The role of sink to source re‐colonisation in the population dynamics of insects living in unstable habitats: an example of terrestrial chironomids

Certain species of terrestrial chironomids (Diptera) are specialised on open patches in initial stages of primary or secondary succession (early fallow, lichens and mosses on rocks, etc.). These “source” habitats provide good quality food for their larvae and most offspring are produced here, but they are sensitive to summer desiccation. This often results in extinction of the summer larval population, followed in winter by re‐colonisation from less suitable, but more stable “sink” habitats in the surrounding landscape. 
Soil dwelling and long‐lived larvae are poor migrants; short‐lived, winged adult females select patches for their development. Proper choice of oviposition sites and consequent distribution of eggs among individual habitats is thus critical for the success of these species. 
A mathematical model was developed in order to find out whether this re‐colonisation strategy could ensure population persistence at the landscape level. The model was verified using long‐term data on Smittia atterima abundance in old fields. The results indicate that even a small proportion of eggs laid in a sink habitat can ensure a successful re‐colonisation of the source habitat. Thus, re‐colonisation of source habitats from sink habitats is concluded to be one of the reasons for persistence of the latter. The model indicates that this re‐colonisation may ensure population persistence even in conditions when exclusive use of only one habitat leads to population extinction either due to environmental stress or to a negative growth rate.