#alpinegrasslands — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #alpinegrasslands, aggregated by home.social.
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Ke Zhang et al. explored geographic patterns in the abundance, diversity and community composition of #PhyllosphereMicrobiota and their functions.
#Biogeography | #MicrobialNetwork | #EcosystemMultifunctionality | #AlpineGrasslands
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#PhyllosphereMicrobiota showed a significant non-linear environmental gradient effect in #AlpineGrasslands on the Qinghai–Tibetan Plateau, which was mostly explained by climate factors, especially annual precipitation.
#Biogeography | #MicrobialNetwork | #EcosystemMultifunctionality
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#PhyllosphereMicrobiota showed a significant non-linear environmental gradient effect in #AlpineGrasslands on the Qinghai–Tibetan Plateau, which was mostly explained by climate factors, especially annual precipitation.
#Biogeography | #MicrobialNetwork | #EcosystemMultifunctionality
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#PhyllosphereMicrobiota showed a significant non-linear environmental gradient effect in #AlpineGrasslands on the Qinghai–Tibetan Plateau, which was mostly explained by climate factors, especially annual precipitation.
#Biogeography | #MicrobialNetwork | #EcosystemMultifunctionality
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#PhyllosphereMicrobiota showed a significant non-linear environmental gradient effect in #AlpineGrasslands on the Qinghai–Tibetan Plateau, which was mostly explained by climate factors, especially annual precipitation.
#Biogeography | #MicrobialNetwork | #EcosystemMultifunctionality
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#PhyllosphereMicrobiota showed a significant non-linear environmental gradient effect in #AlpineGrasslands on the Qinghai–Tibetan Plateau, which was mostly explained by climate factors, especially annual precipitation.
#Biogeography | #MicrobialNetwork | #EcosystemMultifunctionality
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Qingling Sun developed a semi-mechanistic #PhenologicalModel, the Alpine #GrowingSeasonIndex (AGSI), to predict foliar phenology in #AlpineGrasslands on the Qinghai–Tibetan Plateau.
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【🎉Latest accepted article】
#PhyllosphereMicrobiota in #AlpineGrasslands on Qinghai-Tibetan Plateau varied with geographical and climatic factors#Biogeography | #MicrobialNetwork | #EcosystemMultifunctionality
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#Warming🌡️ & #Grazing🌱 ➡️ resource allocation strategies in #AlpineGrasslands
Place: Tibetan Plateau
Method: #meta_analysis
Results:
1️⃣ The aboveground and belowground growth relationship follows the allometric growth hypothesis;
2️⃣ Warming & grazing ➡️ soil properties. -
💡 An ‼️improved‼️ #GrowingSeasonIndex of #AlpineGrasslands on the #Qinghai_TibetanPlateau
Characteristics: including 1️⃣ #MaximumTemperature, 2️⃣ #Precipitation, 3️⃣ #Photoperiod
Function: predicting #FoliarPhenology
https://doi.org/10.1093/jpe/rtaf009 -
❇️ #Rest-grazing in spring ➡️ #SoilMicrobialCommunity🟰 Effect❓
Place: #AlpineGrasslands
Results:
1️⃣ Increased #AbovegroundBiomass ➡️ Improved #PlantDiversity;
2️⃣ Increased #SoilOrganicCarbon ➡️ restored #SoilProperties.
https://doi.org/10.1093/jpe/rtae110 -
Le Sun et al. pointed that the trade-off pattern of #Biomass of #AlpineGrasslands is not only determined by plant community traits and functions on the #TibetanPlateau, but also regulated by #Precipitation regimes.
https://doi.org/10.1093/jpe/rtad009 -
Ge Hou et al. found that the #DominantSpecies predominated #CommunityStability by promoting the community #DominantSpeciesStability (DSS) and #SpeciesAsynchrony in the #AlpineGrasslands on the northern #TibetanPlateau. Mean-while, community species dominance contributed to the DSS. Protecting locally dominant species can stabilize the ecosystem functions of alpine grasslands.
https://doi.org/10.1093/jpe/rtac110 -
Qianxin Jiang et al. found that species in #AlpineGrasslands can maintain #CommunityBiomassStability via #AsynchronyDynamics of species under different #Warming conditions.
Details: https://doi.org/10.1093/jpe/rtae037