We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
A MINIMAL MODEL FOR PREDICTING VENTILATION RATES OF SUBTERRANEAN CAVES.
- Authors
Khazmutdinova, Karina; Nof, Doron; Tremaine, Darrel M.; Ming Ye; Moore, M. N. J.
- Abstract
The ventilation of carbon dioxide within subterranean caves regulates the growth of speleothems: mineral deposits found in caves that provide important clues about past climate. While previous studies have used internal temperature measurements to predict ventilation rates, such data would not be available for the task of climate reconstruction. Here, we develop a parsimonious model to predict ventilation rates from knowledge of outside temperatures and the cave's physical dimensions only. In the model, ventilation arises from buoyancy-driven flows created in passageways that connect to the outside. A few key simplifications lead to a system amenable to perturbation analysis, resulting in explicit expressions for ventilation rates. We compare these predictions to time-resolved, in-situ measurements of transported cave gases (carbon dioxide and radon). The theory accurately accounts for the timing and magnitude of seasonal and synoptic variations of these gases, and is, therefore, diagnostic of potential seasonal biases in speleothem growth. With proper in situ geochemical calibrations, this model may be used to establish a first-order estimate of atmospheric paleotemperatures.
- Subjects
SPELEOTHEMS; CAVES; BUOYANCY-driven flow; MINES &; mineral resources; DIMENSIONS; MINE ventilation; PARSIMONIOUS models
- Publication
Journal of Cave & Karst Studies, 2019, Vol 81, Issue 4, p264
- ISSN
1090-6924
- Publication type
Article
- DOI
10.4311/2018ES0141