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    Laboratory analysis of the effects of elevated atmospheric carbon dioxide on respiration in biological soil crusts

    Lane, RW, Menon, M, McQuaid, JB, Adams, DG, Thomas, AD, Hoon, SR ORCID logoORCID: https://orcid.org/0000-0002-1250-9432 and Dougill, AJ (2013) Laboratory analysis of the effects of elevated atmospheric carbon dioxide on respiration in biological soil crusts. Journal of Arid Environments, 98. pp. 52-59. ISSN 0140-1963

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    Abstract

    Metabolic activity of Biological Soil Crusts (BSCs) is principally dependent on moisture availability, but also on temperature and light conditions. Less understood is how BSCs respond to elevated atmospheric CO2. This paper reports laboratory experimental results of elevated atmospheric CO2 on carbon fluxes for cyanobacterial BSCs. The study uses newly designed dynamic gas exchange chambers in which the internal atmosphere was controlled. CO2 flux was monitored during controlled experiments in two phases under simulated rainfall events (2 & 5mm plus control with no wetting) each lasting 3 days with a dry period in between. Phase 1 subjected crusts to 392ppm CO2 (representing ambient level) in dry air; in phase 2, the CO2 concentration was 801ppm. Both phases exhibited significant efflux (respiration) of CO2 immediately after wetting, followed by substantial influx (sequestration) of CO2. Samples subject to 2mm wetting sequestered an order of magnitude more C under elevated CO2 than at ambient CO2; for samples subject to 5mm wetting, this increase was threefold. The findings highlight the role of BSCs in future carbon budgets by enabling greater sequestration into dryland soils even under enhanced atmospheric CO2 concentrations, following both light and heavy rainfall events. © 2013 Elsevier Ltd.

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