Fitness-dependent dispersal in metapopulations and its consequences for persistence and synchrony

1. We present a novel metapopulation model where dispersal is fitness depen dent: the strength of migration from a site is dependent on the expected re productive fitness of individuals there. Furthermore, individuals continue to migrate until they reach a suitable habitat where their expected fitness is above a threshold value. 2. Fitness-dependent dispersal has a very strong stabilizing effect on popu lation dynamics, even when the intrinsic dynamics of populations in the abs ence of dispersal exhibit complex high-amplitude oscillations. This stabili zing effect is much stronger than that of the density-independent dispersal normally considered in metapopulation models. 3. Even when fitness-dependent dispersal does not stabilize the dynamics in a formal sense, it generally leads to simplification, with complex or even chaotic fluctuations being reduced to simple cycles. 4. This form of dispersal also has a strong tendency to synchronize local p opulation dynamics across the spatial extent of the metapopulation. 5. These conclusions are robust to the addition of strong stochasticity in the migration threshold.