Continuous monitoring of radon gas as a tool to understand air dynamics in the cave of Altamira (Cantabria, Spain)

The use of radon as an atmospheric tracer in the Altamira Cave over the past 30years has provided relevant information about gaseous exchanges between the Polychromes Room, the adjoining Chambers inside the cave, and the outside atmosphere. The relatively simple physico-chemical behaviour of radon g...

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Bibliographic Details
Published in:The Science of the total environment 2018-05, Vol.624, p.416-423
Main Authors: Sainz, Carlos, Rábago, Daniel, Celaya, Santiago, Fernández, Enrique, Quindós, Jorge, Quindós, Luis, Fernández, Alicia, Fuente, Ismael, Arteche, Jose Luis, Quindós, Luis Santiago
Format: Article
Language:English
Subjects:
Carbon dioxide
Cave
Conservation
Radon
Ventilation
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Summary:The use of radon as an atmospheric tracer in the Altamira Cave over the past 30years has provided relevant information about gaseous exchanges between the Polychromes Room, the adjoining Chambers inside the cave, and the outside atmosphere. The relatively simple physico-chemical behaviour of radon gas provides a marked advantage over other tracer gases that are usually present in high concentrations in hypogeous environments, such as CO2. Two types of continuous radon measurement were undertaken. The first involves active detectors located in the Hall and Polychromes Room, which provide radon concentration values at 1-hour intervals. In addition, nuclear solid track etched detectors (CR-39) are used in every chamber of the cave over 14-day exposure periods, providing average radon concentrations. In this paper we show some of the specific degassing and recharge events identified by anomalous variations in the concentration of radon gas in the Polychromes Room. In addition, we update knowledge regarding the degree of connection between chambers inside the cave and with the outside atmosphere. We verify that the connection between the Polychromes Room and the rest of the cave has been drastically reduced by the installation of the second closure in 2008. Except for point exchanges with the Crossing zone generated by a negative temperature gradient in that direction, the atmosphere of the Polychromes Room remains stable, or else it exchanges matter with the outside atmosphere through the karst interface. The role of radon as a tracer is demonstrated to be valid both to reflect seasonal cycles of degassing and recharge, and to analyse shorter (daily) period fluctuations. •The distribution of radon concentration reflects the air exchange rates in the cave.•Knowledge of environmental conditions is relevant in the rock art conservation.•Main gaseous charge-discharge processes occur seasonally at Altamira cave.•Radon continuous monitoring is a valuable tool for studying atmospheric dynamics. [Display omitted]
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2017.12.146