Recruitment and recruitment processes of winter flounder, Pleuronectes americanus, at different latitudes: Implications of an individual-based simulation model
Authored by Kenneth A Rose, JA Tyler, RC Chambers
Date Published: 1995
DOI: 10.1016/0077-7579(95)90012-8
Sponsors:
National Science and Engineering Research Council of Canada (NSERC)
European Regional Development Fund (ERDF)
Electric Power Research Institute (EPRI)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
We evaluate the joint effects of temperature, hours of daylight, prey
production, spawning regimes, and mortality rates on recruitment of
winter flounder, Pleuronectes americanus, by means of an
individual-based simulation model, These factors were varied to
approximate conditions at three latitudinally distinct sites in winter
flounder's geographic range from New Jersey, USA (southernmost site) to
New Brunswick, Canada (northernmost site). Most life historical and
demographic response variables from simulation output differed
substantially among sites. At year's end, the recruits were larger but
fewer at lower latitudes than at higher ones. We further assessed the
effects of season duration, prey production, and mortality rate on
recruitment by means of a 3(3)-factorial numerical experiment. This
analysis provided estimates of the proportion of variance in the
response variables (the number and sizes of recruits, larval and
juvenile growth rates, larval period duration) due to each of the three
manipulated factors and their interactions. Season duration explained
most of the variation in the responses except for the sizes of recruits
at year's end which was influenced most by the timing of prey
production. Interaction effects of season duration and prey production
were evident in all responses, reflecting the importance to flounder
recruitment of the phenology of prey production relative to flounder
early life history. Even though mortality rates were assigned as part of
the factorial design structure, they accounted for only 10\% of the
variance in the number of recruits. These simulation results are in need
of empirical verification and we suggest ways to proceed. We also
propose means of enhancing data on winter flounder life history and
ecology, and methods for expanding our model and analysis. We conclude
that our approach proved useful for 1. appraising multiple, interacting
recruitment processes, 2. locating areas where incomplete knowledge of
winter flounder life history and the habitat it occupies limits a more
satisfactory assessment of recruitment processes, and 3. identifying
recruitment hypotheses that warrant further empirical evaluation.
Tags
Population-dynamics
Size
Geographic-variation
Life-history
Wadden sea
Larval fish
Atlantic
Pseudopleuronectes-americanus
Narragansett bay area
Juvenile summer