Yun Liang et al. evaluated how functional diversity and community-weighted mean of leaf nutrients influence the formation of mineral-associated organic carbon via altering the #SoilMicrobialCommunity.

#Biodiversity_ecosystemFunctioning | #SoilNutrients | #PhospholipidFattyAcidAnalysis | #MicrobialCommunityComposition | #EnzymeActivities

https://doi.org/10.1093/jpe/rtaf135

Xuemei Wu et al. found significant changes in above- and belowground forest properties along the #EctomycorrhizalTree dominance gradient.

#EnzymaticActivity | #ForestCommunityStructure | #Mineralization | #SoilMicrobialCommunity | #SoilOrganicCarbon

https://doi.org/10.1093/jpe/rtaf143

🌲In temperate forests, changes in the dominance gradient of #EctomycorrhizalTreeSpecies significantly affect both aboveground and underground forest properties.

#EnzymaticActivity | #ForestCommunityStructure | #Mineralization | #SoilMicrobialCommunity | #SoilOrganicCarbon

https://doi.org/10.1093/jpe/rtaf143

【🎉Latest accepted article】
Above- and belowground effects of ectomycorrhizal dominance on soil carbon and nitrogen in a temperate forest

#EctomycorrhizalTreeSpecies | #EnzymaticActivity | #ForestCommunityStructure | #Mineralization | #SoilMicrobialCommunity | #SoilOrganicCarbon

https://doi.org/10.1093/jpe/rtaf143

【💡High Cited 2020-2022 】
Changes in #SoilMicrobialCommunity structure and function following degradation in a #TemperateGrassland

Research points:
1️⃣ the effects of different levels of grassland degradation;
2️⃣ influence factor.

#GrasslandDegradation | #PathogenicFungi

https://doi.org/10.1093/jpe/rtaa102