Biological fixation of atmospheric dinitrogen (N 2) is an important process that replenishes
biologically available nitrogen (N) in soil and helps minimize the use of inorganic N fertilizer …

Coastal salt marshes are sensitive to global climate change and may play an important role
in mitigating global warming. To evaluate the impacts of Spartina alterniflora invasion on …

There has been an increased interest in and wide application of biochar and slow-release
fertilizer (SRF) to agricultural soils in recent years because they can reduce greenhouse gas …

Purpose Nitrogen (N) fertilizer could promote rice root growth and alter methane (CH4)
emissions in paddy fields. This study investigated the mechanism of different N application …

Natural wetlands represent the largest single source of methane (CH 4), a potent
greenhouse gas. China is home to the world's fourth largest wetland area, and it is facing …

Climate warming perturbs ecosystem carbon (C) cycling, causing both positive and negative
feedbacks on greenhouse gas emissions. In 2016, we began a tidal marsh field experiment …

Aims To reveal the microbial communities from Qinghai–Tibetan Plateau wetland soils that
have the potential to be used in the utilization of cellulosic and chitinous biomass at low …

Rice cultivation is recognised as a pivotal source of atmospheric methane (CH 4),
accounting for 11% of global emissions. The main drivers of CH 4 production are redox …

Invasion of plant species with functional traits that influences the rhizosphere can have
significant effects on soil organic matter (SOM) dynamics if the invasive species stimulates …

Spartina alterniflora was intentionally introduced to China in 1979 for the purpose of
sediment stabilization and dike protection, and has continuously replaced native plants or …