Community leaf nutrient characteristics drive soil carbon stabilization by regulating #SoilNutrient and #MicrobialCommunity in a subtropical forest plantation.

#Biodiversity_ecosystemFunctioning | #PhospholipidFattyAcidAnalysis | #MicrobialCommunityComposition | #EnzymeActivities

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

Dandan Zhang et al. explored drivers of #MicrobialNecromass carbon and its contribution to #SoilOrganicCarbon along an elevational gradient.

#MontaneEcosystems | #SoilOrganicCarbonDynamics | #EnzymeActivities | #AlpineForest

https://doi.org/10.1093/jpe/rtaf119

❓ Drivers of #MicrobialNecromass carbon (MNC) and its contribution to #SoilOrganicCarbon (SOC) along an elevational gradient

Results:
The rapid decomposition of bacteria necromass C is the main way of MNC loss in wet season in #AlpineForest.

#MontaneEcosystems | #SoilOrganicCarbonDynamics | #EnzymeActivities

https://doi.org/10.1093/jpe/rtaf119

【🎉Latest accepted article】
Community leaf nutrient characteristics drive soil carbon stabilization by regulating #SoilNutrient and microbial community in a subtropical forest plantation

#Biodiversity_ecosystemFunctioning | #PhospholipidFattyAcidAnalysis | #MicrobialCommunityComposition | #EnzymeActivities

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

【🎉Latest accepted article】
Linking #MicrobialNecromass carbon to #SoilOrganicCarbon: seasonal and elevational patterns and potential drivers in the mountain forest ecosystems of Southwest China

#MontaneEcosystems | #EnzymeActivities | #AlpineForest

https://doi.org/10.1093/jpe/rtaf119