Tool name * Zonation

Zonation is a framework for large-scale conservation planning. Zonation can be used for various purposes such as the identification of near-optimal reserve networks, identification of expansions for reserve networks, assessment of proposed reserve networks and priority ranking for conservation decision support. Typical input data of Zonation consists of observed or predicted distributions of biodiversity features (species, communities, ...). Output of Zonation can be visualized in by two intuitively appealing graphs - the rank priority map and and species-specific performance curves. Features of Zonation that distinguish it from other conservation planning software include direct workflow between GIS, statistical species distribution modelling and Zonation, (ii) an ability to work with data sets having millions of selection units (grid cells), (iii) ability to set connectivity constraints in a species-specific manner, (iv) potential modelling of species interactions, and (v) uncertainty analysis to identify robust reserve solutions. While the main operational principle and output of Zonation are different from those of target-based planning, Zonation can also be used to carry out traditional target-based analyses The Zonation software has been geared towards using large grids as input data. Thus, it is particularly simple to input modeled species distributions (or land cover types) into Zonation. First do statistical habitat models for species, then predict species occurrence across the landscape grid, then feed the grids into Zonation. The Zonation software can be run with relatively large datasets on an ordinary desktop PC. What step in framework The main function of Zonation is analysis of biodiversity distribution and conservation value - economical considerations can only be included via simple land cost layers. Thus, output of Zonation should primarily be seen as one analysis that feeds into a broader land use planning framework where political decisions are made that balance between different land use needs, benefits and costs.

  • Large-scale grids describing distributions of biodiversity features presence/absence
  • data probabilities of occurrence abundance/density
  • data Land cost Present or proposed conservation areas
  • Point observation data (New in v. 2.0)
  • Planning unit layers (New in v. 2.0)

Typically one would enter one grid per species (feature). Each cell would have either an observation of population size at that location, or, more commonly, a probability of occurrence or abundance predicted using a statistical habitat model.

Category All, Mapping, Spatial Analysis, Spatial Planning
What step(s) in analysis framework 1a, 2a, 2b
What step(s) in Governance framework

Compulsary:(1) distribution grids of species or other biodiversity features, which describe thedistribution and local density of each feature across the landscape(2) biodiversity feature list file that indicates which biodiversity featuregrids are to be used in the analysis. Certain settings, such as weighting, are adjusted in the biodiversity feature list file.(3) run settings file that defines the settings and Zonation features to beused in your analysis. There are several optional files (see Zonation manual on

Data Quality Required

Modification Required

Not available

Expertise Required

Development of aims, ecological model and data is best done among aplanning group consisting of knowledgeable experts representing different stakeholders. It is rare that one party alone has all knowledge and data relevant for analysis - if not, multiple parties need to participate in the planning.

Spatial and Temporal



Zonation produces basic raster files from each run, which can be imported to GIS software for further analysis and visualization.

License cost issues


Literature: References & Manuals *