Wayne Hunte

Distribution and relative abundance of flying fish (Exocoetidae) in the eastern Caribbean. II. Spawning substrata, eggs and larvae

We investigated the distribution and relative abundance of flyingfish spawning substrata (flotsam), eggs and larvae by neuston tows at 40 stations across a 67 500 square nautical mile (mm2) area of the eastern Caribbean from April 10 to May 6, 1988. Flotsam occurred m only 48% of the tows and in quantities < 1 g nmil tow. Non-buoyant flyingfish eggs characteristic of Huundichthys affmis, Parexocoetus brachypterus and Cypselurus cyanopterus were virtually absent. Although 21 % of the 3014 fish eggs collected were flyingfish eggs, all but 3 of these were pelagic eggs characteristic of Exo- coetus spp. The rarity of eggs and flotsam suggests that flyingfish may typically spawn on floating material until it submerges, and/or spawn on submerged substrata. Catch rates of all fish larvae and of flyingfish larvae were significantly higher in day tows than night tows, and mean larval size was larger by night. This indicates that larvae, and particularly smaller larvae, may move downwards at night. This may be a light response, since P. brachypterus larvae were more abundant at the surface around full moon than new moon. Larval abundance varied significantly across the survey area for all flying- fish, and separately for E. voLitans, P. brachypterus and C. cyanopterus. Small larvae of E. volitans were more abundant at oceanic than coastal stations. The reverse was true for P. brachypterus, indicating different spawning locations for these species. The geographical distribution of larvae of C. cyano- pterus coincided with the adult distribution, both larvae and adults being rare in the southwest sector of the survey area near the South American mainland. Larvae of H. affims were relatively rare. This rarity, and the virtual absence of eggs, is surprising given the abundance of this species in the eastern Caribbean and the fact that H. affms was known to be spawning during the time of the survey. The depth at which H. affms typically spawns and hatches requires further investigation.

Laboratory rearing of the atyid shrimps Atya innocous Herbst and Micratya poeyi Guerin-Meneville (Decapoda, Atyidae)

Abstract The atyid shrimps Atya innocous and Micratya poeyi were reared in the laboratory for the first time. Maximum survival from hatching to metamorphosis was 17% for Micratya poeyi and 11% for Atya innocous at salinities of 32 and 30‰, respectively, when the species were fed appropriate-sized particles of “Tetramin” and wheat germ. Maximum survival of A. innocous occurred at a temperature of 27°C.

Seasonal abundance and reproduction of the fourwing flyingfish, Hirundichthys affinis , off Barbados

The seasonal abundance and reproductive cycle of the flyingfish Hirundichthys affinis was studied near Barbados. H. affinis shows large seasonal variation in abundance. They are common between December and June and scarce from July to November. The population size structure of H. affinis was determined by fishing with four different mesh sizes throughout one year. There appear to be two cohorts of H. affinis present in May and June, one of immature fish with a mean size of 19.8 cm FL, and one of mature fish with a mean size of 21.7 cm FL. From September to April there is only a single cohort of maturing fish with a mean size that increases from 20.4 cm FL in September to 22.0 cm FL in April. H. affinis spawns throughout the fishing-season (December–June) and shows a peak in spawning activity from March to June. Immature fish are present in Barbados waters from July to November but in very low abundance. Surface water temperature, wind speed and swell height are the only environmental factors with which catch rate of H. affinis showed significant correlation. Catch rate appears to be negatively correlated with temperature, whereas for wind speed and swell height there are optima. Three hypotheses for the seasonal variation in abundance of H. affinis were examined. The hypothesis that this species remains dispersed near Barbados during the off-season was rejected. The other hypotheses were refined. Both post-spawning mortality, resulting in an interval of low abundance between cohorts (non-overlapping generations), and migration of fish away from Barbados at the end of the fishing season, remain possible explanations for the observed seasonal variation in abundance of this species.