In to a high-oxygen environment, angiosperms diversified and adapted to the tumultuous fire ecology of the Cretaceous.
RT @bio_cb_jp: 興味深い論文 白亜紀 被子植物の興隆と耐燃性獲得が大気酸素を調節し熱帯雨林形成を促進 https://t.co/lC1f7nJSmW 白亜紀初期は高酸素濃度→火災多く同時に被子植物は多様化→被子植物優占し火災適応で耐燃性獲得→酸素濃度が減少…
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
RT @Guanlong_wucaii: 白亜紀に被子植物が増えたことで、K-Pg境界の時の火災が悪化(?)したらしく、その影響で酸素濃度が30%から25%に減少した可能性があるようです。 (下草って燃えやすいからなぁ…) https://t.co/XCdw9tamNq
RT @Guanlong_wucaii: 白亜紀に被子植物が増えたことで、K-Pg境界の時の火災が悪化(?)したらしく、その影響で酸素濃度が30%から25%に減少した可能性があるようです。 (下草って燃えやすいからなぁ…)
白亜紀に被子植物が増えたことで、K-Pg境界の時の火災が悪化(?)したらしく、その影響で酸素濃度が30%から25%に減少した可能性があるようです。 (下草って燃えやすいからなぁ…)
RT @bio_cb_jp: さらに、以下論文で示されてること https://t.co/PqWmt4KEc1 白亜紀から新生代初期の気候変動や地球化学的変化に対応した被子植物の進化的イノベーション(火災適応など) これは、被子植物の進化的多様化の導火線上で、生じたことな…
RT @TomHoltzPaleo: The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen https://t.co/TIsoN…
RT @TomHoltzPaleo: The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen https://t.co/TIsoN…
RT @TomHoltzPaleo: The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen https://t.co/TIsoN…
New work by @ClaireMBelcher et al makes major progress on incorporating fire feedbacks in the COPSE model, suggests that Cretaceous angiosperm fire feedbacks had major implications for global biogeochemical cycles, and now for the #Pyrocene https://t.co/zd
RT @TomHoltzPaleo: The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen https://t.co/TIsoN…
RT @TomHoltzPaleo: The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen https://t.co/TIsoN…
RT @TomHoltzPaleo: The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen https://t.co/TIsoN…
The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen | Nature Communications https://t.co/rgtRP7KA4M
RT @TomHoltzPaleo: The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen https://t.co/TIsoN…
RT @TomHoltzPaleo: The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen https://t.co/TIsoN…
Interesting case of biogeochemical modeling and ecosystem remifications of the angiosperms origins.
The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen https://t.co/TIsoNbg0ar
RT @bio_cb_jp: さらに、以下論文で示されてること https://t.co/PqWmt4KEc1 白亜紀から新生代初期の気候変動や地球化学的変化に対応した被子植物の進化的イノベーション(火災適応など) これは、被子植物の進化的多様化の導火線上で、生じたことな…
さらに、以下論文で示されてること https://t.co/PqWmt4KEc1 白亜紀から新生代初期の気候変動や地球化学的変化に対応した被子植物の進化的イノベーション(火災適応など) これは、被子植物の進化的多様化の導火線上で、生じたことなのでしょうか つながって面白いです。。。
Cool article discussed in lab today about how the rise of angiosperms in the Cretaceous affected fire feedbacks and atmospheric O2. If it took 100s of mils of years for atm O2 to stabilize, how are humans impacting fire feedbacks on 10-100s of years scale?
RT @bio_cb_jp: 興味深い論文 白亜紀 被子植物の興隆と耐燃性獲得が大気酸素を調節し熱帯雨林形成を促進 https://t.co/lC1f7nJSmW 白亜紀初期は高酸素濃度→火災多く同時に被子植物は多様化→被子植物優占し火災適応で耐燃性獲得→酸素濃度が減少…
RT @bio_cb_jp: 興味深い論文 白亜紀 被子植物の興隆と耐燃性獲得が大気酸素を調節し熱帯雨林形成を促進 https://t.co/lC1f7nJSmW 白亜紀初期は高酸素濃度→火災多く同時に被子植物は多様化→被子植物優占し火災適応で耐燃性獲得→酸素濃度が減少…
RT @bio_cb_jp: 興味深い論文 白亜紀 被子植物の興隆と耐燃性獲得が大気酸素を調節し熱帯雨林形成を促進 https://t.co/lC1f7nJSmW 白亜紀初期は高酸素濃度→火災多く同時に被子植物は多様化→被子植物優占し火災適応で耐燃性獲得→酸素濃度が減少…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @rex_toyo: これは面白い!
これは面白い!
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @toooochan0514: これほんまか…すごいな https://t.co/Fx0qjmnu5U
RT @toooochan0514: これほんまか…すごいな
RT @bio_cb_jp: 興味深い論文 白亜紀 被子植物の興隆と耐燃性獲得が大気酸素を調節し熱帯雨林形成を促進 https://t.co/lC1f7nJSmW 白亜紀初期は高酸素濃度→火災多く同時に被子植物は多様化→被子植物優占し火災適応で耐燃性獲得→酸素濃度が減少…
これほんまか…すごいな
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @bio_cb_jp: 興味深い論文 白亜紀 被子植物の興隆と耐燃性獲得が大気酸素を調節し熱帯雨林形成を促進 https://t.co/lC1f7nJSmW 白亜紀初期は高酸素濃度→火災多く同時に被子植物は多様化→被子植物優占し火災適応で耐燃性獲得→酸素濃度が減少…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @bio_cb_jp: 興味深い論文 白亜紀 被子植物の興隆と耐燃性獲得が大気酸素を調節し熱帯雨林形成を促進 https://t.co/lC1f7nJSmW 白亜紀初期は高酸素濃度→火災多く同時に被子植物は多様化→被子植物優占し火災適応で耐燃性獲得→酸素濃度が減少…
RT @bio_cb_jp: 興味深い論文 白亜紀 被子植物の興隆と耐燃性獲得が大気酸素を調節し熱帯雨林形成を促進 https://t.co/lC1f7nJSmW 白亜紀初期は高酸素濃度→火災多く同時に被子植物は多様化→被子植物優占し火災適応で耐燃性獲得→酸素濃度が減少…
RT @bio_cb_jp: 興味深い論文 白亜紀 被子植物の興隆と耐燃性獲得が大気酸素を調節し熱帯雨林形成を促進 https://t.co/lC1f7nJSmW 白亜紀初期は高酸素濃度→火災多く同時に被子植物は多様化→被子植物優占し火災適応で耐燃性獲得→酸素濃度が減少…
興味深い論文 白亜紀 被子植物の興隆と耐燃性獲得が大気酸素を調節し熱帯雨林形成を促進 https://t.co/lC1f7nJSmW 白亜紀初期は高酸素濃度→火災多く同時に被子植物は多様化→被子植物優占し火災適応で耐燃性獲得→酸素濃度が減少 火頻度も減少→新生代の酸素濃度低下で林冠閉鎖な熱帯雨林が発達 https://t.co/BbFe93CJAk
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
RT @toby_pennington: Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upo…
Fascinating paper (congratulations @ClaireMBelcher) that suggests Palaoecene establishment of rain forest depended upon prior angiosperm driven wildfires decreasing atmospheric O2 https://t.co/GMXnHLiIP8
RT @NatureComms: How did evolutionary changes in plant ecosystems during the Cretaceous period influence the consequent fire regimes and gl…
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
RT @NatureComms: How did evolutionary changes in plant ecosystems during the Cretaceous period influence the consequent fire regimes and gl…
RT @NatureComms: How did evolutionary changes in plant ecosystems during the Cretaceous period influence the consequent fire regimes and gl…
⬇️⬇️Check out this new publication: 'The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen' by GSI affiliates @ClaireMBelcher @rayannevitali , S.J Baker, T. Lenton & Andrew Watson and B. Mills(Leeds Uni)
How did evolutionary changes in plant ecosystems during the Cretaceous period influence the consequent fire regimes and global oxygen regulation over Earth history? https://t.co/U2GAnuFhJF
RT @NatureComms: Major evolutionary changes in plant ecosystems during the Cretaceous period could have influenced the consequent fire regi…
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
RT @NatureComms: Major evolutionary changes in plant ecosystems during the Cretaceous period could have influenced the consequent fire regi…
RT @NatureComms: Major evolutionary changes in plant ecosystems during the Cretaceous period could have influenced the consequent fire regi…
Major evolutionary changes in plant ecosystems during the Cretaceous period could have influenced the consequent fire regimes and thus affected global oxygen regulation over Earth history https://t.co/U2GAnuFhJF
The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen https://t.co/T3LcxP9RV9 via @employee_Bnfts #Productivity #Employee https://t.co/Hrwrt2tQww
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
More flammable biosphere => tighter regulation of atmospheric oxygen over geological time https://t.co/9ymCNfppTC
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
“Using the COPSE biogeochemical model, that angiosperm-driven alteration of fire feedbacks likely lowered atmospheric oxygen levels from ~30% to 25% by the end of the Cretaceous”
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
🔥
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
RT @ClaireMBelcher: Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric i…
Super pleased to see our work published on how the evolution of the angiosperms and fire better regulated atmospheric in oxygen in the Cretaceous! https://t.co/iREIQZauy7