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It's time to work together and stop duplicating conservation efforts … (2000)

Mace, G. M. ; Balmford, A. ; Boitani, L. ; [et al.]

[s.l.] : Macmillan Magazines Ltd.

Nature 405 (2000), S. 393-393

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] Sir Myers et al., in their new analysis of global biodiversity hotspots, recommend areas where conservation actions should be focused to minimize losses in the imminent extinction crisis. We strongly support initiatives to produce clear, efficient and practical goals for ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/35013247

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Integrating conservation and development: effective trade-offs between biodiversity and cost in the selection of protected areas (1996)

Faith, D. P. ; Walker, P. A.

Springer

Biodiversity and conservation 5 (1996), S. 431-446

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ISSN: 1572-9710

Keywords: multi-criteria ; environmental diversity ; trade-off ; reserve selection ; sensitivity analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Strategies are needed for reconciling competing demands at the regional level when areas are to be selected for protection and there are associated costs, possibly equivalent to forgone development opportunties. As an alternative to the fixed scaling (or weighting) of costs and benefits required by cost-benefit analysis, multi-criteria analyses allow the exploration of alternative weightings and a summary trade-off curve to determine preferred solutions. For alternative sets of areas, total cost could be plotted against total represented biodiversity, but a more consistent approach should look at trade-off space at the level of individual areas. For a given weighting, an area is assigned protection if and only if its contribution to total biodiversity, CB, exceeds its equivalent cost, EC (in biodiversity units). Because CB for a given area depends on which other areas are also protected, it can be more or less than EC. Here we develop an iterative strategy for selecting areas, such that, for a given weighting, an area is in the final protected set if and only if its final CB value is greater than its EC value. Sensitivity analysis is used to identify those areas that: (1) are assigned protection even when low weight is given to biodiversity, or (2) are not assigned protection even when high weight is given to biodiversity. This approach is applicable in principle to any surrogate measure for biodiversity; here examples are presented in which environmental data are summarized as an environmental space.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00056389

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Environmental diversity: on the best-possible use of surrogate data for assessing the relative biodiversity of sets of areas (1996)

Faith, D. P. ; Walker, P. A.

Springer

Biodiversity and conservation 5 (1996), S. 399-415

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ISSN: 1572-9710

Keywords: ordination ; clustering ; dissimilarities ; gap analysis ; diversity measures ; p-median

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: The conservation goal of representation of biodiversity (in the broad sense of all species) in protected areas requires best-possible use of available surrogate information. One standard approach is based on ‘indicator’ groups of taxa. A minimum set of areas having at least one representation of each indicator species is taken to be representative of other organisms. This same minimum-set approach is adapted to other ‘attributes’ of biodiversity, for example, derived environmental clusters. A weakness of these approaches is that useful information is lost; for example, for environmental clusters, there is no distinction made either among or within clusters. A more powerful surrogate approach can use some expression of environmental and/or biotic pattern so that variation among areas is seen as part of a continuum rather than partitioned into arbitrary clusters/attributes. The challenge in using pattern effectively is to adopt a robust model for the relationship between pattern and the underlying units of biodiversity, i.e. species. An environmental space (a continuum or ordination pattern), combined with the standard ecological continuum model relating species to environmental space, has advantages over other patterns based on hierarchy or distance matrices. Because an environmental space can be estimated either directly (observed environmental data) or indirectly (data on indicator groups), the corresponding surrogate-measure of biodiversity, ‘environmental diversity’ (ED) makes best-possible use of either kind of data. We conclude that the arbitrariness of the ‘attribute’ approach can be replaced by a robust surrogate ‘pattern’ approach that is flexible and avoids unwarranted assumptions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00056387

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Integrating conservation and development: incorporating vulnerability into biodiversity-assessment of areas (1996)

Faith, D. P. ; Walker, P. A.

Springer

Biodiversity and conservation 5 (1996), S. 417-429

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ISSN: 1572-9710

Keywords: environmental diversity ; surrogates ; p-median ; reserve selection ; land-use

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Protection of regional biodiversity requires that priority for protection of individual areas be based on both the contribution the area can make to representing overall biodiversity and the degree to which the area, in the absence of action, is vulnerable to loss of its biodiversity. Attempts to apply these criteria together largely have been ad hoc. A solution to this problem is presented for environmental surrogate data, based on ‘environmental diversity’ (ED). ED uses a standard ecological continuum model to link environmental pattern to species-level biodiversity, so that a set of areas can be characterized by its relative expected biodiversity. This allows explicit incorporation of estimates of area-vulnerability, interpreted as the relative probability that any member species will not persist, into biodiversity assessments. The contribution of a given area to regional expected biodiversity is influenced not only by its own vulnerability value, but also by the vulnerability of other areas. Increasing the degree of protection of any area (reducing its vulnerability) will increase expected biodiversity: however, expected regional biodiversity sometimes may be maximized when limited resources for protection are directed to an area with lower vulnerability rather than to one with higher vulnerability. The allocation of land uses in a region need not be viewed as an all-or-nothing assignment of protection. The effect of a particular management regime on the biodiversity of a given area can be equated with some consequent degree of vulnerability; viewed positively, a management regime that offers some degree of biodiversity protection can make a measurable contribution to the protection of the biodiversity of a region.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00056388

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