Evapotranspiration accounts for most of fifty percent of the terrestrial hydrological cycle. We illustrate here some ways to estimate it with the tools offered by the GEOframe system.
- Momentum and water vapor transport in atmosphere (YouTube video)
- Penman-Monteith according to Shymanski and Or (PMSO- YouTube video)
- PMSO with surfaces temperatures feedbacks (YouTube Video)
- Evaporation from soil and Traspiration mechanisms (YouTube Video)
- From leaves to canopies (YouTube Video)
- Documentation of GEOframe-NewAge component
- Jupyter notebook with exercises
Out of schedule (for Chhay)
Exercises
- You can follow this Jupyter notebook
References
Primarily for historic papers browse to the list by Dennis Baldocchi
- Haghighi, E., Shahraeeni, E., Lehmann, P., & Or, D. (2013). Evaporation rates across a convective air boundary layer are dominated by diffusion. Water Resources Research, 49(3), 1602–1610. http://doi.org/10.1002/wrcr.20166
- Lehmann, P., & Or, D. (2013). Effect of wetness patchiness on evaporation dynamics from drying porous surfaces. Water Resources Research. http://doi.org/10.1002/2013WR013737
- Or, D., Lehmann, P., & Shahraeeni, E. (2013). Advances in soil evaporation Physics - A review. Vadose Zone Journal.
- Schymanski, S. J., & Or, D. (2017). Leaf-scale experiments reveal an important omission in the Penman–Monteith equation. Hydrology and Earth System Sciences, 21(2), 685–706. http://doi.org/10.5194/hess-21-685-2017
- Schymanski, S. J., Or, D., & Zwieniecki, M. (2013). Stomatal Control and Leaf Thermal and Hydraulic Capacitances under Rapid Environmental Fluctuations. PLoS ONE, 8(1), e54231–16. http://doi.org/10.1371/journal.pone.0054231 Stroock, A. D., Pagay, V. V., Zwieniecki, M. A., & Michele Holbrook, N. (2014). The Physicochemical Hydrodynamics of Vascular Plants. Annual Rev. Fluid Mech., 46(1), 615–642. http://doi.org/10.1146/annurev-fluid-010313-141411
See also the discussions here:
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