): 36-47.
[25] 刘冬冬,郭召杰,宋岩,姜振学, 2015. 准噶尔盆地南缘古生代晚期盆地属性. 吉林大学学报(地球科学版), 45: 1517-1518.
[26] 刘冬冬,郭召杰,张子亚, 2013. 一个不整合面引发的构造故事——从天山艾维尔沟不整合谈起. 大地构造与成矿学, 37(3): 349-365.
[27] 刘冬冬,郭召杰,张志诚,吴朝东, 2012. 准噶尔南缘古生代晚期盆山关系-阿尔巴萨依组火山岩锆石SHRIMPU-Pb定年及岩石地球化学限定. 岩石学报, 28(8): 2355-2368.
[28] 潘占昆,刘冬冬*,等, 2019. 川南地区泸州区块五峰组—龙马溪组页岩裂缝脉体中甲烷包裹体分析及古温压恢复. 石油科学通报, 4(3): 242-253.
[29] 张子亚,刘冬冬,朱贝,郭召杰, 2013. 塔里木盆地西北缘晚新生代印干断层的运动学特征及其区域构造意义. 大地构造与成矿学, 37(2): 184-193.
[30] 李梦,刘冬冬,郭召杰, 2013. 准噶尔盆地南缘泥火山活动及其伴生油苗的地球化学特征和意义. 高校地质学报, 19(3): 484-490.