Automatic high-frequency measurements of full soil greenhouse gas fluxes in a tropical forest

Elodie Alice Courtois; Clement Stahl; Benoît Burban; Joke van den Berge; Daniel Berveiller; Laëtitia Bréchet; Jennifer Larned Soong; Nicola Arriga; Josep Penuelas; Ivan August Janssens

doi:10.5194/bg-16-785-2019

Article dans une revue

Automatic high-frequency measurements of full soil greenhouse gas fluxes in a tropical forest

Elodie Alice Courtois ^{1, 2, 3, *} Clement Stahl ⁴ Benoît Burban ⁴ Joke van den Berge ^{1, 3} Daniel Berveiller ⁵ Laëtitia Bréchet ^{4, 1, 3} Jennifer Larned Soong ^{6, 1, 3} Nicola Arriga ^{1, 3} Josep Penuelas ⁷ Ivan August Janssens ^{1, 3}

* Auteur correspondant

1 Department of Biology

2 LEEISA - Laboratoire Ecologie, évolution, interactions des systèmes amazoniens

3 UA - University of Antwerp

4 UMR ECOFOG - Ecologie des forêts de Guyane

5 ESE - Ecologie Systématique et Evolution

6 LBNL - Lawrence Berkeley National Laboratory [Berkeley]

7 UAB - Universitat Autònoma de Barcelona

Abstract : Measuring in situ soil fluxes of carbon dioxide (CO2), methane (CH4), and nitrous oxide (N2O) continuously at high frequency requires appropriate technology. We tested the combination of a commercial automated soil CO2 flux chamber system (LI-8100A) with a CH4 and N2O analyzer (Picarro G2308) in a tropical rainforest for 4 months. A chamber closure time of 2 min was sufficient for a reliable estimation of CO2 and CH4 fluxes (100% and 98.5% of fluxes were above minimum detectable flux - MDF, respectively). This closure time was generally not suitable for a reliable estimation of the low N2O fluxes in this ecosystem but was sufficient for detecting rare major peak events. A closure time of 25 min was more appropriate for reliable estimation of most N2O fluxes (85.6% of measured fluxes are above MDF +/- 0.002 nmol m(-2) s(-1)). Our study highlights the importance of adjusted closure time for each gas.

Mots-clés : nitrous-oxide biogeochemical controls emissions

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Article dans une revue

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Sciences du Vivant [q-bio]

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