Foraging and predation risk for larval cisco (Coregonus artedi) in Lake Superior: A modelling synthesis of empirical survey data
Authored by Jared T Myers, Daniel L Yule, Michael L Jones, Henry R Quinlan, Eric K Berglund
Date Published: 2014
DOI: 10.1016/j.ecolmodel.2014.09.009
Sponsors:
United States Fish and Wildlife Service
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Model Code URLs:
Model code not found
Abstract
The relative importance of predation and food availability as
contributors to larval cisco (Coregonus artedi) mortality in Lake
Superior were investigated using a visual foraging model to evaluate
potential predation pressure by rainbow smelt (Osmerus mordax) and a
bioenergetic model to evaluate potential starvation risk. The models
were informed by observations of rainbow smelt, larval cisco, and
zooplankton abundance at three Lake Superior locations during the period
of spring larval cisco emergence and surface-oriented foraging.
Predation risk was highest at Black Bay, ON, where average rainbow smelt
densities in the uppermost 10 m of the water column were >1000 ha(-1).
Turbid conditions at the Twin Ports, WI-MN, affected larval cisco
predation risk because rainbow smelt remained suspended in the upper
water column during daylight, placing them alongside larval cisco during
both day and night hours. Predation risk was low at Cornucopia, WI, owing to low smelt densities (<400 ha(-1)) and deep light penetration, which kept rainbow smelt near the lakebed and far from larvae during
daylight. In situ zooplankton density estimates were low compared to the
values used to develop the larval coregonid bioenergetics model, leading
to predictions of negative growth rates for 10 mm larvae at all three
locations. The model predicted that 15 mm larvae were capable of
attaining positive growth at Cornucopia and the Twin Ports where low
water temperatures (2-6 degrees C) decreased their metabolic costs.
Larval prey resources were highest at Black Bay but warmer water
temperatures there offset the benefit of increased prey availability. A
sensitivity analysis performed on the rainbow smelt visual foraging
model showed that it was relatively insensitive, while the coregonid
bioenergetics model showed that the absolute growth rate predictions
were highly sensitive to input parameters (i.e., 20\% parameter
perturbation led to order of magnitude differences in model estimates).
Our modelling indicated that rainbow smelt predation may limit larval
cisco survival at Black Bay and to a lesser extent at Twin Ports, and
that starvation may be a major source of mortality at all three
locations. The framework we describe has the potential to further our
understanding of the relative importance of starvation and predation on
larval fish survivorship, provided information on prey resources
available to larvae are measured at sufficiently fine spatial scales and
the models provide a realistic depiction of the dynamic processes that
the larvae experience. (C) 2014 Published by Elsevier B.V.
Tags
Individual-based model
Laurentian great-lakes
Small-scale turbulence
Smelt osmerus-mordax
Rainbow smelt
Bioenergetic model
Fish larvae
Recruitment dynamics
Planktivorous fish
Ontogenic aspects