Evaluating mark-recapture sampling designs for fish in an open riverine system
Authored by Daniel C Gwinn, Paul Brown, Jakob C Tetzlaff, Mike S Allen
Date Published: 2011
DOI: 10.1071/mf10217
Sponsors:
No sponsors listed
Platforms:
R
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
Sampling designs for effective monitoring programs are often specific to
individual systems and management needs. Failure to carefully evaluate
sampling designs of monitoring programs can lead to data that are
ineffective for informing management objectives. We demonstrated the use
of an individual-based model to evaluate closed-population
mark-recapture sampling designs for monitoring fish abundance in open
systems, using Murray cod (Maccullochella peelii (Mitchell, 1838)) in
the Murray-Darling River basin, Australia, as an example. The model used
home-range, capture-probability and abundance estimates to evaluate the
influence of the size of the sampling area and the number of sampling
events on bias and precision of mark-recapture abundance estimates.
Simulation results indicated a trade-off between the number of sampling
events and the size of the sampling reach such that investigators could
employ large sampling areas with relatively few sampling events, or
smaller sampling areas with more sampling events to produce acceptably
accurate and precise abundance estimates. The current paper presents a
framework for evaluating parameter bias resulting from migration when
applying closed-population mark-recapture models to open populations and
demonstrates the use of simulation approaches for informing efficient
and effective monitoring-program design.
Tags
movements
population
Abundance
Maccullochella-peelii-peelii
Lowland river