A review of the geology and origin of CO2 in mineral water springs in east Belgium

IF 1.2 4区 地球科学 Q2 GEOLOGY Geologica Belgica Pub Date : 2020-11-26 DOI:10.20341/gb.2020.023
R. Barros, A. Defourny, A. Collignon, P. Jobe, A. Dassargues, K. Piessens, K. Welkenhuysen
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引用次数: 6

Abstract

Naturally CO2-rich mineral water springs (pouhons) in east Belgium occur in the context of the Rhenohercynian domain of the Variscan fold-and-thrust belt, mostly within the Cambro-Ordovician Stavelot-Venn Massif. The origin of the CO2 is still unclear, although different hypotheses exist. In this review study, we show pouhon waters are of the calcium bicarbonate type (~310 mg/l HCO3- on average), with notable Fe (~15 mg/l) and some Ca (~43 mg/l). Pouhon waters are primarily meteoric waters, as evidenced by H and O isotopic signature. The δ13C of CO2 varies from -7.8 to +0.8‰ and contains up to ~15% He from magmatic origin, reflecting a combination of carbonate rocks and mantle as CO2 sources at depth. Dinantian and Middle Devonian carbonates at 2–6 km depth could be potential sources, with CO2 generated by dissolution. However, carbonates below the Stavelot-Venn Massif are only predicted by structural models that assume in-sequence thrusting, not by the more generally accepted out-of-sequence thrust models. The mantle CO2 might originate from degassing of the Eifel magmatic plume or an unknown shallower magmatic reservoir. Deep rooted faults are thought to act as preferential pathways. Overall low temperatures of pouhons (~10 °C) and short estimated residence times (up to 60 years) suggest magmatic CO2 is transported upwards to meet infiltrating groundwater at shallower depths, with partial to full isotopic exchange with carbonate rocks along its path, resulting in mixed magmatic-carbonate signature. Although the precise role and interaction of the involved subsurface processes remains debatable, this review study provides a baseline for future investigations.
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比利时东部矿泉水泉中二氧化碳的地质和来源综述
比利时东部天然富含二氧化碳的矿泉(pouhons)产于Variscan褶皱冲断带的雷诺西期,主要位于寒武系-奥陶系Stavelot-Venn地块内。尽管存在不同的假设,但二氧化碳的来源仍不清楚。在本综述研究中,我们发现pouhon水体为碳酸钙型(HCO3-平均为~310 mg/l),有显著的铁(~15 mg/l)和一些钙(~43 mg/l)。洪水主要是大气降水,氢、氧同位素特征证明了这一点。CO2的δ13C值在-7.8 ~ +0.8‰之间变化,岩浆源的He含量高达~15%,反映了碳酸盐岩和地幔作为深层CO2源的双重作用。2 ~ 6 km深度的地田和中泥盆统碳酸盐岩可能是潜在的CO2源,其溶蚀作用产生CO2。然而,斯塔弗罗特-维恩地块下的碳酸盐岩只能通过假设序层冲断的构造模型来预测,而不能采用更普遍接受的序层外冲断模型。地幔二氧化碳可能来自艾菲尔岩浆柱的脱气或未知的浅层岩浆储层。深根断层被认为是优先通道。整体温度较低(~10℃),估计停留时间较短(60年),表明岩浆CO2向上运移,在较浅的深度与渗入的地下水相遇,并与路径沿线的碳酸盐岩进行部分或全部同位素交换,形成岩浆-碳酸盐岩混合特征。尽管所涉及的地下过程的确切作用和相互作用仍存在争议,但本综述研究为未来的研究提供了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Geologica Belgica
Geologica Belgica 地学-地质学
CiteScore
4.70
自引率
27.80%
发文量
8
审稿时长
>12 weeks
期刊介绍: Geologica Belgica is a Belgian journal that welcomes papers concerning all aspects of the earth sciences, with a particular emphasis on the regional geology of Belgium, North West Europe and central Africa. Papers not dedicated to the geology of Belgium, North West Europe and central Africa are only accepted when one of the authors is linked to a Belgian University or Institution. Thematic issues are highly appreciated. In this case, guest editors take in charge the selection of the manuscripts and the subject of the papers can be enlarged. The journal is in open access. Submitted manuscripts should be concise, presenting material not previously published. The journal also encourages the publication of papers from Belgian junior authors. Short letters are accepted. Papers written in English are preferred. Each mansucript will be reviewed by at least two reviewers.
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