Microbial modulators of soil carbon storage: integrating genomic and metabolic knowledge for global prediction

TL;DR: This study investigates the impact of fertilization regimes on rhizosphere microbial communities in Phoebe bournei plantations, revealing altered bacterial and fungal community compositions, diversity, and interactions, with organic fertilizer promoting microbial turnover and complex fungal networks.

TL;DR: In this paper, a long-term fertilizer experiment was conducted on a soybean-wheat cropping with the aim of estimating nitrification and elucidating the mechanistic processes of nitrogen mineralization.

TL;DR: This study analyzes 65,509 research articles on carbon capture, focusing on microbial carbon capture, and identifies trending keywords, including "biochar", "biofuel", and "rhizosphere microbiome", with implications for research methods and applications.

TL;DR: This work has suggested that several environmental constraints obscure the intrinsic temperature sensitivity of substrate decomposition, causing lower observed ‘apparent’ temperature sensitivity, and these constraints may, themselves, be sensitive to climate.

TL;DR: In this article, a new generation of experiments and soil carbon models were proposed to predict the SOM response to global warming, and they showed that molecular structure alone alone does not control SOM stability.

TL;DR: Survey, experimental, and meta-analytical results suggest that certain bacterial phyla can be differentiated into copiotrophic and oligotrophic categories that correspond to the r- and K-selected categories used to describe the ecological attributes of plants and animals.

TL;DR: Soils collected across a long-term liming experiment were used to investigate the direct influence of pH on the abundance and composition of the two major soil microbial taxa, fungi and bacteria, and both the relative abundance and diversity of bacteria were positively related to pH.