Min Luo

TL;DR: In this paper , the authors review the literature on the effects of N loading on P limitation and outline a conceptual overview of how plant and microbial P-acquisition strategies may affect soil organic carbon stabilization and decomposition in terrestrial ecosystems.

TL;DR: High-throughput sequencing showed that methane production may stem from the involvement of Methanosarcina for both treatments, suggesting that conductive carbon material can promote acetoclastic methanogenesis instead of CO2 reduction in a natural environment.

TL;DR: In this paper, the authors examined how the rates and pathways of anaerobic organic carbon mineralization (AOCM) of tidal freshwater wetlands change with low-level increases in salinity, and investigated the rate and controls of microbial iron and sulfate reduction, methane production, and total AOCM in tidal wetlands along a freshwater to oligohaline (0.1-3.3) gradient in the Min River Estuary in southeastern China.

TL;DR: In this article, the authors investigated the responses of the Fe-bound C pool to increasing salinity in a subtropical tidal wetland and found that the aboveground biomass and the content of root Fe(III) plaque (a proxy of root oxygen loss potential) rose with the increasing saliency.