#totalcarbon — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #totalcarbon, aggregated by home.social.
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Yuxin Huang et al. explored global patterns and driving factors of non-leaf litter carbon quality across #PlantFunctionalTypes and environments.
#TotalCarbon | #Lignocellulose | #GeographicalFeature | #Climate | #SoilProperties | #Decomposition
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Yuxin Huang et al. explored global patterns and driving factors of non-leaf litter carbon quality across #PlantFunctionalTypes and environments.
#TotalCarbon | #Lignocellulose | #GeographicalFeature | #Climate | #SoilProperties | #Decomposition
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Yuxin Huang et al. explored global patterns and driving factors of non-leaf litter carbon quality across #PlantFunctionalTypes and environments.
#TotalCarbon | #Lignocellulose | #GeographicalFeature | #Climate | #SoilProperties | #Decomposition
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Yuxin Huang et al. explored global patterns and driving factors of non-leaf litter carbon quality across #PlantFunctionalTypes and environments.
#TotalCarbon | #Lignocellulose | #GeographicalFeature | #Climate | #SoilProperties | #Decomposition
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Yuxin Huang et al. explored global patterns and driving factors of non-leaf litter carbon quality across #PlantFunctionalTypes and environments.
#TotalCarbon | #Lignocellulose | #GeographicalFeature | #Climate | #SoilProperties | #Decomposition
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💡 The Global patterns and driving factors of non-leaf litter carbon quality 💡
Results:
1️⃣ only #TotalCarbon and cellulose concentrations significantly varied;
2️⃣ C quality: angiosperms > gymnosperms, herbaceous > woody plants, broadleaved > coniferous trees;
3️⃣ soil properties generally showed strong impacts.#Lignocellulose | #PlantFunctionalType | #GeographicalFeature | #Climate | #SoilProperties | #Decomposition
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💡 The Global patterns and driving factors of non-leaf litter carbon quality 💡
Results:
1️⃣ only #TotalCarbon and cellulose concentrations significantly varied;
2️⃣ C quality: angiosperms > gymnosperms, herbaceous > woody plants, broadleaved > coniferous trees;
3️⃣ soil properties generally showed strong impacts.#Lignocellulose | #PlantFunctionalType | #GeographicalFeature | #Climate | #SoilProperties | #Decomposition
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💡 The Global patterns and driving factors of non-leaf litter carbon quality 💡
Results:
1️⃣ only #TotalCarbon and cellulose concentrations significantly varied;
2️⃣ C quality: angiosperms > gymnosperms, herbaceous > woody plants, broadleaved > coniferous trees;
3️⃣ soil properties generally showed strong impacts.#Lignocellulose | #PlantFunctionalType | #GeographicalFeature | #Climate | #SoilProperties | #Decomposition
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💡 The Global patterns and driving factors of non-leaf litter carbon quality 💡
Results:
1️⃣ only #TotalCarbon and cellulose concentrations significantly varied;
2️⃣ C quality: angiosperms > gymnosperms, herbaceous > woody plants, broadleaved > coniferous trees;
3️⃣ soil properties generally showed strong impacts.#Lignocellulose | #PlantFunctionalType | #GeographicalFeature | #Climate | #SoilProperties | #Decomposition
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💡 The Global patterns and driving factors of non-leaf litter carbon quality 💡
Results:
1️⃣ only #TotalCarbon and cellulose concentrations significantly varied;
2️⃣ C quality: angiosperms > gymnosperms, herbaceous > woody plants, broadleaved > coniferous trees;
3️⃣ soil properties generally showed strong impacts.#Lignocellulose | #PlantFunctionalType | #GeographicalFeature | #Climate | #SoilProperties | #Decomposition
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【🎉Latest accepted article】
Global patterns and driving factors of non-leaf litter carbon quality across #PlantFunctionalTypes and environments#TotalCarbon | #Lignocellulose | #GeographicalFeature | #Climate | #SoilProperties | #Decomposition
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Legumes play critical roles in agroecosystems by modulating nitrogen-fixing microorganisms to enhance #SoilFertility and promote #CropProductivity. Yi-Heng Tao et al. investigated the #CommunityStructure of soil #Nitrogen-fixingMicroorganisms in different soil layers under #Legume and non-legume cultivation .Both #TotalCarbon and #DissolvedOrganicCarbon were identified as key drivers of #Nitrogen-fixingGenes.
Details: https://doi.org/10.1093/jpe/rtae092