[en] Almost all catchments plot within a small envelope around the Budyko curve. This apparent behaviour suggests
that organizing principles may play a role in the evolution of catchments. In this paper we applied the thermodynamic
principle of maximum power as the organizing principle.
In a top-down approach we derived mathematical formulations of the relation between relative wetness and
gradients driving runoff and evaporation for a simple one-box model. We did this in an inverse manner such that
when the conductances are optimized with the maximum power principle, the steady state behaviour of the model
leads exactly to a point on the asymptotes of the Budyko curve. Subsequently, we added dynamics in forcing
and actual evaporations, causing the Budyko curve to deviate from the asymptotes. Despite the simplicity of the
model, catchment observations compare reasonably well with the Budyko curves subject to observed dynamics
in rainfall and actual evaporation. Thus by constraining the – with the maximum power principle optimized –
model with the asymptotes of the Budyko curve we were able to derive more realistic values of the aridity and
evaporation index without any parameter calibration.
Disciplines :
Earth sciences & physical geography
Author, co-author :
Westhoff, Martijn ; Université de Liège > Département ArGEnCo > Hydraulics in Environmental and Civil Engineering
Zehe, Erwin
Archambeau, Pierre ; Université de Liège > Département ArGEnCo > HECE (Hydraulics in Environnemental and Civil Engineering)
Dewals, Benjamin ; Université de Liège > Département ArGEnCo > Hydraulics in Environmental and Civil Engineering
Language :
English
Title :
Does the Budyko curve reflect a maximum power state of hydrological systems? A backward analysis