用化学指标量化风化强度:风化指数AFB

IF 1.2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Australian Journal of Earth Sciences Pub Date : 2022-11-13 DOI:10.1080/08120099.2023.2137585
N. Sergeev
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引用次数: 1

摘要

摘要基于岩石化学成分的化学风化指数(CWIs)有可能为风化强度的估计和风化产物的分类提供一种客观的工具。然而,尽管其历史悠久,目前已开发的指标众多,但其适用性仍然存在严重的局限性。为了克服这些局限性,本文在回顾风化过程中地球化学和矿物岩石演化的基础上,通过对现有cwi的分析,提出了一种新的风化指标。新指标氧化铝+氧化铁碱比(AFB)表示为AFB = AFBw/AFBp,其中AFB = (Al2O3+Fe2O3)/(K2O + Na2O + CaO + MgO);W为风化岩,p为母岩,所有元素按分子比例排列。该指数通过将表征风化剖面的化学和矿物转化联系起来,为比较不同岩性之间的风化强度提供了基础。它对所有阶段的风化都很敏感,包括通过使用稳定(相对不移动)与以氧化物表示的移动金属的比率进行的红土化。在长英质、镁铁质和超镁铁质基底上建立的40个记录良好的风化剖面的广泛的世界化学数据库被用于测试提议的指数并与最常见的指数进行比较。这些岩石大多是在热带或亚热带条件下风化的。结果表明,随着风化作用的加剧,AFB值逐渐增大。该指标适用于包括贫铝超镁质岩在内的所有硅酸盐岩石类型。使用母岩正态化可以更准确地比较不同岩性之间的风化强度。以牺牲这些优点为代价,母体标准化指数AFB需要通常难以获得的未风化原岩的数据。该指标对原始岩石的非均质性也很敏感。尽管需要收集更多的数据来了解各种条件和岩石类型的指数约束,但未参考母岩的AFBu指数具有潜在的更广泛的应用,包括沉积物的物源和风化历史,土壤和工程研究。一种新的化学风化指标,表示为氧化铝+氧化铁与母岩的碱比,为所有主要类型的硅酸盐岩性提供了合理的结果。该指标适用于包括红土环境在内的所有风化类型。不利的一面是,该指数对原始底物的不均匀性和后来残余风化层的表观遗传修饰很敏感。
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Quantifying weathering intensity using chemical proxies: a weathering index AFB
Abstract Chemical weathering indices (CWIs) based on bulk chemical rock composition can potentially provide an objective tool for estimation of weathering intensity and classification of weathering products. However, despite their long history and the large number of indices that have now been developed, their applicability still has serious limitations. To overcome most of the limitations, this paper proposes a new weathering index based on the review of geochemical and mineral rock evolution during weathering and analysis of the existing CWIs. The new index, the alumina + ferric oxide to bases ratio (AFB), is expressed as AFB = AFBw/AFBp where AFB = (Al2O3+Fe2O3)/(K2O + Na2O + CaO + MgO); w, weathered rock and p, parent rock, with all elements in molecular proportions. The index provides a basis for comparison of weathering intensities between different lithologies by linking the chemical and mineral transformations that characterise the regolith profile. It is sensitive to all stages of weathering, including lateritisation by using the ratio of the stable (relatively immobile) to mobile metals expressed as oxides. An extensive, worldwide chemical database on 40 well-documented regolith profiles developed on felsic, mafic and ultramafic substrate was used for testing the proposed index and its comparison with the most common indices. The rocks were mostly weathered under tropical or subtropical conditions. The results confirmed consistent increase in the AFB value with intensifying weathering. The index is applicable to all silicate rock types including Al-poor ultramafic rocks. Use of parent rock normalisation allows a more accurate comparison of weathering intensities between different lithologies. At the expense of these benefits, the parent normalised index AFB requires data for the unweathered protolith that is commonly difficult to obtain. The index is also sensitive to inhomogeneity of the original rocks. The unreferenced to parent rock AFBu index has potentially broader applications including provenance and the weathering history of sediments, soil and engineering studies, although collection of more data is required for understanding the index constraints for various conditions and rock types. KEY POINTS A new chemical weathering index, expressed as the alumina+ferric oxide to bases ratio normalised to parent rock provides reasonable results for all major types of silicate lithologies. The index is applicable for all types of weathering including the lateritic environment. On the downside, the index is sensitive to inhomogeneity of the original substrate and to later epigenetic modifications of the residual regolith.
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来源期刊
Australian Journal of Earth Sciences
Australian Journal of Earth Sciences 地学-地球科学综合
CiteScore
2.80
自引率
8.30%
发文量
45
审稿时长
6-12 weeks
期刊介绍: Australian Journal of Earth Sciences publishes peer-reviewed research papers as well as significant review articles of general interest to geoscientists. The Journal covers the whole field of earth science including basin studies, regional geophysical studies and metallogeny. There is usually a thematic issue each year featuring a selection of papers on a particular area of earth science. Shorter papers are encouraged and are given priority in publication. Critical discussion of recently published papers is also encouraged.
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