#soilnutrient — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #soilnutrient, aggregated by home.social.
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A study shows that Amazon understory trees can temporarily store more CO₂ as atmospheric CO₂ levels rise. However, #soilnutrient limitations could restrict their capacity to sequester #carbon over the long term: http://go.tum.de/360558
📷iStock/ A. Oliveira
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A study shows that Amazon understory trees can temporarily store more CO₂ as atmospheric CO₂ levels rise. However, #soilnutrient limitations could restrict their capacity to sequester #carbon over the long term: http://go.tum.de/360558
📷iStock/ A. Oliveira
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A study shows that Amazon understory trees can temporarily store more CO₂ as atmospheric CO₂ levels rise. However, #soilnutrient limitations could restrict their capacity to sequester #carbon over the long term: http://go.tum.de/360558
📷iStock/ A. Oliveira
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A study shows that Amazon understory trees can temporarily store more CO₂ as atmospheric CO₂ levels rise. However, #soilnutrient limitations could restrict their capacity to sequester #carbon over the long term: http://go.tum.de/360558
📷iStock/ A. Oliveira
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A study shows that Amazon understory trees can temporarily store more CO₂ as atmospheric CO₂ levels rise. However, #soilnutrient limitations could restrict their capacity to sequester #carbon over the long term: http://go.tum.de/360558
📷iStock/ A. Oliveira
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Community leaf nutrient characteristics drive soil carbon stabilization by regulating #SoilNutrient and #MicrobialCommunity in a subtropical forest plantation.
#Biodiversity_ecosystemFunctioning | #PhospholipidFattyAcidAnalysis | #MicrobialCommunityComposition | #EnzymeActivities
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【🎉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
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New publication: #SoilpH determines the shift of key #microbialenergy metabolic pathways associated with #soilnutrient cycle, by @KuramaeEiko and others. #climatechange #greenhousegas #nitrogenmetabolism
https://doi.org/10.1016/j.apsoil.2025.105992