Deep-time evidence of a link between elevated CO₂ concentrations and perturbations in the hydrological cycle via drop in plant transpiration

Earth & Environmental Sciences

• transpiration 100%
• hydrological cycle 93%
• perturbation 73%
• runoff 48%
• fossil 34%
• stomata 31%
• marine biodiversity 30%
• physiological response 28%
• biodiversity loss 27%
• mass extinction 26%
• gas exchange 26%
• radiative forcing 25%
• erosion rate 24%
• global change 22%
• turnover 21%
• Triassic 19%
• Jurassic 19%
• canopy 18%
• erosion 15%
• transition 14%
• ecosystem 13%
• climate change 13%
• effect 10%
• material 9%