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Journal Publications
LEROUX S.J., F. K. A. SCHMIEGELOW, S.G. CUMMING, R. B.
LESSARD, AND J. NAGY. 2007. ACCOUNTING FOR SYSTEM DYNAMICS IN RESERVE
DESIGN. Ecological Applications, pp. 1954–1966
Abstract.
Systematic conservation plans have only recently considered
the dynamic nature of ecosystems. Methods have been developed to incorporate
climate change, population dynamics, and uncertainty in reserve design, but
few studies have examined how to account for natural disturbance.
Considering natural disturbance in reserve design may be especially
important for the world’s remaining intact areas, which still experience
active natural disturbance regimes. We developed a spatially explicit,
dynamic simulation model, CONSERV, which simulates patch dynamics and fire,
and used it to evaluate the efficacy of hypothetical reserve networks in
northern Canada. We designed six networks based on conventional reserve
design methods, with different conservation targets for woodland caribou
habitat, high-quality wetlands, vegetation, water bodies, and relative
connectedness. We input the six reserve networks into CONSERV and tracked
the ability of each to maintain initial conservation targets through time
under an active natural disturbance regime. None of the reserve networks
maintained all initial targets, and some over-represented certain features,
suggesting that both effectiveness and efficiency of reserve design could be
improved through use of spatially explicit dynamic simulation during the
planning process. Spatial simulation models of landscape dynamics are
commonly used in natural resource management, but we provide the first
illustration of their potential use for reserve design. Spatial simulation
models could be used iteratively to evaluate competing reserve designs and
select targets that have a higher likelihood of being maintained through
time. Such models could be combined with dynamic planning techniques to
develop a general theory for reserve design in an uncertain world. |
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