Prebiotic experiments simulating hydrothermal vents: Influence of olivine in the decomposition of simple carboxylic acids

IF 0.5 4区 地球科学 Q4 GEOLOGY
Lucía A. González-López, M. Colín-García, A. Meléndez-López, J. Cruz-Castañeda, A. Negrón-Mendoza
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引用次数: 1

Abstract

Hydrothermal systems have been proposed as keen environments on the early Earth where chemical evolution processes could have occurred. The presence of minerals and a continuous energy flux stand out among the most remarkable conditions in such environments. In this research the decomposition of two organic acids was studied. Ionizing radiation and thermal energy were the sources selected for decomposition tests, as both are naturally present on hydrothermal systems and probably, they were present on early Earth. Radiation could come from unstable elements in minerals, and heat is the most abundant energy source in hydrothermal systems. As minerals play a key role in prebiotic chemistry experiments and are an essential component on hydrothermal environments, the role of olivine in decomposition was tested. Results indicate that both organic acids highly decomposed when irradiated or heated. Radiation is more efficient than heating in decomposing the carboxylic acids and forming other carboxylic acids. Interestingly, the occurrence of olivine affects decomposition on both heated and irradiated samples, as both the rate of decomposition, and the amount and type of products vary compared with experiments without the mineral. The formation of other carboxylic acids was followed in all samples. Succinic, tricarballilic, citric and carboxisuccinic acids were detected in radiolysis experiments of acetic acid. The radiolysis of formic acid produced oxalic and tartronic. The heating of acetic acid solutions formed succinic, tricarballilic, citric and carboxisuccinic acids. However, the heating of formic acids only generated oxalic acid. The presence of olivine affected the amount and type of carboxylic acids formed in radiation and heating experiments. Natural hydrothermal systems are complex environments and many variables are present in them. Our results reinforce the idea that a combination of variables is necessary to better simulate these environments in prebiotic chemistry experiments. All variables could have affected the prebiotic chemical reactions; and hence, the role of hydrothermal systems in prebiotic chemistry could be much more complex that thought.
模拟热液喷口的益生元实验:橄榄石对简单羧酸分解的影响
热液系统被认为是早期地球上可能发生化学演化过程的环境。在这种环境中,矿物的存在和持续的能量流动在最显著的条件中脱颖而出。本文对两种有机酸的分解进行了研究。电离辐射和热能是分解试验选择的来源,因为两者都自然存在于热液系统中,而且很可能在地球早期就存在。辐射可能来自矿物中的不稳定元素,热是热液系统中最丰富的能量来源。由于矿物在益生元化学实验中起着关键作用,并且是热液环境中必不可少的组成部分,因此对橄榄石在分解中的作用进行了测试。结果表明,这两种有机酸在辐照或加热时都高度分解。在分解羧酸和形成其他羧酸方面,辐射比加热更有效。有趣的是,橄榄石的存在对加热和辐照样品的分解都有影响,因为与没有矿物的实验相比,分解的速度、产物的数量和类型都有所不同。在所有样品中都有其他羧酸的形成。乙酸的放射性溶解实验检测出琥珀酸、三羧酸、柠檬酸和羧基琥珀酸。甲酸的放射性分解产生草酸和酒石酸。醋酸溶液加热后形成琥珀酸、三羧酸、柠檬酸和羧酸。然而,甲酸的加热只产生草酸。橄榄石的存在影响了辐射和加热实验中羧酸的数量和类型。天然热液系统是一个复杂的环境,存在着许多变量。我们的研究结果强化了这样一种观点,即在益生元化学实验中,为了更好地模拟这些环境,需要多种变量的组合。所有变量都可能影响益生元化学反应;因此,热液系统在生命前化学中的作用可能比我们想象的要复杂得多。
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来源期刊
CiteScore
1.40
自引率
12.50%
发文量
34
审稿时长
50 weeks
期刊介绍: The Boletín de la Sociedad Geológica Mexicana is a completely free-access electronic journal published semi-annually that publishes papers and technical notes with its main objective to contribute to an understanding of the geology of Mexico, of its neighbor areas, and of geologically similar areas anywhere on Earth’s crust. Geology has no boundaries so we may publish papers on any area of knowledge that is interesting to our readers. We also favor the publication of papers on relatively unfamiliar subjects and objectives in mainstream journals, e.g., papers devoted to new methodologies or their improvement, and areas of knowledge that in the past had relatively little attention paid them in Mexican journals, such as urban geology, water management, environmental geology, and ore deposits, among others. Mexico is a land of volcanos, earthquakes, vast resources in minerals and petroleum, and a shortage of water. Consequently, these topics should certainly be of major interest to our readers, our Society, and society in general. Furthermore, the Boletín has been published since 1904; that makes it one of the oldest scientific journals currently active in Mexico and, most notably, its entire contents, from the first issue on, are available online.
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