Chinese fir (CF) #IntraspecificUnderplanting enhances rhizospheric P availability in subtropical plantations through synergistic mechanisms, establishing CF underplanting could be a strategy to mitigate P limitation in subtropical forest soil.

#PhosphorusMobilization | #RhizosphereMicrobialBiomass | #AcidPhosphataseActivity | #OrganicAcidSecretion

https://doi.org/10.1093/jpe/rtaf160

Chinese fir #IntraspecificUnderplanting enhances rhizospheric P availability in subtropical plantations through synergistic mechanisms, while interspecific competition disrupts microbial consortia and limits #PhosphorusMobilization in heterospecific interplanted systems.

#RhizosphereMicrobialBiomass | #AcidPhosphataseActivity | #OrganicAcidSecretion

https://doi.org/10.1093/jpe/rtaf160

【🎉Latest accepted article】
#IntraspecificUnderplanting enhances rhizospheric phosphorus availability in subtropical Chinese fir plantations: Implications for sustainable forest management

#PhosphorusMobilization | #RhizosphereMicrobialBiomass | #AcidPhosphataseActivity | #OrganicAcidSecretion

https://doi.org/10.1093/jpe/rtaf160