Abstract
Relationships between linear dimensions of casts produced at the final moult in the laboratory and definitive sex confirm that Calanus finmarchicus (Gunn.) is sexually dimorphic in Copepodite Stage V. Two forms of Stage V copepodite were present at all times of the year in the Firth of Clyde, Scotland. Except in early spring, when size was similar, these were consistently distinguished by the prosome length. The “small” form moulted to adult females and the “large” form to adults of either sex. Relative to the metasome, the length of the cephalosome was greater in the large than small form of Stage V copepodite. This, to an increased extent, distinguished males from all females in the adult. Differences between females of the large and those of the small form were similar in the Stage V copepodite and adult. Feminization in the large form entailed an arrest in the differentiation of secondary male sex-characters. Most morphological females moulting from both forms of Stage V copepodite possessed an apparently normal ovary, with eggs extending into oviducal diverticula. In the case of the large form, however, eggs were occasionally absent from diverticula. The gonad in two specimens resembled an immature testis. In males, a normal testis was always present. Differentiation into the adult male entailed the internal suppression of feminizing factors. On average, within collections, females of the large form moulted later than the small form and definitive males. A similarly consistent difference between females of the small form and males was absent. Moulting times in the large form of Stage V copepodite depended on the presence or not of feminization. Differentiation into the adult male required the environmental stimulation of development. Comparisons with moulting patterns in the sea suggest a mechanism that regulates the recruitment of males to the adult.
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Grigg, H., Holmes, L.J. & Bardwell, S.J. Seasonal observations on the biometry and development in Copepodite Stage V of Calanus finmarchicus from the Firth of Clyde. Mar. Biol. 88, 73–83 (1985). https://doi.org/10.1007/BF00393046
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DOI: https://doi.org/10.1007/BF00393046