Modelling the effect of spatial variation in postlarval supply and habitat structure on recruitment of Caribbean spiny lobster
Authored by MJ Butler, T Dolan, W Herrnkind, J Hunt
Date Published: 2001
DOI: 10.1071/mf01051
Sponsors:
United States National Oceanic and Atmospheric Administration (NOAA)
Florida Sea Grant
Platforms:
Fortran
Model Documentation:
Other Narrative
Model Code URLs:
Model code not found
Abstract
Many field studies have shown that recruitment of the Caribbean spiny
lobster, Panulirus argus, is sensitive to variation in both postlarval
supply and local nursery-habitat structure. We used a spatially explicit
individual-based model, to investigate the effects of (i)
spatio-temporal variation in postlarval supply and (ii) changes in the
spatial structure of the nursery habitat on lobster recruitment to the
Florida Keys, Florida (USA). By simulating eight different regional
scenarios describing postlarval supply, we investigated whether
differences in the spatio-temporal delivery of postlarvae to the Florida
Keys alters recruitment of subadult lobsters. Our results indicate that
random geographical variation in postlarval supply yields the highest
predicted recruitment, whereas persistently patchy settlement yields the
lowest. Field observations of postlarval supply suggest that the random
model is the most realistic. In separate simulations, we determined the
sensitivity of the model to changes in the geographic arrangement of
nursery habitat and the spatial resolution of habitat structure. The
most spatially explicit depictions of habitat structure yielded small, but marginally significant differences in lobster recruitment as
compared with more generalized spatial scenarios. These differences may
well be magnified when more detailed depictions of postlarval settlement
are implemented in the model.
Tags
Population-dynamics
Florida-keys
Transport
Bay
Homarus-americanus
Western rock
lobster
Panulirus-argus latreille
Northwestern hawaiian-islands
Phyllosoma larvae
Shelter size