Predicting climate change effects on Appalachian trout: Combining GIS and individual-based modeling

Authored by Kenneth A Rose, ME Clark, DA Levine, WW Hargrove

Date Published: 2001

DOI: 10.2307/3061064

Sponsors: United States Department of Energy (DOE) Electric Power Research Institute (EPRI)

Platforms: No platforms listed

Model Documentation: Other Narrative Mathematical description

Model Code URLs: Model code not found

Abstract

We coupled an individual-based model of brook trout (Salvelinus fontinalis) and rainbow trout (Oncorhynchus mykiss) with a geographic information system (GIS) database to predict climate change effects on southern Appalachian stream populations. The model tracked individuals of both species through the daily processes of spawning, growth, feeding, mortality, and movement for 30 years in a stream reach consisting of connected pools, runs, and riffles. The southern Appalachian Plateau was divided into 101 watershed elevation band zones. Model simulations were performed for a representative stream reach of each stream order in each zone. Trout abundance was estimated by multiplying predicted trout densities (measured in number of trout per meter) by the total length of streams of each order in each watershed elevation zone. Three climate change scenarios were analyzed: temperature only (1.5-2.5 degreesC warmer stream temperatures); temperature and how (warmer stream temperatures and lower baseline flows with threefold higher peak hows); and temperature, flow, and mortality episodes (warmer stream temperatures, changed hows, and flow-related scouring of redds). Increased temperature alone resulted in increased abundances of brook and rainbow trout. The temperature-and-how scenario resulted in a complex mosaic of positive and negative changes in abundances in zones, but little change in total abundance. Addition of episodic mortality in the form of floods that scour redds and kill eggs and fry caused a net loss of rainbow trout. Predicted changes in habitat (based on simulation results and temperature alone) were, at best, weakly correlated with predicted changes in abundance. The coupling of individual-based models to GIS databases, in order to scale up environmental effects on individuals to regional population responses, offers a promising approach for regional assessments.

Tags

Temperature Brown trout Rainbow-trout Salvelinus-fontinalis Mountains Colorado streams Potential habitat loss Native brook trout Salmo-trutta l Sympatric brook