| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
HUANG Xiaodong, CHEN Cuihua, LAI Xiang, SONG Zhijiao, ZHANG Yan, YANG Deping, CHEN Xiaojie. 2019. The genetic relationship between Pb-Zn deposits and paleo-oil reservoirs in Mayuan, northern Sichuan Basin[J]. Geology in China, 46(6): 1547-1555. doi: 10.12029/gc20190619
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The genetic relationship between Pb-Zn deposits and paleo-oil reservoirs in Mayuan, northern Sichuan Basin
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Abstract
Mayuan is one of the important lead-zinc deposits in northern Sichuan Basin, and its mineral formation is Cambrian Dengying Formation. Field and microscope studies revealed early bitumen and sphalerite, with associated galena. The biomarker of bitumen is very similar to that of the source rocks of Gjiaba Formation. The main sources of Pb-Zn deposits and paleo-oil reservoirs are the lower Cambrian Guojiaba Formation. The Rb-Sr isotopic isochron age of lead-zinc mineralization is(486.7±3.1) Ma, probably related to the formation and destruction of the first paleo-oil reservoirs. Sphalerite and barite inclusions contain CH4 and a small amount of H2S, bitumen, whereas lead-zinc mineralization fluids are rich in pyrolysis products of paleo-oil reservoirs. Hydrocarbon generation, hydrocarbon expulsion, the initial transport extraction of "double source layer" in the lead and zinc elements, the first paleo-oil reservoirs and the short-term TSR produced by the reduction of sulfur and lead-zinc complex precipitation all provided the material basis, and the first paleo-oil reservoirs eventually destroyed the residual early bitumen.
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HUANG Xiaodong, CHEN Cuihua, LAI Xiang, SONG Zhijiao, ZHANG Yan, YANG Deping, CHEN Xiaojie. 2019. The genetic relationship between Pb-Zn deposits and paleo-oil reservoirs in Mayuan, northern Sichuan Basin[J]. Geology in China, 46(6): 1547-1555. doi: 10.12029/gc20190619
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Figure 1.
Geological location of the study area(modified after Liu Wei, 2015)
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Figure 2.
Relationship between bitumen and lead - zinc deposit
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Figure 3.
Bitumen n-alkanes mass chromatogram
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Figure 4.
Source rock n-alkanes mass chromatogram
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Figure 5.
Bitumen and source rock regular sterane distribution
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Figure 6.
Burial history and mineralization age of the southern margin of Micangshan (modified from Huang, 2013)
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Figure 7.
Raman spectra of inclusions in the Mayuan lead-zinc deposit
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Figure 8.
The coupling relationship between lead and zinc mineralization and hydrocarbon accumulation