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Effect of temperature on metabolic activity of intact microbial communities: Evidence for altered metabolic pathway activity but not for increased maintenance respiration and reduced carbon use efficiency

Publication Type:

Journal Article

Source:

Soil Biology and Biochemistry, Volume 43, Number 10, p.2023-2031 (2011)

URL:

https://www.sciencedirect.com/science/article/pii/S0038071711002112

Keywords:

C metabolism, Carbon, Glycolysis, Krebs cycle, Modeling, Pentose phosphate pathway, Soil microbial biomass, Stable isotopes, Temperature

Abstract:

We used metabolic tracers and modeling to analyze the response of soil metabolism to a sudden change in temperature from 4 to 20°C. We hypothesized that intact soil microbial communities would exhibit shifts in pentose phosphate pathway and glycolysis activity in the same way as is regularly observed for individual microorganisms in pure culture. We also hypothesized that increased maintenance respiration at higher temperature would result in greater energy production and reduced carbon use efficiency (CUE). Two hours after temperature increase, respiration increased almost 10-fold. Although all metabolic processes were increased, the relative activity of metabolic processes, biosynthesis, and energy production changed. Pentose phosphate pathway was reduced (17–20%), while activities of specific steps in glycolysis (51%) and Krebs cycle (7–13%) were increased. In contrast, only small but significant changes in biosynthesis (+2%), ATP production (−3%) and CUE (+2%) were observed. In a second experiment, we compared the metabolic responses to temperature increases in soils from high and low elevation. The shift in activity from pentose phosphate pathway to glycolysis with higher temperature was confirmed in both soils, but the responses of Krebs cycle, biosynthesis, ATP production, and CUE were site dependent. Our results indicate that 1) in response to temperature, communities behave biochemically similarly to single species and, 2) our understanding of temperature effects on CUE, energy production and use for maintenance and growth processes is still incomplete.

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