Yuan Liu

TL;DR: Empirical evidence is provided supporting that soil N availability, under global warming scenarios, is expected to increase stronger in colder regions as compared with that low-latitude regions due to the higher Q10 and may alleviate the restriction of N supply for increased primary productivity at higher latitudes.

TL;DR: Wang et al. as discussed by the authors evaluated the geographic distributions of bacterial diversity and their driving factors across nine latitudinal forests along a 3,700-km north-south transect in eastern China, using high-throughput 16S rRNA gene sequencing.

TL;DR: The general negative relationships between Q10 and substrate quality among all ecosystem types supported the C quality temperature (CQT) hypothesis at a large scale, which indicated that soils with low quality should have higher temperature sensitivity.

TL;DR: In this article, the temperature response of soil microbial respiration (Rh) is measured at high frequency using a novel system under the mode, with temperature gradually increasing from 5 to 50°C.

TL;DR: Wang et al. as mentioned in this paper explored the spatial pattern and regulating mechanisms of soil nitrogen mineralization rate (N-min) and its temperature sensitivity (Q(10)) for evaluating ecosystem productivity and the supply of soil available nitrogen (N).