Project description:Phosphorus but not nitrogen addition affects subtropical forestsoil AM fungal community assembly and the function al guild composition

Project description:Effects of long-term nitrogen addition on soil fungal community in subtropical nitrogen saturated forest

Project description:Root associated fungal lineages of a tropical montane forest show contrasting sensitivities to the long-term addition of nitrogen and phosphorus

Project description:The response of arbuscular mycorrhizal fungi to nitrogen and phosphorus addition along with subtropical secondary forest succession.

Project description:Drivers of prokaryotic and fungal communities under nitrogen and phosphorus addition

Project description:In agroecosystems, a plant-usable form of nitrogen is mainly generated by legume-based biological nitrogen fixation, a process that requires phosphorus (P) as an essential nutrient. To investigate the physiological mechanism whereby phosphorus influences soybean nodule nitrogen fixation, soybean root nodules were exposed to four phosphate levels: 1 mg/L (P stress), 11 mg/L (P stress), 31 mg/L (Normal P), 61 mg/L (High P) then proteome analysis of nodules was conducted to identify phosphorus-associated proteome changes. We found that phosphorus stress-induced ribosomal protein structural changes were associated with altered key root nodule protein synthesis profiles. Importantly, up-regulated expression of peroxidase was observed as an important phosphorus stress-induced nitrogen fixation-associated adaptation that supported two nodule-associated activities: scavenging of reactive oxygen species (ROS) and cell wall growth. In addition, phosphorus transporter (PT) and purple acid phosphatase (PAPs) were up-regulated that regulated phosphorus transport and utilisation to maintain phosphorus balance and nitrogen fixation function in phosphorus-stressed root nodules.

Project description:Effects of long-term nitrogen addition on nitrogen-fixing bacterial communities in subtropical nitrogen-saturated forest soils.

Project description:Warming shapes the assembly of soil microbial (fungal) community in subtropical forest ecosystems

Project description:Fungal community diversity under nitrogen addition

Project description:poplar-fungal microbiome response to nitrogen addition