Importance of spawning location and timing to successful transport to nursery areas: a simulation study of Gulf of Alaska walleye pollock
Authored by S Hinckley, BA Megrey, AJ Hermann, KL Mier
Date Published: 2001
DOI: 10.1006/jmsc.2001.1096
Sponsors:
United States National Oceanic and Atmospheric Administration (NOAA)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
We conducted a model experiment to examine the hypothesis that the
spatial and temporal specificity of spawning of walleye pollock
(Theragra chalcogramma) in Shelikof Strait, Alaska, evolved to optimize
physical transport to the juvenile nursery area near the Shumagin
Islands some 375 km to the southwest. The alternative hypothesis is that
factors other than physical transport alone must also be important in
the choice of spawning location and timing. We used a coupled
biophysical model consisting of a three-dimensional hydrodynamic model
of the currents in the region, an individual-based model of the early
life stages of pollock. and a nutrient-phytoplankton zooplankton model
that provides a spatially and temporally dynamic source of food for
larval pollock, Results showed that fish spawned to the South of Kodiak
Island, or too early (February) or too late (July), did not reach the
Shumagin Island nursery area by early September. However, the potential
region and time of spawning that did allow successful transport to the
nursery area was much broader than the observed spawning region and
time. Therefore, factors other than physical transport alone must be
considered in explaining the specificity of the location and timing of
spawning for this stock.
Tags
Stock
Circulation
Shelf
Larval
Early-life-history
Theragra-chalcogramma
Western gulf
Shelikof-strait
Eddy-resolving model
Of-alaska