Journal of Plant EcologyQiaoyu Yan et al. assessed the short-term, instantaneous CO2 response of the linear #ElectronTransport to assimilation ratio in sunflower and cowpea.
#ChlorophyllFluorescence | #ClimateChange | #ElevatedCO2 | #Photorespiration | #Photosynthesis
Short- and long-term CO2 variations ➡️ Linear #ElectronTransport to assimilation ratio (ETR/A)🟰Effects❓
Samples:
1️⃣ Helianthus annuus
2️⃣ Vigna unguiculata
#ChlorophyllFluorescence | #ClimateChange | #ElevatedCO2 | #Photorespiration | #Photosynthesis
Baoyi Peng et al. explored the adaptation to #Warming and #ElevatedCO2 influences diatom response norms and multi-#TraitVariations across CO2 gradients.
#Long_termAdaptation | #Short_termAcclimation | #GlobalChange | #Phytoplankton
【🎉Latest accepted article】
#ElectronTransport to assimilation ratio (ETR/A) of C3 plants is affected by atmospheric CO2
#ChlorophyllFluorescence | #ClimateChange | #ElevatedCO2 | #photorespiration | #photosynthesis
Baoyi Peng et al. used the model marine diatom #PhaeodactylumTricornutumBohlin under different #EnvironmentalConditions to explore how #Phytoplankton adapt to #elevatedCO2 and/or #Warming through long-term genotypic changes, which is critical for predicting future phytoplankton distribution and community structure.
https://doi.org/10.1093/jpe/rtae116
https://doi.org/10.1093/jpe/rtae116
Based on observations for #LitterMassLoss, #Carbon (C) and #Nitrogen (N) release, Siqi Wu et al. found that litter mass loss was decreased by 4.5%, and C and N release were significantly reduced by 6.7% and 3.4%, respectively, under #ElevatedCO2 in #TerrestrialEcosystems, which meant that may lead to negative #BiogeochemicalCycles.
https://doi.org/10.1093/jpe/rtaf002
https://doi.org/10.1093/jpe/rtaf002
