Early-warning signals for catastrophic soil degradation
Publication date
2010
Authors
Karssenberg, D.J.
Editors
Advisors
Supervisors
DOI
Document Type
Article in proceedings
Metadata
Show full item recordCollections
License
(c) UU Universiteit Utrecht, 2010
Abstract
Many earth systems have critical thresholds at which the system shifts abruptly from one state to another. Such
critical transitions have been described, among others, for climate, vegetation, animal populations, and geomorphology.
Predicting the timing of critical transitions before they are reached is of importance because of the large
impact on nature and society associated with the transition. However, it is notably difficult to predict the timing of
a transition. This is because the state variables of the system show little change before the threshold is reached. As
a result, the precision of field observations is often too low to provide predictions of the timing of a transition. A
possible solution is the use of spatio-temporal patterns in state variables as leading indicators of a transition. It is
becoming clear that the critically slowing down of a system causes spatio-temporal autocorrelation and variance
to increase before the transition. Thus, spatio-temporal patterns are important candidates for early-warning signals.
In this research we will show that these early-warning signals also exist in geomorphological systems. We
consider a modelled vegetation-soil system under a gradually increasing grazing pressure causing an abrupt shift
towards extensive soil degradation. It is shown that changes in spatio-temporal patterns occur well ahead of this
catastrophic transition.