期刊
SEDIMENTOLOGY
卷 69, 期 4, 页码 1519-1546出版社
WILEY
DOI: 10.1111/sed.12961
关键词
Carbonate mound; fluid chemistry; fossil geothermal system; hot spring; water discharge
类别
资金
- National Natural Science Foundation of China [41972116, 41572097]
- China Scholarship Council [201908510230]
The lateral extent of travertine mounds is mainly controlled by Ca2+ and HCO3- concentrations and water discharge, while the height is influenced by factors such as water table change, tectonic pulses, and climate fluctuations.
Travertine mounds are common spring-constructed landforms with highly variable geometries, but factors controlling their development have not yet been fully understood. To investigate processes linked with their lateral and vertical growth, this study investigated travertine mounds at Heinitang (China) and compared them with typical mounds around the world. Calcium concentration variation modelling and height evaluation of travertine mounds were also performed. The lateral extent of travertine mounds was found to be mainly controlled by Ca2+ and HCO3- concentrations and water discharge: relatively small metre-scale mounds, like those from Heinitang, are largely the products of Ca2+-deficiency (<150 mg L-1, commonly <100 mg L-1) or HCO3--deficiency (<500 mg L-1) springs with low discharges (<0.1 L s(-1)), whereas springs with higher Ca2+ and HCO3- concentrations and discharges give rise to the formation of wider mounds. Additional factors affecting mound lateral development include infiltration, evaporation, micro-organisms, water cooling, CO2 degassing and flow paths. Height of travertine mounds cannot be simply considered to represent the piezometric surface, because the vertical growth of travertine mounds is also influenced by the water table change triggered by tectonic pulses and climate fluctuations, and the closing of conduits induced by self-sealing. The extinction of travertine mounds at Heinitang is, for example, probably caused by the water table lowering triggered by earthquakes or climate drying after 4 kyr bp. These findings offer new inputs for the better understanding of factors controlling travertine mound development and might assist in the reconstruction of fluid properties, hydrodynamics, tectonics and climate fluctuations in fossil geothermal systems with travertine mounds.
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