文章基本信息

标题：Thermal anomaly and water origin in Weebubbie Cave, Nullarbor Karst Plain, Australia
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作者：Peter Buzzacott ; Grzegorz Skrzypek
期刊名称：Journal of Hydrology: Regional Studies
印刷版ISSN：2214-5818
出版年度：2021
卷号：34
页码：100793
DOI：10.1016/j.ejrh.2021.100793
出版社：Elsevier B.V.
摘要：Study region The Nullarbor is one of the largest contiguous karst plains in the world. Despite the absence of surface relict karst features and arid climate, the subterranean flooded cave systems are among the largest in the world. The cave waters are usually brackish and their temperatures vary over a large range (18.6–23.7 °C) suggesting potential input of warm groundwater to some of the caves. The studied Weebubbie Cave of total length ∼500 m penetrates to ∼140 m below ground and ∼40 m below sea level. Study focus Temperature loggers were deployed in the water at various depths and distances from the entry lake to detect potential warm water inputs in three different years. The stable hydrogen, oxygen, and carbon isotope compositions of water have been analysed to detect potential hydrochemical differences in inflowing water and to investigate the origin of the cave water. New hydrological insights for the region The thermal irregularity at the Air Dome of Weebubbie with water temperatures 0.9 °C higher than in all other cave sections, confirms some heat transfer or an inflow of warmer water. The stable isotope results suggest the cave water originates from partially evaporated (up to <20 %) modern infrequent large precipitation events. Despite the relatively high salinity (23.3 mS cm −1 ) of the cave water, water hydrochemistry and stable isotope composition suggest that direct large ocean water contribution to the cave is unlikely.
关键词：Subterranean ecosystem ; Water temperature ; Stable isotopes ; Flooded cave ; Western Australia