Technical Note: Cost-efficient approaches to measure carbon dioxide (CO 2 ) fluxes and concentrations in terrestrial and aquatic environments using mini loggers

Fluxes of CO2 are important for our understanding of the global carbon cycle and greenhouse gas balances. Several significant CO2 fluxes in nature may still be unknown as illustrated by recent findings of high CO2 emissions from aquatic environments, previously not recognized in global carbon balanc...

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Bibliographic Details
Published in:Biogeosciences 2015-06, Vol.12 (12), p.3849-3859
Main Authors: Bastviken, D, Sundgren, I, Natchimuthu, S, Reyier, H, Gålfalk, M
Format: Article
Language:English
Subjects:
Air monitoring
Air pollution
Air quality
Alkalinity
Aquatic environment
Atmosphere
Automation
Carbon cycle
Carbon dioxide
Economic aspects
Emissions
Environmental monitoring
Fluxes
Greenhouse effect
Greenhouse gases
Indoor air
Indoor air pollution
Indoor air quality
Indoor environments
Labor
Labour
Lakes
Measurement
Partial pressure
Respiration
Sensors
Soil
Soil dynamics
Soil water
Soils
Surface water
Units of measurement
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Summary:Fluxes of CO2 are important for our understanding of the global carbon cycle and greenhouse gas balances. Several significant CO2 fluxes in nature may still be unknown as illustrated by recent findings of high CO2 emissions from aquatic environments, previously not recognized in global carbon balances. Therefore, it is important to develop convenient and affordable ways to measure CO2 in many types of environments. At present, direct measurements of CO2 fluxes from soil or water, or CO2 concentrations in surface water, are typically labor intensive or require costly equipment. We here present an approach with measurement units based on small inexpensive CO2 loggers, originally made for indoor air quality monitoring, that were tested and adapted for field use. Measurements of soil–atmosphere and lake–atmosphere fluxes, as well as of spatiotemporal dynamics of water CO2 concentrations (expressed as the equivalent partial pressure, pCO2aq) in lakes and a stream network are provided as examples. Results from all these examples indicate that this approach can provide a cost- and labor-efficient alternative for direct measurements and monitoring of CO2 flux and pCO2aq in terrestrial and aquatic environments.
ISSN:1726-4189
1726-4170
1726-4189
DOI:10.5194/bg-12-3849-2015