The relationship between egg size and embryonic and larval development in the freshwater shrimp Paratya australiensis Kemp (Decapoda: Atyidae)

Abstract

1. Paratya australiensis egg and clutch sizes vary between lower and upper altitude sites within headwater streams of the Conondale Range, Queensland, Australia. The adaptive significance of this variation is examined by comparing the development of large eggs from upper sites with small eggs from lower sites at ambient temperatures in the laboratory.2. Embryonic duration was not dependent on egg size, but was a function of temperature (28 days at 18 °C, but only 22 days at 21 °C). However, larvae developing from large eggs were significantly larger at all stages of development, larval duration was shorter and growth rate was faster than that of larvae from small eggs.3. It is suggested that the larger, more rapidly developing larvae at upper altitude sites have a greater chance of maintaining position within headwater sections of the stream. This is important as physical barriers such as waterfalls may severely restrict upstream movement. At lower altitude sites, maintaining position may not be as critical as there are no major barriers to upstream movement following downstream displacement. The influence of temperature may also be important as larger eggs may be an adaptation to compensate for slower development of eggs and larvae at cooler, upper altitude sites. The advantage in completing larval development quickly is that larvae would have less risk of removal by spates occurring late in the breeding season.