A multi-isotope approach to determine the origin of methane and higher alkanes in groundwater of the St. Lawrence Platform, Saint-Édouard area, eastern Canada

Q2 Earth and Planetary Sciences Environmental Geosciences Pub Date : 2018-09-01 DOI:10.1306/EG.04121817020
Geneviève Bordeleau, C. Rivard, D. Lavoie, R. Lefebvre, J. Ahad, Xiaomei Xu, A. Mort
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引用次数: 7

Abstract

In the last decade, production of shale gas has tremendously increased, and the need for local pre-exploitation baseline data on dissolved natural gas in aquifers has been stressed. This study investigated the origin of hydrocarbons naturally present in shallow aquifers of the Saint-Edouard area (Quebec, eastern Canada), where the underlying Utica Shale is known to contain important gas resources that have not yet been exploited. Groundwater and shallow bedrock gas samples were collected and analyzed for isotopic composition of alkanes (δ13C and δ2HC1–C3), dissolved inorganic carbon (δ13CDIC), and radiocarbon in methane and DIC (14CDIC, 14CCH4). This multi-isotope approach proved enlightening, and results revealed that (1) most of the methane in the region is of microbial origin; (2) partial contribution of thermogenic gas occurs in 15% of the wells; (3) processes such as late-stage methanogenesis and methane oxidation are responsible for ambiguous methane isotopic compositions; and (4) both microbial and thermogenic gas originate from the shallow bedrock aquifer, with the exception of one sample likely coming from deeper units. The thick succession of shales overlying the Utica Shale thus appears to act as an effective migration barrier for the shallow aquifers. However, evidence of upward migration of old brines near major fault zones indicates that these may serve as a preferential migration pathway over a certain depth but most likely no more than approximately 200–500 m (∼650–1640 ft). The geochemical framework presented here will hopefully be useful in other research projects, especially when conventional indicators of natural gas origin provide ambiguous results.
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用多同位素方法确定加拿大东部圣-Édouard地区圣劳伦斯台地地下水中甲烷和高级烷烃的来源
在过去十年中,页岩气产量大幅增加,人们强调需要当地开采前含水层中溶解天然气的基线数据。本研究调查了圣爱德华地区(加拿大东部魁北克省)浅层含水层中天然存在的碳氢化合物的来源,已知该地区下伏的尤蒂卡页岩含有尚未开采的重要天然气资源。采集地下水和浅层基岩气体样品,分析烷烃(δ13C和δ2HC1–C3)、溶解无机碳(δ13CDIC)以及甲烷和DIC中的放射性碳(14CDIC,14CCH4)的同位素组成。这种多同位素方法被证明是有启发性的,结果表明:(1)该地区的大部分甲烷是微生物来源的;(2) 产热气体的部分贡献发生在15%的井中;(3) 后期甲烷生成和甲烷氧化等过程是甲烷同位素组成不明确的原因;和(4)微生物和产热气体都来自浅层基岩含水层,但一个样本可能来自更深的单元。因此,尤蒂卡页岩上的厚页岩序列似乎是浅层含水层的有效迁移屏障。然而,主要断层带附近老卤水向上运移的证据表明,在一定深度内,老卤水可能是一条优先运移通道,但最有可能不超过约200–500米(~650–1640英尺)。这里提出的地球化学框架有望在其他研究项目中有用,特别是当天然气来源的传统指标提供不明确的结果时。
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Environmental Geosciences
Environmental Geosciences Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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