喀斯特地貌:岩溶地貌:形成、过程、特征、地貌、退化和恢复:系统回顾

Belay Zerga
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摘要

岩溶是指在可溶性岩石上形成的任何地形或地貌。典型的喀斯特地貌包括封闭的洼地、下沉的溪流和洞穴,主要由地表水和地下水溶解岩石形成,机械侵蚀起次要作用。这篇综述论文试图从国际角度对喀斯特地貌进行评估,考虑其形成、特征、结果地貌、剥蚀和恢复。系统性的文献综述已被证明是一种值得信赖的方法,它是这篇综述文章的基础。综述显示,岩溶地貌通常形成于蒸发岩、白云石、石灰岩和岩盐之上。洞穴可能包含重要的古生物、古环境和考古遗迹,因为它们可以作为地表物质的陷阱,使其免受地表侵蚀。岩溶的形成不能仅仅依靠大量的岩石溶解度。最好的岩溶是由致密、块状、纯净和断裂粗大的岩石形成的。虽然喀斯特地貌最常见于碳酸盐岩的潮湿地区,但在温带、热带、高山和极地气候中也能发现。根据柯本-盖革分类法,干旱气候约占全球所有碳酸盐岩地区的 34.2%。寒冷气候占 28.2%,温和气候占 15.9%,热带气候占 13.1%,极地气候占 8.6%。地球表面的 10% 由岩溶地形构成,世界上多达 25% 的人口依靠岩溶地区供水,因此了解岩溶环境至关重要。岩溶环境的特殊性使其极易受到地质灾害的影响,如崩塌和落水洞(天坑)、斜坡移动和洪水。岩溶地区也是极为特殊的栖息地,拥有重要且往往非常脆弱的地下生态系统。岩溶的脆弱性要求制定独特的管理和保护战略,以保护这一自然景观的未来可持续性。
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Karst topography: Formation, processes, characteristics, landforms, degradation and restoration: A systematic review
Karst refers to any topography or landform that forms over soluble rocks. The classic karst landforms, which include enclosed depressions, sinking streams, and caves, are primarily generated by surface and subsurface waters dissolving rocks; mechanical erosion plays a secondary role. This review paper attempted to evaluate the Karst topography from an international standpoint, taking into account its creation, features, resultant landforms, denudation, and restoration. The systematic review of the literature, which has been shown to be a trustworthy approach, served as the foundation for this review article. The review shower that iypically, karst topography forms on evaporites, dolostones, limestones, and rock salt. Caves can contain significant paleontological, paleoenvironmental, and archeological remnants because they can serve as traps for surface material, shielding it from surface erosion. Karst cannot be produced solely by a significant amount of rock solubility. The best karst is developed by dense, massive, pure, and coarsely fractured rocks. Although karst terrain is most common in humid areas with carbonate rock, it can also be found in temperate, tropical, alpine, and polar climates. According to the Köppen-Geiger classification, arid climates account for approximately 34.2% of all carbonate rock areas worldwide. Cold climates account for 28.2%, moderate temperatures for 15.9%, tropical climates for 13.1%, and polar climates for 8.6% of the total. Ten percent of the Earth’s surface is made up of karst topography, and up to 25% of the world’s population depends on karst areas for their water supply, making an understanding of karst essential. The peculiarities of karst environments make them highly vulnerable to geohazards such as collapse and dropout dolines (sinkholes), slope movements, and floods. Karst areas are also extremely specialized habitats, with important and often very vulnerable subterranean ecosystems. The vulnerability of karst requires unique management and protection strategies to be devised to preserve this natural landscape for its future sustainability.
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