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Temperature sensitivity of heterotrophic soil CO2 production increases with increasing carbon substrate uptake rate.

Authors :
Erhagen, Björn
Ilstedt, Ulrik
Nilsson, Mats B.
Source :
Soil Biology & Biochemistry. Jan2015, p45-52. 8p.
Publication Year :
2015

Abstract

Temperature profoundly affects saprotrophic respiration rates, and carbon quality theory predicts that the rates' temperature sensitivity should increase as the quality of the carbon source declines. However, reported relationships between saprotrophic respiration responses to temperature and carbon quality vary widely. Some of this variability may arise from confounding effects related to both substrate quality and substrate availability. The importance of these variables, as well as substrate diffusion and uptake rates, for the temperature sensitivity of saprotrophic respiration has been validated theoretically, but not empirically demonstrated. Thus, we tested effects of varying substrate uptake rates on the temperature sensitivity of organic carbon degradation. For this purpose we created a model system using the organic layer (O-horizon), of a boreal forest soil, specifically to test effects of varying monomer uptake and release rates. The addition of both monomers and polymers generally increased the temperature sensitivity of saprotrophic respiration. In response to added monomers, there was a linear increase in the temperature sensitivity of both substrate-induced respiration and the specific growth rate with increasing rate of substrate uptake as indicated by the CO2 production at 14 °C. Both of these responses diverge from those predicted by the carbon quality theory, but they provide the first empirical evidence consistent with model predictions demonstrating increased temperature sensitivity with increased uptake rate of carbon monomers over the cell membrane. These results may explain why organic material of higher carbon quality induces higher temperature responses than lower carbon quality compounds, without contradicting carbon quality theory. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00380717
Database :
Academic Search Index
Journal :
Soil Biology & Biochemistry
Publication Type :
Academic Journal
Accession number :
109270272
Full Text :
https://doi.org/10.1016/j.soilbio.2014.09.021