Individual variability and environmental conditions: effects on zooplankton cohort dynamics
Authored by Kenneth A Rose, Courtney E Richmond, Denise L Breitburg
Date Published: 2013
DOI: 10.3354/meps10418
Sponsors:
United States National Oceanic and Atmospheric Administration (NOAA)
National Research Council of Canada (NRC)
Center for Sponsored Coastal Ocean Research (CSCOR)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
We use an individual-based cohort model of the planktonic calanoid
copepod Acartia tonsa to examine how variability among individuals in
bioenergetic traits affects cohort dynamics. The model follows a cohort
of individual zooplankton through the hourly processes of feeding and
energy distribution among growth, development, and reproduction, under
high and low rates of size-dependent mortality. The degree of
variability in traits among individuals was quantified by the
coefficient of variation (CV). In our first simulation experiment (Expt
1), population growth rate (lambda) increased with increasing
variability among individuals (increasing CV) when overall mortality was
high; egg production increased with CV under high and low mortality
rates, and survival was unaffected by the degree of trait variability.
Expt 2 tested the effect of genetic makeup on cohort dynamics; when
mortality rate was high, increasing CV resulted in individuals with
correlated traits having higher egg production and lambda than
individuals with randomly assigned traits. Expt 3 tested how
environmental conditions altered the effect of CV on survival, egg
production, and lambda. Population growth rate increased with increasing
CV under high mortality rate and suboptimal conditions. Our analyses
demonstrate how small differences in the values of individual-level
traits can influence growth and reproduction which can in turn translate
into ecologically important effects on cohort dynamics. The effect of
increased variability among individuals on cohort dynamics was
particularly important when environmental conditions were poor, when the
mortality rate was high, and under certain types of size-dependent
mortality. These results may have important implications for
understanding the dynamics of populations experiencing stress.
Tags
Population-dynamics
Body-size
Egg-production
Seed bank
Copepod acartia-tonsa
Ctenophore mnemiopsis-leidyi
Narragansett bay
Chesapeake-bay
Rhode-island
Chrysaora-quinquecirrha