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.
Radiation
We do not cover radiation in this school. We will just use it. For people interested, however, they can give a look to the material of 2019 School here.
The 2020 material
- Momentum and water vapor transport in atmosphere (YouTube2020)
- Evaporation as energy flow (YouTube2020)
- Derivation of the simplified energy budget (a là Penman-Monteith after Schymanski and Or) (YouTube2020)
- Simplified relatives of PMSO (YouTube2020)
- Leaf Temperature feedbacks
- Transpiration (YouTube2020)
- Evaporation from soil (YouTube2020)
- From leaves to canopies (YouTube2019 Video, YouTube2020)
The 2019 material
- Momentum and water vapor transport in atmosphere (YouTube2019)
- Penman-Monteith according to Shymanski and Or (PMSO- YouTube2019)
- PMSO with surfaces temperatures feedbacks (YouTube 2019)
- Evaporation from soil and Traspiration mechanisms (YouTube2019)
- From leaves to canopies (YouTube2019 Video)
- Documentation of GEOframe-NewAge component 2019
- 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., Assouline, S., & Or, D. (2008). Characteristic lengths affecting evaporative drying of porous media. Physical Review E, 77(5), 354–16. http://doi.org/10.1103/PhysRevE.77.056309
- 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
- Shokri, N., & Or, D. (2011). What determines drying rates at the onset of diffusion controlled stage-2 evaporation from porous media? Water Resources Research, 47(9), 584–8. http://doi.org/10.1029/2010WR010284
- 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:
And the mini-series:
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