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Why model species distribution? • Complements BHUs for conservation planning, helping develop irreplaceability ratings • Supplements data for known distribution of species. • Useful for discovering environmental factors that determine distribution. • Particularly useful for extrapolating effects of environmental/climate change. • Useful for estimating potential susceptibility of areas to alien invasives. Species Envelope The areas in which Protea nitida is known to occur Source: Proteas of Southern Africa Why use GARP? • Implemented for many purposes in recent years, such as modelling invasive species (Peterson & Robins, 2003), infectious diseases, (Peterson & Shaw, 2003), and global warming (Thomas et al, 2004) • Robust and powerful (Stockwell & Noble, 1992; Stockwell & Peters, 1999). • Needs no absence data, and little a priori knowledge. • Little independent testing of the algorithm has been done, and should be carried out (Peterjohn, 2001) Test for difference between specialist and generalist species (H0: no difference; two sample t-test, df = 8) The effects of the number of modelling points used of the effectiveness of GARP The relationship between Type I and Type II errors (false positives and false negatives) in GARPmodelled distributions Implications of Type I and Type II errors in alien invasive distribution modelling TYPE I ERROR (false positive) • Predicts species presence in sites at which it may not be found. • Overestimates range, increasing the risk priority of the species. • This leads to inclusion of sites of little or no importance for conservation. • May falsely skew conservation priorities toward elimination of plant species with low potential impact. TYPE II ERROR (false negative) • Failure to predict environmental suitability in a site at which the species is known to occur. • May therefore underestimate the overall susceptibility to invasion. • Leads to exclusion of sites of possibly vital conservation value. • Skews conservation priorities away from alien species with a potentially high invasive impact . The incidence of Type II errors (false negatives) related to the number of modelling points used Conclusions • GARP-derived species layers have some potential use for conservation planning. • There is little difference observed in the ability of the model to predict specialist and generalist species, although some tendencies to overestimate range for specialist species have been observed. • The conservation objectives for a species should be borne in mind – in general it is better to err on the side of caution and choose a model that minimizes false negative (Type II) errors. • Modelling for species at a finer scale may prove challenging, because obtaining environmental layers at the specified scale can be difficult and local environmental conditions may vary (micro-climate), and local the extent of field work required may be prohibitive. Acknowledgements • Richard Knight • Tony Rebelo and the Protea Atlas Project • The Beit Trust
