Most birds cannot cover the distance between their breeding and winter quarters in one hop. They have to make multiple flights alternated with stopovers. Which factors govern the birds decisions to stop, to stop for how long, when to resume flight? What is better to accumulate much fuel and to make long flights for many hundreds of kilometres, or to travel in small steps? Is it necessary to find habitats similar to the breeding ones or other habitats would do? Are long migratory flights indeed so costly energetically as usually assumed? This monograph summarizes our current knowledge on the ecology of songbird migrants during migratory stopovers and on their behaviour.Foreword.- Introduction.-? 1. Stopover duration, 1.1.? Methods of estimating stopover duration, 1.2. Estimates based on re-encounters of marked birds, 1.3. Estimates based on radio-tagging, 1.4. Within-species variance in stopover duration: transients and non-transients, 1.5. Concluding remarks.-? 2. Fuel deposition rate and energy efficiency of stopovers, 2.1. Energy stores of migrants, 2.2. Methods of estimating fuel deposition rate, 2 .3. Empirical FDR values, 2.4. Factors that influence FDR, 2.5. Low initial FDR: an artefact or real phenomenon?.-? 3. Optimal migration theory, 3.1. General remarks, 3.2. Time minimisation, 3.3. Minimisation of energy cost of migration, 3.4. Predation risk minimisation, 3.5. Basic equations, 3.6. Concluding remarks.-? 4. Habitat selection and use by migrants, 4.1. Introductory remarks, 4.2. Scales of habitat selection at stopover, 4.3. Role of individual experience, 4.4. Termination of migratory flights, 4.5. Search for home range and settling,?4.6. Habitat exploitation,4.7. Fuel deposition in oases, 4.8. Fuel deposition on islands.-? 5. Spatial behaviour at stopovers, 5.1. Introductory remarks, 5.2.?Range?and direction of daytime movements of nocturnal migrants, 5.3. Restricted home ranges vs. broad movements:visual observations and recapture analysis,?5.4. Slă+