Dispersal of sea lamprey larvae during early life: relevance for recruitment dynamics

Abstract

Dispersal is an important early life history process that influences fish population dynamics and recruitment. We studied larval sea lamprey (Petromyzon marinus) dispersal by combining spatially explicit field sampling, genetic methods, and laboratory experiments to investigate how far sea lamprey larvae can disperse away from nests during their first growing season; subsequent dispersal by age 1 of sea lamprey; and the effect of density on larval dispersal. In two study streams sea lamprey larvae were observed to have moved >150 m downstream from the most likely source nest within 2–3 weeks of hatching. Conversely, randomization trials suggested that for both streams age 0 larvae were found closer to full siblings than would be expected if dispersal was not constrained by distance. Restricted dispersal was also observed for age 1 larvae in five streams, although for this age class full siblings were more commonly found to be separated by >1,000 m. Laboratory experiments indicated a significant effect of density on the movement of larval sea lamprey, with more larval movement at higher densities. Temperature also affected movement significantly, with reduced larval movements at cooler temperatures. Our findings suggest that larval sea lamprey dispersal is sufficient to minimize the likelihood of strong density-dependent effects on recruitment, even with large population sizes.