韋恒葉(博導)
|
姓名 |
韋恒葉 |
出生年月 |
1980.12 |
|
職稱 |
研究員 |
|
碩導/博導 |
博士生導師 |
|
學科專業(yè) |
地質(zhì)學/地質(zhì)資源與地質(zhì)工程 |
|
研究方向 |
沉積學、沉積地球化學 |
|
所屬室所 |
沉積教研室 |
|
聯(lián)系方式 |
||
個人簡介 |
||
西南石油大學教授、博導,四川省“天府峨眉計劃”創(chuàng)新領軍人才,自然資源部高層次科技創(chuàng)新人才工程(地質(zhì)找礦方向)科技創(chuàng)新團隊首席專家。主要從事非常規(guī)油氣沉積學、層序地層學與古地理、二疊紀古海洋學的研究。目前的研究工作主要集中在四川盆地與鄂西盆地、以及西藏的羌塘盆地,主要研究內(nèi)容包括四川盆地二疊系優(yōu)質(zhì)頁巖形成機理、華南中二疊世環(huán)境與生物協(xié)同演化、羌塘盆地巖相古地理與侏羅紀古海洋學。他認為中二疊世古海洋缺氧是造成瓜德魯普生物危機的重要原因;他提出異常高有機質(zhì)富集的關(guān)鍵在于其啟動的環(huán)境誘發(fā)因素。 主持國家自然科學基金、四川省自然科學基金以及企業(yè)課題項目3項,在Earth-Science Reviews、EPSL、Science Bulletin、Geobiology、Chemical Geology、Palaeo-3、J Petrol Sci Eng、Sedimentary Geology、Engineering、Scientific Report、《石油學報》、《石油與天然氣地質(zhì)》、《地球科學》、《沉積學報》等期刊上發(fā)表論文60余篇,獲得省部自然科學獎三等獎3項,《沉積與特提斯地質(zhì)》編委、《沉積學報》青年編委,《Journal of Asian Earth Sciences》客座編輯。 招生專業(yè):地質(zhì)學/地質(zhì)資源與地質(zhì)工程(碩士研究生)、地質(zhì)學(博士研究生) |
||
教育背景及工作經(jīng)歷 |
||
教育背景: 2008.09-2011.07 中國科學院地質(zhì)與地球物理研究所,沉積學,博士生 2005.09-2008.07 中國石油大學(北京),礦產(chǎn)普查與勘探,碩士生 2001.09-2005.07 東北石油大學,資源勘查工程,本科生 工作經(jīng)歷: 2020.09 至今 西南石油大學 2018.08-2019.08 澳大利亞國立大學 訪問學者 (合作導師:Andrew P. Roberts) 2013.03-2014.03 美國辛辛那提大學 訪問學者 (合作導師:Thomas J. Algeo) 2011.07-2020.08 東華理工大學 |
||
主要研究項目 |
||
1. 國家自然科學基金面上項目:中—晚二疊世峨眉山大火成巖省噴發(fā)與海洋氧化還原效應。57萬,項目編號:42272118,時間2023.01-2026.13(主持) 2. 四川盆地及周緣重大地質(zhì)事件驅(qū)動下二疊系富有機質(zhì)頁巖形成機制,橫向項目,2025-2026. (主持) 3. 羌塘盆地晚三疊世多種重大地質(zhì)事件協(xié)同變化與烴源巖形成,國家自然科學基金專項項目。243萬,(參與) 4. 揚子西緣早寒武世含錳巖系沉積相及錳礦成因研究,橫向項目,2025-2026,(參與) 5. 華南中二疊世孤峰組層序地層與古地理特征研究,橫向項目,2023-2024. (主持) 6. 川東北-鄂西地區(qū)吳家坪組-大隆組層序地層對比劃分與富有機質(zhì)頁巖分布規(guī)律研究,橫向項目,2022-2023. (主持) 7. 上揚子地區(qū)二疊系頁巖地球化學特征與烴源巖評價,中石油橫向項目,2021-2022. (主持) 8. 四川省青年科技創(chuàng)新研究團隊:結(jié)構(gòu)-成因巖相古地理四川省青年科技創(chuàng)新研究團隊。50萬,2021-2024. (主研) 9. 中上揚子東部寒武-前寒武紀沉積-構(gòu)造演化與油氣資源潛力評價, 800萬,中石油-西南石油大學創(chuàng)新聯(lián)合體項目,2020-2025. (參與) 10. 國家第二次青藏高原綜合科學考察研究專題“青藏高原油氣形成保存規(guī)律與資源潛力評價”。2019-2023. (參與) 11. 國家自然科學基金地區(qū)科學項目:華南瓜德魯普世深水區(qū)氧化還原條件的演化及其對生物滅絕過程的影響。39萬,項目編號:41762003. 時間:2018.01-2021.12 (主持) 12. 國家自然科學基金:桂黔鄂中—上二疊統(tǒng)深水至淺水草莓狀黃鐵礦粒徑變化及其氧化還原意義。22萬,項目編號:41302021。時間:2014.01—2016.12.(主持) 13. 國家重點實驗室開放基金:四川二疊紀—三疊紀轉(zhuǎn)折期海底草莓狀黃鐵礦形態(tài)及其對環(huán)境變化的指示。編號:NRE1213。時間:2013—2015.(主持) |
||
代表性成果(*為通訊作者) |
||
1. Zhang Xuan, Wei Hengye*, Wu Kui, et al., 2025. Marine redox evolutions and carbon isotope variations during the Guadalupian-Lopingian transition in the Yangtze Platform, South China. Palaeogeography, Palaeoclimatology, Palaeoecology, 660: 112681. 2. 韋恒葉*, 胡諜, 邱振, 張璇, 劉雯, 孔維亮, Mansour Ahmed. 川北—鄂西上二疊統(tǒng)富有機巖沉積與地球化學特征[J]. 沉積學報, 2024, 42 (03): 774-798. 3. 文躍, 韋恒葉*, 鄒怡, 付修根. 南羌塘依桑日剖面中侏羅統(tǒng)布曲組沉積相與氧化還原條件[J]. 沉積與特提斯地質(zhì), 2025, 45 (01): 31-47. 4. Lu Bin, Hou Dujie, Zou Caineng, Li Xizhe, Gao Risheng, Wei Hengye, Qiu Zhen, 2025. Depositional environment and organic matter enrichment mechanism of the lower cambrian shale in the southern Sichuan Basin. Frontiers in Earth Science, 13. 5. 隋博雨, 王忠偉, 占王忠, 王劍, 韋恒葉, 李磊, 戚俊. 2025. 羌塘盆地中部江愛達日那地區(qū)上三疊統(tǒng)沉積特征、演化及油氣地質(zhì)意義[J]. 沉積學報, 1-37. 6. Wang Ying, Fu Xiugen,…, Wei Hengye, et al., 2025. Methane emissions during marine environmental perturbations before the end-Triassic mass extinction. Facies, 71(2). 7. 付修根, 陳明浩, 王劍, 韋恒葉, 曾勝強, 王忠偉, 沈利軍, 周剛. 2025. 羌塘盆地晚三疊世古地理反轉(zhuǎn)及其對烴源巖的控制作用[J]. 中國地質(zhì), 1-19. 8. 韋恒葉*, 張淦, 張璇, 胡諜, 龔嘉欣. 2024. 中上揚子區(qū)上二疊統(tǒng)大隆組硅質(zhì)巖沉積終結(jié)年齡[J]. 沉積學報, 2024, 42 (06): 2135-2143 9. Wang Jian, Wang Zhi, Fu Xiugen, …, Wei Hengye, et al., 2024. Control of stepwise subduction and slab breakoff on volcanism and uplift in the Tibetan Plateau. Earth and Planetary Science Letters, 647: 119057. 10. 岑永靜, 梁鋒, 王立恩, 劉倩虞, 何順, 王時林, 韋恒葉. 四川盆地蓬深1井—東壩1井區(qū)燈影組四段丘灘體儲層地質(zhì)特征及控制因素[J]. 地質(zhì)通報, 2024, 43 (10): 1705-1714. 11. Wang Jian, Fu Xiugen, Wei Hengye, et al., 2024. An overview of the Qiangtang Basin: Geology, hydrocarbon resources and the role of the Tethyan evolution. Journal of Asian Earth Sciences, 266: 106128. 12. 邱振,竇立榮,吳建發(fā),韋恒葉*,等,2024. 川北-鄂西地區(qū)中二疊統(tǒng)層序巖相古地理演化及頁巖氣勘探潛力。地球科學,49: 712. 13. Zhang Haowei, Wang Jian, …, Wei Hengye, et al., 2024. New Age Constraints of the Bilong Co Oil Shale in the Qiangtang Basin, Northern Tibet: Evidence from In Situ U–Pb Dating and Palaeontology. Minerals, 14: 246. 14. 鄒怡, 韋恒葉*. 下?lián)P子中二疊統(tǒng)孤峰組熱液硅質(zhì)巖地球化學約束及其意義[J]. 沉積學報, 2024, 42 (03): 799-811. 15. Zhang Qian, Fu Xiugen, …, Wei Hengye, et al., 2024. Orbitally-paced climate change during the Carnian Pluvial Episode. Earth and Planetary Science Letters, 626: 118546. 16. 羅青云, 王劍, 杜秋定, 王銅山, 付修根, 周剛, 李秋芬, 韋恒葉, 沈利軍, 和源, 王永生. 川北地區(qū)燈影組四段白云巖成巖演化對優(yōu)質(zhì)儲層的控制作用[J]. 沉積學報, 2024, 42 (06): 2174-2190. 17. Song Huyue, Algeo TJ, Song Haijun, Tong Jinnan, Wignall PB, Bond DPG, Zhen Wang, Chen Xinmin, Romaniello S, Wei Hengye, Anbar AD, 2023. Global oceanic anoxia linked with the Capitanian (Middle Permian) marine mass extinction. Earth and Planetary Science Letters, 610: 118128. 18. Tang Wei, Wang Jian, Wei Hengye*, et al., 2023. Sulfur isotopic evidence for global marine anoxia and low seawater sulfate concentration during the Late Triassic. Journal of Asian Earth Sciences, 251: 105659. 19. Chen Minghao, Fu Xiugen, Wang Jian, Wei Hengye, et al., 2023. Tethyan ocean acidification triggered the end-Triassic mass extinction: New Ca isotopic constraints from the Qiangtang Basin. Gondwana Research, 124: 206-217. 20. 王劍, 肖灑, 杜秋定, 周剛, 王銅山, 李秋芬, 付修根, 韋恒葉, 和源, 沈利軍. 四川盆地東北部地區(qū)陡山沱組黑色頁巖古海洋環(huán)境與有機質(zhì)富集機制[J]. 天然氣工業(yè), 2023, 43 (04): 76-92. 21. Lu Jiang, Fu Xiugen, …, Wei Hengye, et al., 2023. Climate‐induced organic matter enrichment in lacustrine basin: Insights from the Palaeogene–Neogene oil shale in the Lunpola Basin (Tibet, China). Geological Journal, 58: 4057-4069. 22. Fang Chaogang, …, Wei Hengye, et al., 2023. Facies and Carbon Isotope Variations during the Kungurian (Early Permian) in the Chihsia Formation in the Lower Yangtze Region of South China. Minerals, 13: 551. 23. Ke Puyang, Fu Xiugen, Peng Qinghua, Wei Hengye, et al., 2023. Multiple carbon isotope excursions during the Carnian (Late Triassic) pluvial event: Implications for global and regional perturbation. Journal of the Geological Society, London, 180(6). 24. Shen Lijun, …, Wei Hengye, et al., 2023. Sedimentary environments of middle Eocene sediments in the northern Qiangtang Basin, northern Tibetan Plateau: Implications for paleoclimate and paleoelevation. Journal of Asian Earth Sciences, 245: 105551. 25. Hu Fangzhi, Fu Xiugen, …, Wei Hengye, et al., 2023. Biological extinction and photic-zone anoxia across the Triassic-Jurassic transition: Insights from the Qiangtang Basin, eastern Tethys. Journal of the Geological Society, London, 180(5). 26. Yi Jianquan, …, Wei Hengye, et al., 2023. Accelerated hydrological cycle during the Toarcian oceanic anoxic event: Biomarker evidence in the Qiangtang Basin, eastern Tethys. Journal of Asian Earth Sciences, 249: 105627. 27. Nie Ying, …, Wei Hengye, et al., 2023. The Toarcian Oceanic Anoxic Event in a shelf environment (Eastern Tethys): Implications for weathering and redox conditions. Sedimentary Geology, 455: 106476. 28. Nie Ying, Fu Xiugen, Wei Hengye, et al., 2023. Paleoenvironmental reconstruction preceding and during the early Aptian Oceanic Anoxic Event 1a in southern Tibet, eastern Tethys. Cretaceous Research, 150: 105604. 29. Zhang Jian, Wang Jian, …, Wei Hengye, et al., 2023. Age assignment of dolomite in palaeo-reservoirs of the Qiangtang Basin: New evidence from palaeontology and carbonate in situ U-Pb dating. Marine and Petroleum Geology, 158: 106545. 30. Zhen Qiu*, Hengye Wei, Li Tian, et al., 2022. Different controls on the Hg spikes linked the two pulses of the Late Ordovician mass extinction in South China. Scientific Report, 12, 5195. 31. Caineng Zou, Zhen Qiu*, Jiaqiang Zhang, Zhiyang Li, Hengye Wei, et al., 2022. Unconventional petroleum sedimentology: A key to understanding unconventional hydrocarbon accumulation. Engineering, https://doi.org/10.1016/j.eng.2022.06.016. 32. 趙嘉峰,王劍,付修根,沈利軍,鄭波,韋恒葉等,2022. 西藏羌塘盆地古近紀康托組沉積物源及構(gòu)造背景分析. 地質(zhì)論評,68(1),93-110. 33. Ying, Nie, Xiugen Fu, Xianchuan Liu, Hengye Wei, et al., 2022. Organic matter accumulation mechanism under global/regional warming: Insight from the Late Barremian calcareous shales in the Qiangtang Basin. Journal of Asian Earth Sciences, 241: 105456. 34. 古恒,王劍*,韋恒葉*,付修根,2022. 四川盆地城口地區(qū)下寒武統(tǒng)水井坨組有機質(zhì)富集控制因素。沉積學報,DOI:10.14027/j.issn.1000-0550.2022.091。 35. Xiugen Fu, Jian Wang, Hengye Wei, et al., 2022. Detrital zircons of the Devonian-Permian sandstones in the Qiangtang terrane, Tibet: Implication for Qiangtang rifting from Gondwana and uplift history of the Central Uplift. Journal of Asian Earth Sciences, 105392. 36. Wangpeng Li, Zhongwei Wang, Jian Wang, Hengye Wei, et al., 2022. Depositional age, provenance, and palaeoenvironment of the Lower Permian mudstones in the Qiangtang Basin, Tibet: Evidence from geochronology and geochemistry. Geological Journal, doi. Org/10.1002/gj.4370 37. 王劍,王忠偉,付修根,宋春彥,譚富文,韋恒葉,2022. 青藏高原羌塘盆地首口油氣科探井(QK-1)新發(fā)現(xiàn). 科學通報,67, 321. 38. Yuhong Zeng, Hengye Wei*, Xiugen Fu*, Shengqiang Zeng. 2022. Organic matter enrichment in a terrestrial-marine transitional environment driven by global/regional climate recorded in the Upper Permian succession from the Qiangtang Basin, northern Tibet. Journal of Asian Earth Sciences, 229, 105185. 39. Zhongwei Wang, Wangpeng Li, Jian Wang, Hengye Wei, Xiugen Fu, et al., 2022. Controls on organic matter accumulation in marine mudstones from the Lower Permian Zhanjin Formation of the Qiangtang Basin (Tibet), eastern Tethys. Marine and Petroleum Geology, 138, 105556. 40. Jian Wang, Xiugen Fu, Hengye Wei, Lijun Shen, Zhi Wang, Kuizhou Li, 2022. Late Triassic basin inversion of the Qiangtang Basin in northern Tibet: Implications for the closure of the Paleo-Tethys and expansion of the Neo-Tethys. Journal of Asian Earth Sciences, 227, 105119 41. Xiugen Fu, Jian Wang, Huaguo Wen, Chunyan Song, Zhongwei Wang, Shengqiang Zeng, Xinglei Feng, Hengye Wei, 2021. A Toarcian Ocean Anoxic Event record from an open-ocean setting in the eastern Tethys: Implications for global climatic change and regional environmental perturbation. Science China Earth Sciences, 64, 1860-1872. 42. 邱振,韋恒葉*,劉翰林,邵男,王玉滿,張磊夫,張琴. 2021. 異常高有機質(zhì)富集過程與元素地球化學特征。石油與天然氣地質(zhì),第42卷,第4期,931-948. 43. Hengye Wei*, Wei Tang, Heng Gu, Xiugen Fu, Xuan Zhang. 2021. Chemostratigraphy and pyrite morphology across the Wuchiapingian-Changhsingian boundary in the Middle Yangtze Platform, South China. Geological Journal. 56, 6102-6116. 44. Hengye Wei*, Ziao Geng, Xuan Zhang. 2020. Guadalupian (Middle Permian) δ13Corg changes in the Lower Yangtze, South China. Acta Geochimica. 39(6), 988-1001. 45. Hengye Wei*, Xuan Zhang, Zhen Qiu. 2020. Millennial-scale ocean redox and δ13C changes across the Permian-Triassic transition at Meishan and implications for the biocrisis. International Journal of Earth Sciences. 109: 1753-1766. 46. Hengye Wei*, Zhanwen Tang, Detian Yan, Maquzong Bai, 2020. Formation of large carbonate concretions in black cherts in the Gufeng Formation (Guadalupian) at Enshi, South China. Geobiology. 18: 14-30. 47. 張璇,韋恒葉*. 2020. 湖北秭歸吳家坪組—長興組界線氧化還原及其意義. 沉積學報. 38(3): 476-484. 48. 許濤,唐瞻文,張璇,耿梓傲,汪建國,韋恒葉*. 2020. 中二疊世茅口組熱液交代硅質(zhì)巖:貴州桑樹灣剖面角礫硅質(zhì)巖元素及硅同位素證據(jù). 石油學報. 41(4): 446-456. 49. 唐瞻文,韋恒葉*. 2020. 巢湖地區(qū)二疊系瓜德魯普統(tǒng)孤峰組古環(huán)境演化. 現(xiàn)代地質(zhì). 34(1): 166-176. 50. Hengye Wei*, Zhanwen Tang, Detian Yan, Jianguo Wang, Andrew P. Roberts, 2019. Guadalupian (Middle Permian) ocean redox evolution in South China and its implications for mass extinction. Chemical Geology. 530: 119318. 51. Hengye Wei*, Xingchao Jiang, 2019. Early Cretaceous ferruginous and its control on the lacustrine organic matter accumulation: Constrained by multiple proxies from the Bayingebi Formation in the Bayingebi Basin, inner Mongolia, NW China. Journal of Petroleum Science and Engineering. 178: 162-179. 52. 耿梓傲,韋恒葉*. 2019. 下?lián)P子巢湖地區(qū)中二疊統(tǒng)孤峰組富有機質(zhì)硅質(zhì)巖有機地球化學特征. 高校地質(zhì)學報. 25(6): 823-837. 53. 耿梓傲,唐瞻文,張璇,韋恒葉*. 2019. 湖北恩施地區(qū)棲霞組下部泥質(zhì)石灰?guī)r生物標志物特征. 東華理工大學學報(自然科學版). 42(4): 368-375. 54. 白瑪曲宗,韋恒葉*,江增光,邱振,2018. 江西東嶺剖面P-T界線碳同位素變化與沉積物輸入的關(guān)系。沉積學報,36(2):267-279. 55. Caineng Zou, Zhen Qiu*, Hengye Wei*, Dazhong Dong, Bin Lu, 2018. Euxinia caused the Late Ordovician extinction: Evidence from pyrite morphology and pyritic sulfur isotopic composition in the Yangtze area, South China. Palaeogeography, Palaeoclimatology, Palaeoecology. 511:1-11. 56. Hengye Wei*, Quzong Baima, Zhen Qiu*, Chaocheng Dai, 2018. Carbon isotope perturbations and faunal changeovers during the Guadalupian mass extinction in the middle Yangtze Platform, South China. Geological Magazine, 155(8): 1667-1683. 57. 白瑪曲宗,韋恒葉*,韋雪梅,江增光,張璇,耿梓傲,2017. 恩施剖面G-L界線自生石膏與鈉長石成因. 東華理工大學學報(自然科學版),40(4):212-218. 58. 韋雪梅,韋恒葉*,邱振,江增光,白瑪曲宗,2017. 廣西來賓蓬萊灘剖面G-L界線草莓狀黃鐵礦微晶粒徑特征及其氧化還原意義. 地質(zhì)科學,52(1):230-241. 59. 江增光,韋恒葉*,邱振,于永善,2017. 恩施剖面棲霞組下部貧氧—缺氧環(huán)境成因模式. 地質(zhì)科學,52(1):218-229. 60. 韋雪梅,江增光,白瑪曲宗,韋恒葉,2016. 廣西來賓蓬萊灘剖面瓜德魯普統(tǒng)—樂平統(tǒng)(G-L)界線生境型及其意義. 東華理工大學學報(自然科學版),39(4):331-340. 61. Hengye Wei*, Xuemei Wei, Zhen Qiu, Huyue Song, Guo Shi, 2016. Redox conditions across the G-L boundary in South China: Evidence from pyrite morphology and sulfur isotopic compositions. Chemical Geology, 440, 1-14. 62. Zhen Qiu, Shu Sun, Hengye Wei*, Qingchen Wang, Caineng Zou, Yijie Zhang. 2016. SIMS zircon U-Pb dating from bentonites in the Penglaitan Global stratotype Section for the Guadalupian-Lopingian boundary (GLB), South China. Geological Journal, 51, 811-816. 63. Chuan Guo*, Guorong Li, Hengye Wei, Feiyong Xia, Fachuan Xie, 2016. Stratigraphic architecture and platform evolution of the Changxing Formation (Upper Permian) in the Yuanba Gas Field, northeastern Sichuan Basin, China. Ara. J. Geosci., 9: 359. 64. 韋雪梅,韋恒葉*,邱振,2016年. 瓜德魯普末期生物滅絕是由峨眉山LIP引起的嗎?沉積學報。第34卷第3期,71-86頁。 65. Hengye Wei*, Jun Shen, Shane D. Schoepfer, Leo Krystyn, Sylvain Richoz, Thomas J. Algeo*. 2015. Environmental controls on marine ecosystem recovery following mass extinctions, with an example from the Early Triassic. Earth-Science Reviews. Volume 149, pp. 108-135. 66. Hengye Wei*, Thomas J. Algeo*, Hao Yu, Jianguo Wang, Chuan Guo, Guo Shi. 2015. Episodic euxinia in the Changhsingian (late Permian) of South China: Evidence from framboidal pyrite and geochemical data. Sedimentary Geology, volume 319, pp.78-97. 67. Hengye Wei*, Hao Yu, Jianguo Wang, Zhen Qiu, Lei Xiang, Guo Shi. 2015. Carbon isotopic shift and its cause at the Wuchiapingian-Changhsingian boundary in the Upper Permian at the Zhaojiaba section, South China: Evidences from multiple geochemical proxies. Journal of Asian Earth Sciences, volume 105, pp.270-285. 68. Hao Yu, Hengye Wei*. 2015. A Kungurian oceanic upwelling on Yangtze platform: Evidenced by δ13Corg and authigenic silica in the Lower Chihsia Formation of Enshi Section in South China. Journal of Earth Science, vol. 26, pp. 211-218. 14. Hao Yu, Xiqiang Zhou, Jianguo Wang, Chuan Guo, Hengye Wei, Daizhao Chen. 2015. The origin of bedding-parallel fibrous calcite veins in the Lower Permian Chihsia Formation in western Hubei Province, South China. Science Bulletin. 60(20): 1778-1786. 15. 曹豐龍,韋恒葉*,2015. 湖北省恩施地區(qū)二疊系低豐度草莓狀黃鐵礦的兩種成因。東華理工大學學報(自然科學版),第38卷,第2期,158-166頁。 69. Guo Shi*, Adam D. Woods, Meiyi Yu, Hengye Wei, 2015. Two episodes of evolution of trace fossils during the Early Triassic in the Guiyang area, Guizhou Province, South China. Palaeogeography, Palaeoclimatology, Palaeoecology, 426: 275-284. 70. Xiqiang Zhou, Daizhao Chen*, Shaofeng Dong, Yanqiu Zhang, Zenghui Guo, Hengye Wei, Hao Yu. 2015. Diagenetic barite deposits in the Yurtus Formation in Tarim Basin, NW China: Implications for barium and sulfur cycling in the earliest Cambrian. Precambrian Research, volume 263, pp.79-87. 71. Zhen Qiu*, Qingchen Wang, Caineng Zou, Detian Yan, Hengye Wei, 2014. Transgressive–regressive sequences on the slope of an isolated carbonate platform (Middle–Late Permian, Laibin South China). Facies, volume 60, 327-345. 72. 韋恒葉*,汪建國,遇昊,黃寶華,2013. 海平面變化在湖南西部桑植地區(qū)棲霞組富有機碳沉積物形成中的作用, 地球科學——中國地質(zhì)大學學報, 第38卷(第2期),266–276頁. 73. 韋恒葉*,遇昊,郭兵,汪建國,2013. 湖南省桑植地區(qū)棲霞期相對海平面變化. 東華理工大學學報(自然科學版),第36卷(第1期), 347 – 353頁. 74. Hengye Wei, Daizhao Chen*, Jianguo Wang, Hao Yu, Mauries E. Tucker, 2012. Organic accumulation in the lower Chihsia Formation (Middle Permian) of South China: Constraints from pyrite morphology and multiple geochemical proxies. Palaeogeography, Palaeoclimatology, Palaeoecology, volume 353–355, pp. 73–86. 75. Hengye Wei*, Daizhao Chen, Jianguo Wang, Hao Yu. 2012. End-Guadalupian mass extinction and negative carbon isotope excursion at Xiaojiaba, Guangyuan, SW China. Science China Earth Science, volume 55, pp. 1480-1488. 76. 韋恒葉*, 2012. 古海洋生產(chǎn)力與氧化還原指標——元素地球化學綜述. 沉積與特提斯地質(zhì),第32卷(第2期),76–88頁. 77. Jianguo Wang, Daizhao Chen*, Detian Yan, Hengye Wei, 2012. Evolution from anoxic to oxic deep ocean during the Ediacaran–Cambrian transition and implication for bioradiation. Chemical Geology, volume 306-307, pp.129-138. 78. 邱振*,王清晨,賈望魯,韋恒葉,彭平安,2012. 廣西崇左柳橋地區(qū)上二疊統(tǒng)礁灰?guī)r中瀝青的地球化學特征。石油與天然氣地質(zhì),第33卷,第6期,836-844頁。 79. 遇昊,陳代釗,韋恒葉,汪建國,2012. 鄂西地區(qū)上二疊樂平統(tǒng)大隆組硅質(zhì)巖成因及有機質(zhì)富集機理. 巖石學報,第28卷,第3期,1017-1027. 80. 韋恒葉*,陳代釗, 2011. 鄂西—湘西北地區(qū)二疊紀棲霞期巖相古地理. 古地理學報,第13卷(第5期),551–562頁. 81. 韋恒葉*,陳代釗,遇昊,汪建國,2011. 鄂西地區(qū)中二疊統(tǒng)棲霞組下部烴源巖形成機理。地質(zhì)科學,46卷第1期,68-82頁。 |
||
研究團隊 |
||
屬于王劍教授領導的羌塘盆地研究團隊成員。 |
||
