An innovative method for continuous measurement of soil CO2 flux

An innovative method for continuous measurement of soil CO2 flux

Herein, we present a method for continuous measurement of soil CO2 flux that is completely new and distinct from existing instruments. The foremost difference is that instead of using an infrared gas analyser (IRGA), the new device measures soil CO2 flux by means of a simple pressure sensor, measuri...

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Bibliographic Details
Published in:Chemical geology Vol. 341; pp. 102 - 109
Main Authors: De Gregorio, Sofia, Camarda, Marco, Cappuzzo, Santo, Gurrieri, Sergio
Format: Journal Article
Language:English
Published: Elsevier B.V 11-03-2013
Subjects:
carbon dioxide
Continuous monitoring
equations
Methods of measurement
new methods
Polymeric membranes
soil
Soil CO2 flux measurements
weather
Soil CO2 flux measurements
Continuous monitoring
Methods of measurement
Polymeric membranes
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Summary:Herein, we present a method for continuous measurement of soil CO2 flux that is completely new and distinct from existing instruments. The foremost difference is that instead of using an infrared gas analyser (IRGA), the new device measures soil CO2 flux by means of a simple pressure sensor, measuring pressure transients inside a closed polymeric tube inserted into the soil. This allows continuous measurements even in soil placed in environments that could potentially damage IRGA. In addition, due to the innovative operating principle, measurements of soil CO2 flux can be effortlessly performed also in strongly harsh weather conditions. Theoretical equations were derived for calculating soil CO2 flux solely using measured transient values. The reliability of the equations was rigorously tested with a variety of experiments. Continuous measurements over four months, acquired in a high-emission area on the Island of Vulcano, compared favourably with the data obtained using an established method. ► We present an innovative method for continuous measurement of soil CO2 flux. ► We compute CO2 flux values by measuring pressure transients inside a closed tube. ► We couple a specially designed instrument, named CADEMASO, to a theoretical model. ► The method was successfully tested in the laboratory and in the field.
Bibliography:http://dx.doi.org/10.1016/j.chemgeo.2013.01.011
ISSN:0009-2541
1872-6836
DOI:10.1016/j.chemgeo.2013.01.011