Under constant laboratory conditions, juvenile shore crabs moult at fixed intervals which depend upon their body size. During one moult every crab exhibits increases of the same relative amounts, independent of its absolute size. Basing on the predictable duration of the intermoult period, the morphological changes in the structure of the cuticle and the development of limb-buds, the intermoult period could be divided into 21 different stages. After studying the moulting rhythm in constant milieu, the influence of the following exogenous and endogenous factors upon the moulting rhythm and growth of normal and of eye-stalkless individuals was investigated: temperature, photoperiod, loss of pereiopods, feeding, and presence of larger specimens. From these investigations it became evident that the moulting rhythm is regulated by growth. The crabs are able to moult only after achieving a minimum of tissue growth. So long as this minimum growth is not achieved, a moult-inhibiting hormone is secreted and moulting is prevented. If the moult-inhibiting hormone is absent, moulting hormone is secreted and initiates a moult. Under dangerous conditions, the crabs are able to delay the next moult. Under unfavourable conditions they consume less food than normal. Therefore, the amount of tissue growth which is the necessary prerequisite for moulting is delayed, and continued release of moult-inhibiting hormone prevents the moult. Under conditions favourable for moulting, or demanding moult (e. g. after loss of many pereiopods) the crabs accelerate the moult. Temperature influences the moulting rhythm by indirect effects on the metabolic rate. During further investigations, the variation of the following parameters were determined quantitatively: content of moulting hormone in whole crabs; content of aminoacids, protein, glucose, Na+, K+, Mg++ and Ca++ in the hemolymph; pH and osmotic pressure in the hemolymph; and Ca++ content in skeleton and whole crabs. All parameters mentioned — excepting pH and K+ content of the hemolymph — vary characteristically during the intermoult period. The titre of moulting hormone has 4 different maxima. Of all parameters, only the content of animoacids and protein in the hemolymph vary in the same way as the titre of the hormone. From these results the following conclusions are drawn: The moulting hormone not only initiates the moulting process, but controls it at several stages. Only protein metabolism seems to be under direct control of the moulting hormone which stimulates protein-synthesis. Chitin formation, regeneration, apolysis and ecdysis are indirectly controlled by the moulting hormone through protein metabolism. As in most of the other processes mentioned, the calcification of the new cuticle is not under the direct influence of the moulting hormone. The conclusion ofDigby (1966) that calcification in crabs is an electrochemical process, is confirmed.