Evolution of pore structure and cement composition during weathering of conglomerate at Mogao Grottoes in alkaline and arid regions, NW China

IF 5.4 1区 农林科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Catena Pub Date : 2024-10-08 DOI:10.1016/j.catena.2024.108453
Ruxue Liao , Wenwu Chen , Peiran Liu , Li Wang , Jiachang Luo , Yanwu Wang , Qinglin Guo , Xiaoyan Yang
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Abstract

Numerous conglomerate grottoes have been excavated and preserved in the arid and alkaline regions of NW China. After millennia of weathering, these conglomerate grottoes have suffered from various weathering issues (such as seepage and collapse) that are internally governed by the distribution of pore networks and the degree of cementation. However, studies on conglomerate weathering have mostly been reported in humid and tropical climates, where intensive chemical weathering occurs. Additionally, characterizations of pore evolution during conglomerate weathering have been restricted due to limitations in detecting pore size and pore type using a single pore characterization method. To fill this gap, this study jointly used mercury intrusion porosimetry (MIP) and computed tomography (CT) to characterize the pore evolution process during conglomerate weathering at Mogao Grottoes, a world heritage site in NW China. Mineralogical, hydrological, mechanical and microscopic characterization were also conducted to understand the changes in compositions of bulk samples and cements during weathering. Results revealed that the majority of pores in conglomerate are concentrated in macropores > 5 μm, followed by mesopores and micropores. During weathering, volume fraction of macropores significantly increases and that of micropores decreases, with median/average pore diameters experiencing an 8- to 10-fold increase. Permeability, porosity and fractal dimension exhibited strong positive linear correlations with median/average pore diameters. Throughout weathering, the abundances of calcite and clay minerals show notable decrease, particularly in cements, resulting in an enrichment of feldspars. Frequently occurring sand-carrying wind activities and salt weathering in arid regions are inferred to be responsible for the major cement loss and porosity generation through physical processes. Our combined MIP-CT method for pore network characterization is also applicable to other lithologies with a wide range of pore sizes. The proposed mechanism of pore evolution and cementation failure provides a scientific base for protecting stone heritages in arid zones.
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中国西北干旱碱性地区莫高窟砾岩风化过程中孔隙结构和胶结物成分的演变
在中国西北干旱和碱性地区发掘并保存了大量砾岩石窟。经过千年风化,这些砾岩石窟出现了各种风化问题(如渗水和坍塌),其内部受孔隙网络分布和胶结程度的影响。然而,有关砾岩风化的研究大多是在潮湿和热带气候条件下进行的,这些地区会发生强烈的化学风化。此外,由于使用单一孔隙表征方法检测孔隙大小和孔隙类型的局限性,对砾岩风化过程中孔隙演变的表征也受到限制。为了填补这一空白,本研究联合使用汞侵入孔隙模拟法(MIP)和计算机断层扫描法(CT)来表征中国西北部世界遗产莫高窟砾岩风化过程中的孔隙演化过程。此外,还进行了矿物学、水文学、力学和显微学表征,以了解风化过程中块状样品和胶结物成分的变化。结果显示,砾岩中的大部分孔隙集中在 5 微米的大孔中,其次是中孔和微孔。在风化过程中,大孔隙的体积分数明显增加,而微孔的体积分数减少,孔隙直径的中值/平均值增加了 8 至 10 倍。渗透率、孔隙度和分形维度与孔隙直径中值/平均值呈强烈的正线性关系。在整个风化过程中,方解石和粘土矿物的丰度明显下降,尤其是水泥,导致长石富集。据推断,干旱地区频繁发生的风沙携带活动和盐风化作用是通过物理过程造成主要胶结物流失和孔隙率产生的原因。我们的 MIP-CT 孔隙网络表征组合方法也适用于孔隙尺寸范围较大的其他岩性。所提出的孔隙演化和胶结失效机制为保护干旱地区的石质遗产提供了科学依据。
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来源期刊
Catena
Catena 环境科学-地球科学综合
CiteScore
10.50
自引率
9.70%
发文量
816
审稿时长
54 days
期刊介绍: Catena publishes papers describing original field and laboratory investigations and reviews on geoecology and landscape evolution with emphasis on interdisciplinary aspects of soil science, hydrology and geomorphology. It aims to disseminate new knowledge and foster better understanding of the physical environment, of evolutionary sequences that have resulted in past and current landscapes, and of the natural processes that are likely to determine the fate of our terrestrial environment. Papers within any one of the above topics are welcome provided they are of sufficiently wide interest and relevance.
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