Publication Date:
2016-03-17
Description:
The skill of degree-day glacier melt models is highly dependent on the choice of degree-day factor (DDF), which is often assumed to remain constant in time. Here we explore the validity of this assumption in a changing climate for two locations on Vestari Hagafellsjokull (1979-2012) using a surface energy-balance (SEB) approach that isolates the effect of changes in the prevailing weather on the DDF. At lower elevation, we observe stable DDF during the period of study; however, at higher elevation, DDF is noted to be more variable and a statistically-significant downward trend is observed. This is found to result from an inappropriate threshold air temperature (T-crit) from which to initiate the positive-degree-day sum, and is removed by setting T-crit to -1.83 degrees C, rather than the usual value of 0 degrees C used in degree-day melt models. The stationarity of DDF once T-crit is adjusted contradicts previous research and lends support to the use of constant DDF for projecting future glacier melt. Optimizing T-crit also improves the skill of melt simulations at our study sites. This research thus highlights the importance of T-crit for both melt model performance and the evaluation of DDF stationarity in a changing climate.
Print ISSN:
0022-1430
Electronic ISSN:
1727-5652
Topics:
Geography
,
Geosciences