Marxan with Zones: Software for optimal conservation based land- and sea-use zoning

TitleMarxan with Zones: Software for optimal conservation based land- and sea-use zoning
Publication TypeJournal Article
Year of Publication2009
AuthorsWatts ME, Ball IR, Stewart RS, Klein CJ, Wilson K, Steinback C, Lourival R, Kircher L, Possingham HP
JournalEnvironmental Modelling & Software
Volume24
Pagination1513-1521
Date PublishedDec
Type of ArticleProceedings Paper
ISBN Number1364-8152
Accession NumberISI:000270611200017
KeywordsAUSTRALIA, BIODIVERSITY, Decision support, DESIGN, DIVERSITY, FORESTS, GREAT-BARRIER-REEF, IMPACTS, MAMMALS, MANAGEMENT, MARINE PROTECTED AREAS, Marxan, Natural resource, optimization, RESERVE SELECTION ALGORITHMS, Simulated annealing, Systematic conservation planning, Zoning
Abstract

Marxan is the most widely used conservation planning software in the world and is designed for solving complex conservation planning problems in landscapes and seascapes. In this paper we describe a substantial extension of Marxan called Marxan with Zones, a decision support tool that provides land-use zoning options in geographical regions for biodiversity conservation. We describe new functions designed to enhance the original Marxan software and expand on its utility as a decision support tool. The major new element in the decision problem is allowing any parcel of land or sea to be allocated to a specific zone, not just reserved or unreserved. Each zone then has the option of its own actions, objectives and constraints, with the flexibility to define the contribution of each zone to achieve targets for pre-specified features (e.g. species or habitats). The objective is to minimize the total cost of implementing the zoning plan while ensuring a variety of conservation and land-use objectives are achieved. We outline the capabilities, limitations and additional data requirements of this new software and perform a comparison with the original version of Marxan. We feature a number of case studies to demonstrate the functionality of the software and highlight its flexibility to address a range of complex spatial planning problems. These studies demonstrate the design of multiple-use marine parks in both Western Australia and California, and the zoning of forest use in East Kalimantan. (C) 2009 Elsevier Ltd. All rights reserved.

URL<Go to ISI>://000270611200017
Alternate JournalEnviron. Modell. Softw.