Popis: |
Low-frequency variability (LFV) encompasses atmospheric and climate processes on time scales from a few weeks to decades. This includes atmospheric blockings, heat waves, cold spells, and at longer time scales long-term oscillations like the MJO, the NAO, ENSO….. Better understanding of LFV, could contribute to improved long term forecasts. Identifying and evaluating LFVs in GCMs is computationally expensive, so in this study an idealised low order coupled model is used. They are climate models ‘stripped to the bone’, which links theoretical understanding to the complexity of more realistic models, made by key ingredients and approximations; which hence helps us to study a particular phenomenon by tweaking the parameters affecting them with less computational cost. The Quasi Geostrophic land atmosphere coupled model is a python implementation of mid-latitude atmospheric model with two layer quasi geostrophic channel atmosphere on beta -plane coupled to a simple land portion. The system exhibits blocking conditions at different time scales depending on the incoming solar radiation and also experiences transitions from blocking to zonal flow after applying different sets of parameters to the model. The predictability and persistence of these regimes is investigated by calculating the local lyapunov exponents at the specified transition points and around them. The findings are discussed in the perspective of the current literature on the predictability of blocking. |