The difference in soil acid phosphatase activity between two artificial forests dominated by #LeguminousSpecies and non-leguminous species gradually disappeared after long-term #NitrogenDeposition, and high nitrogen addition accelerated this process in a #SubtropicalForest.
doi.org/10.1093/jpe/...
【🎉Latest accepted article】
Tree-mediated soil and #LitterProperties drive soil fauna community composition by reshaping predators and saprophages
#FunctionalGroups | #LitterDecomposition | #ReciprocalTransplantExperiment | #SubtropicalForest
@mapjournals.bsky.social
doi.org/10.1093/jpe/...
【🎉Latest accepted article】
Long-term high #NitrogenDeposition accelerates the disappearance of the #Phosphorus-acquiringAdvantage of #LeguminousSpecies in a #SubtropicalForest
#PhosphorusLimitation
@mapjournals.bsky.social
doi.org/10.1093/jpe/...
#SubtropicalForest #nature #photo
#EarlySummer #PlantObservation
#SeasonalPhotos #FlowerTherapy
#PlantSurvey
#SubtropicalForest #nature #photo
#EarlySummer #PlantObservation
#SeasonalPhotos #FlowerTherapy
#PlantSurvey
Causal path models for direct and indirect effects of soil properties, topographic factors and microbial groups on community structure.
Keystone operational taxonomic unit (OTU) and their influence on bacterial functions. Bacterial contributions of variation in metabolic functions, including (a) carbon metabolism, (b) nitrogen metabolism, (c) phosphorus metabolism, (d) sulfur metabolism, (e) methane metabolism, (f) pentose phosphate pathway, (g) butanoate metabolism, (h) glyoxylate and dicarboxylate metabolism and (i) propanoate metabolism.
The relationship between structure and functions of #SoilMicrobialCommunities and tree composition with #KeystoneMicrobes VS that with #RareMicrobes in a #SubtropicalForest.
1️⃣The former is more closely related.
2️⃣Keystone microbes have better functionality and stability.
doi.org/10.1093/jpe/...
Co-occurrence network of operational taxonomic units (OTUs) for (a) bacterial and (b) fungal communities and network stability.
The study of Xian Wu et al. revealed that #KeystoneTaxa made a significantly greater contribution than #RareTaxa in all comparisons of the all comparisons of #MicrobialFunctions and stability in a #SubtropicalForest based on #Co-occurrenceNetworkAnalyses.
doi.org/10.1093/jpe/...
The study by Brian Njoroge et al. is in response to the threat posed by increased #Droughts due to #GlobalClimateChange. Droughts are increasing in frequency and intensity in the #DinghushanBiosphereReserve, seasonal droughts drive up #Carbon gain in a #SubtropicalForest
doi.org/10.1093/jpe/...
How do #SoilMicroorganisms respond to increasing #PlantSpeciesDiversity (PSD) when #MicrobialResource limited ?
The conclusion is: Increasing PSD aggravates microbial #Phosphorus limitation but alleviates microbial #Carbon limitation in a #SubtropicalForest.
doi.org/10.1093/jpe/...
New publication: Local-scale soil nematode diversity in a subtropical forest depends on the phylogenetic and functional diversity of neighbor trees #soilbiodiversity #speciesrichness #subtropicalforest
https://doi.org/10.1007/s11104-023-05882-2
