4.7 Article

No thermal adaptation in soil extracellular enzymes across a temperate grassland region

期刊

SOIL BIOLOGY & BIOCHEMISTRY
卷 165, 期 -, 页码 -

出版社

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.soilbio.2021.108540

关键词

Soil extracellular enzyme; Temperature sensitivity; Thermal adaptation; Temperate grassland; Regional scale

资金

  1. National Natural Science Foun-dation of China [31972939, 31670325]

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The decomposition rates of soil organic matter are affected by thermal adaptation, which is related to the average annual temperature of the soil environment. This study found that soil extracellular enzyme activity and its temperature sensitivity were not related to the mean annual temperature in grassland sites. Factors like soil pH, substrates, and texture had a greater influence on the extracellular enzyme activity. The positive correlation between the temperature sensitivity of extracellular enzyme activity and mean annual temperature contradicted the thermodynamic theory.
Soil organic matter decomposition rates are thermally adapted, in relation to the ambient mean annual temperature of the soil environment. This could be because of temperature sensitivity of soil extracellular enzymes involved in decomposition. The objective of this study was to determine if soil extracellular enzyme activity and its temperature sensitivity (measured as Q(10)) were related to the mean annual temperature across a grassland region. We collected surface soil (0-10 cm) from 57 temperate grassland sites along a latitudinal gradient in northern China. The Q(10) of soil extracellular enzymes (beta-1,4-glucosidase, beta-1,4-N acetylglucosaminidase, leucine aminopeptidase and acid phosphatase) was measured at four assay temperatures (5 degrees C, 15 degrees C, 25 degrees C, and 35 degrees C). There was no relationship between the mean annual temperature and standardized extracellular enzyme activity when other influential factors (soil pH, substrates, texture) were controlled, implying no thermal adaption of extracellular enzyme activity. Soil edaphic factors like soil pH, substrates and texture explained more of the spatial variation in the standardized extracellular enzyme activity than the mean annual temperature. Although the Q(10) of all four enzymes increased significantly with mean annual temperature, the data converged at the maximum activity, and the average Q(10) values were 1.17 for beta-1,4-glucosidase, 1.21 for beta-1,4-N acetylglucosaminidase, 1.11 for leucine aminopeptidase and 1.08 for acid phosphatase. The positive correlation between the Q(10) of extracellular enzyme activity and mean annual temperature is not consistent with the thermodynamic theory, which predicts higher Q(10) at sites with lower mean annual temperature. This may be due to the fact that extracellular enzymes operate outside of biological cells and thus are not directly related to physiological process rates of the microbial biomass. This study contributes to our understanding of the thermal adaptation of soil extracellular enzymes, and show that grassland sites with lower mean annual temperature do not necessarily induce higher temperature sensitivity of extracellular enzymes.

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