#vegetativephenology — Public Fediverse posts

Despite much recent progress, our understanding of #PlantPhenology response to #ClimateChange remains incomplete. Lu Bai et al. carried out a #Meta-analysis of plant phenology in relation to temperature changes across a range of plant species and functional groups in northern China. The results show that #ClimateWarming tended to extend the duration of #ReproductivePhenology while having no effect on the duration of #VegetativePhenology.
Details: https://doi.org/10.1093/jpe/rtae080

Despite much recent progress, our understanding of #PlantPhenology response to #ClimateChange remains incomplete. Lu Bai et al. carried out a #Meta-analysis of plant phenology in relation to temperature changes across a range of plant species and functional groups in northern China. The results show that #ClimateWarming tended to extend the duration of #ReproductivePhenology while having no effect on the duration of #VegetativePhenology.
Details: https://doi.org/10.1093/jpe/rtae080

Despite much recent progress, our understanding of #PlantPhenology response to #ClimateChange remains incomplete. Lu Bai et al. carried out a #Meta-analysis of plant phenology in relation to temperature changes across a range of plant species and functional groups in northern China. The results show that #ClimateWarming tended to extend the duration of #ReproductivePhenology while having no effect on the duration of #VegetativePhenology.
Details: https://doi.org/10.1093/jpe/rtae080

Despite much recent progress, our understanding of #PlantPhenology response to #ClimateChange remains incomplete. Lu Bai et al. carried out a #Meta-analysis of plant phenology in relation to temperature changes across a range of plant species and functional groups in northern China. The results show that #ClimateWarming tended to extend the duration of #ReproductivePhenology while having no effect on the duration of #VegetativePhenology.
Details: https://doi.org/10.1093/jpe/rtae080

Despite much recent progress, our understanding of #PlantPhenology response to #ClimateChange remains incomplete. Lu Bai et al. carried out a #Meta-analysis of plant phenology in relation to temperature changes across a range of plant species and functional groups in northern China. The results show that #ClimateWarming tended to extend the duration of #ReproductivePhenology while having no effect on the duration of #VegetativePhenology.
Details: https://doi.org/10.1093/jpe/rtae080