#plantphenology — Public Fediverse posts

【🎉Latest accepted article】
Contrasting effects of daytime and nighttime warming on ecosystem carbon uptake in an alpine #Grassland

#AsymmetricWarming | #CarbonFluxes | #PlantPhenology | #TibetanPlateau

https://doi.org/10.1093/jpe/rtag085

【🎉Latest accepted article】
Contrasting effects of daytime and nighttime warming on ecosystem carbon uptake in an alpine #Grassland

#AsymmetricWarming | #CarbonFluxes | #PlantPhenology | #TibetanPlateau

https://doi.org/10.1093/jpe/rtag085

【🎉Latest accepted article】
Contrasting effects of daytime and nighttime warming on ecosystem carbon uptake in an alpine #Grassland

#AsymmetricWarming | #CarbonFluxes | #PlantPhenology | #TibetanPlateau

https://doi.org/10.1093/jpe/rtag085

【🎉Latest accepted article】
Contrasting effects of daytime and nighttime warming on ecosystem carbon uptake in an alpine #Grassland

#AsymmetricWarming | #CarbonFluxes | #PlantPhenology | #TibetanPlateau

https://doi.org/10.1093/jpe/rtag085

【🎉Latest accepted article】
Contrasting effects of daytime and nighttime warming on ecosystem carbon uptake in an alpine #Grassland

#AsymmetricWarming | #CarbonFluxes | #PlantPhenology | #TibetanPlateau

https://doi.org/10.1093/jpe/rtag085

Some Hong Kong trees are behaving strangely and botanists want to know why

A citywide study should be launched to examine how global warming is affecting plants in Hong Kong and…
#Environment #ConservancyAssociation #EducationUniversityofHongKong #HongKong #JimChi-yung #KenSoKwok-yin #News #plantphenology #pollinate #pollinators #researchfunding #scmp #SoKwok-yin #treecotton #urbansetting #warmingweather #winter
https://www.europesays.com/2945682/

Some Hong Kong trees are behaving strangely and botanists want to know why https://www.byteseu.com/1965351/ #ConservancyAssociation #EducationUniversityOfHongKong #environment #HongKong #JimChiYung #KenSoKwokYin #News #PlantPhenology #pollinate #Pollinators #ResearchFunding #SCMP #SoKwokYin #TreeCotton #UrbanSetting #WarmingWeather #winter

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

Hi friends: I'm a #ClimateChange ecologist studying #biodiversity, #seasonality, and #spacetime. Currently working with the Pile at UCSB/MCR on land-sea connections (can we make #LandSea a hashtag?) and #coral bleaching; PhD from Post lab at UCD w/ #BighornSheep #migration, #PlantPhenology, and a lot of #RemoteSensing. Mostly science content but occasionally coffee roasting, breadmaking, woodworking, and photography.