Modeling turbidity type and intensity effects on the growth and starvation mortality of age-0 yellow perch

Authored by Nathan F Manning, Jonathan M Bossenbroek, Christine M Mayer, David B Bunnell, Jeff T Tyson, Lars G Rudstam, James R Jackson

Date Published: 2014

DOI: 10.1139/cjfas-2013-0528

Sponsors: United States Geological Survey (USGS) United States National Science Foundation (NSF) Great Lakes Fishery Commission

Platforms: No platforms listed

Model Documentation: Other Narrative Flow charts Mathematical description

Model Code URLs: Model code not found

Abstract

We sought to quantify the possible population-level influence of sediment plumes and algal blooms on yellow perch (Perca flavescens), a visual predator found in systems with dynamic water clarity. We used an individual-based model (IBM), which allowed us to include variance in water clarity and the distribution of individual sizes. Our IBM was built with laboratory data showing that larval yellow perch feeding rates increased slightly as sediment turbidity level increased, but that both larval and juvenile yellow perch feeding rates decreased as phytoplankton level increased. Our IBM explained a majority of the variance in yellow perch length in data from the western and central basins of Lake Erie and Oneida Lake, with R-2 values ranging from 0.611 to 0.742. Starvation mortality was size dependent, as the greatest daily mortality rates in each simulation occurred within days of each other. Our model showed that turbidity-dependent consumption rates and temperature are key components in determining growth and starvation mortality of age-0 yellow perch, linking fish production to land-based processes that influence water clarity. These results suggest the timing and persistence of sediment plumes and algal blooms can drastically alter the growth potential and starvation mortality of a yellow perch cohort.

Tags

Individual-based model Land-use harmful algal blooms Laurentian great-lakes Western lake-erie Size-dependent predation Mussels dreissena-polymorpha Ontogenic niche shifts Oneida lake Largemouth bass