Evaluating the effect of salinity on a simulated American crocodile (Crocodylus acutus) population with applications to conservation and Everglades restoration
Authored by Donald L DeAngelis, WM Mooij, PM Richards
Date Published: 2004
DOI: 10.1016/j.ecolmodel.2004.04.038
Sponsors:
United States Geological Survey (USGS)
United States National Park Service
Cooperative Agreement
Platforms:
C++
Model Documentation:
Other Narrative
Flow charts
Mathematical description
Model Code URLs:
Model code not found
Abstract
Everglades restoration will alter the hydrology of South Florida, affecting both water depth and salinity levels in the southern fringes
of the Everglades, the habitat of the endangered American crocodile
(Crocodylus acutus). A key question is what the effects of these
hydrologic changes will be on the crocodile population. Reliable
predictions of the viability of endangered species under a variety of
management scenarios are of vital importance in conservation ecology.
Juvenile American crocodiles are thought to be sensitive to high
salinity levels, suffering reduced mass, and potentially reduced
survivorship and recruitment. This could negatively impact the
population recovery. We addressed the management issue of how the
crocodile population will respond to alterations in hydrology with a
spatially explicit individual-based model. The model is designed to
relate water levels, salinities, and dominant vegetation to crocodile
distribution, abundance, population growth, individual growth, survival, nesting effort, and nesting success. Our analysis shows that Everglades
restoration, through its effects on water flow to estuaries, may benefit
crocodile populations if increased freshwater flow reduces the chance
that regional salinity levels exceed levels where small individuals lose
mass. In addition, we conclude that conservation priority should be
placed on reducing anthropogenic sources of mortality on large
individuals, such as road mortality. Finally, research should focus on
estimates of annual survivorship for large individuals. (C) 2004
Elsevier B.V. All rights reserved.
Tags
behavior
models
Dynamics
movements
Sensitivity Analysis
Dispersal
Uncertainty analysis
Landscapes
Florida bay
Error analysis