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Article

On the 'temperature sensitivity' of soil respiration: Can we use the immeasurable to predict the unknown?

Details

Citation

Subke J & Bahn M (2010) On the 'temperature sensitivity' of soil respiration: Can we use the immeasurable to predict the unknown?. Soil Biology and Biochemistry, 42 (9), pp. 1653-1656. https://doi.org/10.1016/j.soilbio.2010.05.026

Abstract
The temperature dependence of soil respiration (R(S)) is widely used as a key characteristic of soils or organic matter fractions within soils, and in the context of global climatic change is often applied to infer likely responses of R(S) to warmer future conditions. However, the way in which these temperature dependencies are calculated, interpreted and implemented in ecosystem models requires careful consideration of possible artefacts and assumptions. We argue that more conceptual clarity in the reported relationships is needed to obtain meaningful meta-analyses and better constrained parameters informing ecosystem models. Our critical assessment of common methodologies shows that it is impossible to measure actual temperature response of R(S), and that a range of confounding effects creates the observed apparent temperature relations reported in the literature. Thus, any measureable temperature response function will likely fail to predict effects of climate change on R(S). For improving our understanding of R(S) in changing environments we need a better integration of the relationships between substrate supply and the soil biota, and of their long-term responses to changes in abiotic soil conditions. This is best achieved by experiments combining isotopic techniques and ecosystem manipulations, which allow a disentangling of abiotic and biotic factors underlying the temperature response of soil CO(2) efflux.

Keywords
Decomposition; Ecosystem modelling; Priming effect; Q10; Rhizosphere; Soil CO2 efflux; Soil respiration; Soil temperature; Soil organic matter; Belowground carbon allocation; Rhizosphere Microbiology; Soil respiration; Soil management Environmental aspects

Journal
Soil Biology and Biochemistry: Volume 42, Issue 9

StatusPublished
Publication date30/09/2010
URL
PublisherElsevier
ISSN0038-0717

People (1)

Professor Jens-Arne Subke

Professor Jens-Arne Subke

Professor, Biological and Environmental Sciences