Factors affecting recruitment of young Colorado pikeminnow: Synthesis of predation experiments, field studies, and individual-based modeling
Authored by K R Bestgen, D W Beyers, J A Rice, G B Haines
Date Published: 2006
DOI: 10.1577/t05-171.1
Sponsors:
United States Fish and Wildlife Service (USFWS or FWS)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
Predation experiments, field studies, and individual-based-model (IBM)
simulations revealed factors that affected the survival and recruitment
of early life stages of endangered Colorado pikeminnow Ptychocheilus
lucius in the Green River basin, Utah and Colorado. Small-bodied.
normative red shiners Cyprinella lutrensis attacked Colorado pikerninnow
larvae an average of once per minute, and predation success approached
30\% in laboratory aquaria. Attack rate was also high in mesocosm
experiments; turbidity and alternative prey reduced predation success.
Distributions of hatching dates derived from otolith daily increment
analysis showed that large cohorts of Colorado pikerninnow larvae that
hatched in the Green River in early summer had low survival to autumn
and that the few survivors were fast growing. Larvae hatched in
midsummer or later had higher survival. Autumn juveniles grew 12-73\%
faster than summer juveniles, which suggested differential mortality of
slow-growing fish. The IBM simulations integrated size-dependent
predator-prey relationships, Colorado pikeminnow life history
information, temperature-dependent pikeminnow growth, Green River
predator size-structure dynamics, seasonally variable Green River water
temperatures, and turbidity and alternative prey availability effects;
the simulations showed that red shiner predation interacting with
environmental variables may significantly reduce age-0 pikeminnow
recruitment in autumn. Recruitment and growth patterns from simulations
and field observations were consistent and suggested that the IBM is
useful in evaluating management scenarios. Experiments, field studies, and predictive modeling provided consistent evidence that interacting
effects of predation and environmental variables, including flow
fluctuations, may structure intra-annual growth and recruitment patterns
of age-0 Colorado pikeminnow. Flow management to benefit growth and
survival of young pikeminnow, particularly early hatching ones, and
reduced normative predator abundance in Green River backwaters may
enhance the Colorado pikerninnow populations.
Tags
Lake-michigan
Larval survival
San-juan river
Daily increment deposition
Green river
New-mexico
Temporal dimension
Alosa-sapidissima
Nonnative fish
American shad