Metabolite concentrations in flight muscles and in abdomen of beetles (Pachnoda sinuata) were measured after various periods of tethered flight and subsequent rest. Three distinct phases of energy metabolism are found in active flight muscles: (1) during the first minutes of flight proline is used as main substrate and concomitantly alanine accumulated as an end product; (2) the second phase is characterized by a large-scale degradation of glycogen; (3) after about 8 min of flight the metabolite levels stabilize, while flight performance appears unchanged. After the termination of flight the preflight proline concentration (70 μmol·g-1 fw) is re-established in less than 60 min, whereas restoration of resting levels of other metabolites requires longer. The pattern of maximal enzyme activities and the respiratory rates of mitochondria with different substrates confirm the significance of proline and carbohydrates as the main fuels of working flight muscles.