Journal of Plant EcologyJan 13

Fangling Ma et al. found that #SoilChemistry exerts a more significant influence on bacterial responses to nitrogen disturbances than #RootExudates.

#NitrogenAddition | #CessationOfNAddition | #Bacteria | #Life_historyStrategies | #Plant_microbialInteractions | #RootTraits

https://doi.org/10.1093/jpe/rtaf107

Journal of Plant EcologyDec 28

๐Ÿ”Ž Historical nitrogen (N) enrichment โžก๏ธ Soil microbial communities: Effects & regulatory mechanisms

Results:
#SoilChemistry exerts a more significant influence on bacterial responses to nitrogen disturbances than #RootExudates.

#NitrogenAddition | #EssationofNAddition | #Bacteria | #Life_historyStrategies | #Plant_microbialInteractions | #RootTraits

https://doi.org/10.1093/jpe/rtaf107

Journal of Plant EcologyJul 25, 2025

ใ€๐ŸŽ‰Latest accepted articleใ€‘
#SoilChemistry exerts a more significant influence on bacterial responses to nitrogen disturbances than #RootExudates

#NitrogenAddition | #CessationOfNitrogenAddition | #Bacteria | #Life_historyStrategies | #Plant_microbialInteractions | #RootTraits

https://doi.org/10.1093/jpe/rtaf107