Elucidating patterns of size-dependent predation on larval yellow perch (Perca flavescens) in Lake Michigan: an experimental and modeling approach
Authored by RS Fulford, JA Rice, TJ Miller, FP Binkowski
Date Published: 2006
DOI: 10.1139/f05-195
Sponsors:
United States National Oceanic and Atmospheric Administration (NOAA)
United States Department of Commerce (DOC)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Flow charts
Model Code URLs:
Model code not found
Abstract
Yellow perch (Perca flavescens) in Lake Michigan have experienced
sustained recruitment failure since 1990 as a result of increased
mortality during the pelagic larval phase. Increased mortality of larval
yellow perch has been tied indirectly to increased alewife (Alosa
pseudoharengus) predation, but effects of predation on larval survival
variability must be better understood. We compared the relative
importance of predation by alewife and two other fish predators to
larval survival in laboratory experiments and developed an
individual-based predation model (IBM) to examine patterns in
size-dependent predation vulnerability. Simulations exposing larval
perch to predation by all predators suggest that larval mortality
resulting from alewife predation is more size-dependent than mortality
resulting from the other two predators, and the range of sizes
vulnerable to alewife is smaller. Alewife predation may not be an
important mortality source for larval yellow perch in Lake Michigan at
present because of the narrow range of vulnerable sizes and low
densities of larval perch in the open lake. Predation is more likely to
be important in smaller, more productive systems where other predators
are abundant. Modeling results also indicate IBM analysis of date of
hatch distributions of surviving larvae is a valuable tool for
identifying factors most important to larval survival.
Tags
Individual-based model
Prey
Survival
Body-size
Alosa-pseudoharengus
Marine fishes
Early-life
Clupea-harengus
Recruitment mechanisms
Alewife