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Título: | Evaporation and carbonic anhydrase activity recorded in oxygen isotope signatures of net CO2 fluxes from a Mediterranean soil |
Autor: | Wingate, Lisa Seibt, Ulli Maseyk, Kadmiel Ogée, Jérome Almeida, Pedro Yakir, Dan Pereira, João Santos Mencuccini, Maurizio |
Palavras-chave: | atmospheric invasion carbonic anhydrase drought Mediterranean forests oxygen isotopes Quercus suber soil CO2 efflux soil evaporation |
Data: | 2008 |
Editora: | Blackwell |
Citação: | "Global Change Biology". ISSN 1354-1013. 14 (2008) 2178-2193 |
Resumo: | The oxygen stable isotope composition (d18O) of CO2 is a valuable tool for studying the gas exchange between terrestrial ecosystems and the atmosphere. In the soil, it records the isotopic signal of water pools subjected to precipitation and evaporation events. The d18O of the surface soil net CO2 flux is dominated by the physical processes of diffusion of CO2 into and out of the soil and the chemical reactions during CO2–H2O equilibration. Catalytic reactions by the enzyme carbonic anhydrase, reducing CO2 hydration times, have been proposed recently to explain field observations of the d18O signatures of net soil CO2 fluxes. How important these catalytic reactions are for accurately predicting large-scale biosphere fluxes and partitioning net ecosystem fluxes is currently uncertain because of the lack of field data. In this study, we determined the d18O signatures of net soil CO2 fluxes from soil chamber measurements in a Mediterranean forest. Over the 3 days of measurements, the observed d18O signatures of net soil CO2 fluxes became progressively enriched with a well-characterized diurnal cycle. Model simulations indicated that the d18O signatures recorded the interplay of two effects: (1) progressive enrichment of water in the upper soil by evaporation, and (2) catalytic acceleration of the isotopic exchange between CO2 and soil water, amplifying the contributions of ‘atmospheric invasion’ to net signatures. We conclude that there is a need for better understanding of the role of enzymatic reactions, and hence soil biology, in determining the contributions of soil fluxes to oxygen isotope signals in atmospheric CO2. |
Peer review: | yes |
URI: | http://hdl.handle.net/10400.5/5622 |
ISSN: | 1354-1013 |
Aparece nas colecções: | CEF - Artigos de Revistas |
Ficheiros deste registo:
Ficheiro | Descrição | Tamanho | Formato | |
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REP-2008-54.pdf | 324,83 kB | Adobe PDF | Ver/Abrir |
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