Journal of Plant Ecology【🎉Latest accepted article】
Impact of #ClimateExtremes on Seasonal Dynamics of Grassland #GrossPrimaryProductivity in #CentralAsia Considering Lagged and Cumulative Effects
Understanding #Vegetation #Sensitivity to water deficit is essential for assessing ecosystem vulnerability and adaptive capacity. So Mengdie Wang et al. explored whether the reduction of #Precipitation always suppress #VegetationProductivity.
Existing #TerrestrialEcosystemModels generally overestimate the carbon uptake stability due to insufficient characterization of vegetation phenology and physiological processes.
#TerrestrialEcosystemModels | #GrossPrimaryProductivity | #ClimateChange | #CarbonSinks | #EcosystemStability | #RemoteSensing
【🎉Latest accepted article】
Does the reduction of #Precipitation always suppress #Vegetation productivity?
#Sensitivity | #SoilWaterContent | #GrossPrimaryProductivity
Baoyu Sun et al. explored whether #ClimateWarming will reshape the cause-and-effect interactions between coastal plant productivity and #SoilFactors.
#Causality | #GrossPrimaryProductivity | #ConvergentCrossMapping | #CoastalWetland
#ClimateWarming🥵 ➡️ [ #CoastalPlant productivity ♾️ #SoilEnvironment ] ❓
Results: Warming amplified the interaction between #GrossPrimaryProductivity and soil salinity in the #CoastalWetlandEcosystem, increased the number of linking factors.
https://doi.org/10.1093/jpe/rtae107
Results: Warming amplified the interaction between #GrossPrimaryProductivity and soil salinity in the #CoastalWetlandEcosystem, increased the number of linking factors.
https://doi.org/10.1093/jpe/rtae107
Baoyu Sun et al. quantified the causal relationships between plants ( #GrossPrimaryProductivity, GPP) in a #CoastalWetland and #SoilEnvironment (e.g. soil temperature, moisture and salinity). The findings revealed that warming amplified the interaction between GPP, and #SoilSalinity in the #CoastalWetlandEcosystem.
https://doi.org/10.1093/jpe/rtae107
https://doi.org/10.1093/jpe/rtae107
