An Integer Optimization Approach to a Probabilistic Reserve Site Selection Problem

Interest in protecting natural areas is increasing as development pressures and conflicting land uses threaten and fragment ecosystems. A variety of quantitative approaches have been developed to help managers select sites for biodiversity protection. The problem is often formulated to select the se...

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Vydané v:Operations research Ročník 48; číslo 5; s. 697 - 708
Hlavní autori: Haight, Robert G, Revelle, Charles S, Snyder, Stephanie A
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Linthicum INFORMS 01.09.2000
Operations Research Society of America
Institute for Operations Research and the Management Sciences
Predmet:
Algorithms
Biodiversity
Biodiversity conservation
Community ecology
Community structure
Coniferous forests
Conservation
Conservation biology
Ecosystem biology
Ecosystems
Endangered & extinct species
Environment: protected natural reserves on national forests
Forests
Heuristic
Heuristics
Integer programming
Linear programming
National forests
Operations research
Optimization
Plant communities
Probability
Probability, applications: presence-absence data of species in reserves
Programming, integer: discrete 0 1 by exact solution methods
Protected areas
RNA
Site selection
Species
Studies
Vegetation
Wildlife conservation
United States > US
Minnesota
ISSN:0030-364X, 1526-5463
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Popis
Shrnutí:Interest in protecting natural areas is increasing as development pressures and conflicting land uses threaten and fragment ecosystems. A variety of quantitative approaches have been developed to help managers select sites for biodiversity protection. The problem is often formulated to select the set of reserve sites that maximizes the number of species or ecological communities that are represented, subject to an upper bound on the number or area of selected sites. Most formulations assume that information about the presence or absence of species in the candidate sites is known with certainty. Because complete information typically is lacking, we developed a reserve selection formulation that incorporates probabilistic presence-absence data. The formulation was a discrete 0/1 optimization model that maximized the number of represented vegetation communities subject to a budget constraint, where a community was considered represented if its probability of occurrence in the set of selected sites exceeded a specified minimum reliability threshold. Although the formulation was nonlinear, a log transformation allowed us to represent the problem in a linear format that could be solved using exact optimization methods. The formulation was tested using a moderately sized reserve selection problem based on data from the Superior National Forest in Minnesota.
Bibliografia:SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 14
ISSN:0030-364X
1526-5463
DOI:10.1287/opre.48.5.697.12411