Publication Details

Reference Category Journals
DOI / URL link
Title (Primary) Improved representations of coupled soil–canopy processes in the CABLE land surface model (Subversion revision 3432)
Author Haverd, V.; Cuntz, M.; Nieradzik, L.P.; Harman, I.N.;
Journal Geoscientific Model Development
Year 2016
Department CHS;
Volume 9
Language englisch;
POF III (all) T53;
UFZ wide themes RU5;
Abstract CABLE is a global land surface model, which has been used extensively in offline and coupled simulations. While CABLE performs well in comparison with other land surface models, results are impacted by decoupling of transpiration and photosynthesis fluxes under drying soil conditions, often leading to implausibly high water use efficiencies. Here, we present a solution to this problem, ensuring that modelled transpiration is always consistent with modelled photosynthesis, while introducing a parsimonious single-parameter drought response function which is coupled to root water uptake. We further improve CABLE's simulation of coupled soil–canopy processes by introducing an alternative hydrology model with a physically accurate representation of coupled energy and water fluxes at the soil–air interface, including a more realistic formulation of transfer under atmospherically stable conditions within the canopy and in the presence of leaf litter. The effects of these model developments are assessed using data from 18 stations from the global eddy covariance FLUXNET database, selected to span a large climatic range. Marked improvements are demonstrated, with root mean squared errors for monthly latent heat fluxes and water use efficiencies being reduced by 40 %. Results highlight the important roles of deep soil moisture in mediating drought response and litter in dampening soil evaporation.
ID 17840
Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=17840
Haverd, V., Cuntz, M., Nieradzik, L.P., Harman, I.N. (2016):
Improved representations of coupled soil–canopy processes in the CABLE land surface model (Subversion revision 3432)
Geosci. Model Dev. 9 , 3111 - 3122