Novel methods improve prediction of species' distributions from occurrence data

Jane Elith; Catherine H. Graham; Robert P. Anderson; Miroslav Dudík; Simon Ferrier; Antoine Guisan; Robert J. Hijmans; Falk Huettmann; John R. Leathwick; Anthony Lehmann; Jin Li; Lucia G. Lohmann; Bette A. Loiselle; Glenn Manion; Craig Moritz; Miguel Nakamura; Yoshinori Nakazawa; Jacob McC. M. Overton; A. Townsend Peterson; Steven J. Phillips; Karen Richardson; Ricardo Scachetti-Pereira; Robert E. Schapire; Jorge Soberón; Stephen Williams; Mary S. Wisz; Niklaus E. Zimmermann

doi:10.1111/j.2006.0906-7590.04596.x

Novel methods improve prediction of species' distributions from occurrence data

Jane Elith, Catherine H. Graham, Robert P. Anderson, Miroslav Dudík, Simon Ferrier, Antoine Guisan, Robert J. Hijmans, Falk Huettmann, John R. Leathwick, Anthony Lehmann, Jin Li, Lucia G. Lohmann, Bette A. Loiselle, Glenn Manion, Craig Moritz, Miguel Nakamura, Yoshinori Nakazawa, Jacob McC. M. Overton, A. Townsend Peterson, Steven J. PhillipsKaren Richardson, Ricardo Scachetti-Pereira, Robert E. Schapire, Jorge Soberón, Stephen Williams, Mary S. Wisz, Niklaus E. Zimmermann

Computer Science

Research output: Contribution to journal › Article › peer-review

7268 Scopus citations

Abstract

Prediction of species' distributions is central to diverse applications in ecology, evolution and conservation science. There is increasing electronic access to vast sets of occurrence records in museums and herbaria, yet little effective guidance on how best to use this information in the context of numerous approaches for modelling distributions. To meet this need, we compared 16 modelling methods over 226 species from 6 regions of the world, creating the most comprehensive set of model comparisons to date. We used presence-only data to fit models, and independent presence-absence data to evaluate the predictions. Along with well-established modelling methods such as generalised additive models and GARP and BIOCLIM, we explored methods that either have been developed recently or have rarely been applied to modelling species' distributions. These include machine-learning methods and community models, both of which have features that may make them particularly well suited to noisy or sparse information, as is typical of species' occurrence data. Presence-only data were effective for modelling species' distributions for many species and regions. The novel methods consistently outperformed more established methods. The results of our analysis are promising for the use of data from museums and herbaria, especially as methods suited to the noise inherent in such data improve.

Original language	English (US)
Pages (from-to)	129-151
Number of pages	23
Journal	Ecography
Volume	29
Issue number	2
DOIs	https://doi.org/10.1111/j.2006.0906-7590.04596.x
State	Published - Apr 2006

All Science Journal Classification (ASJC) codes

Ecology, Evolution, Behavior and Systematics

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10.1111/j.2006.0906-7590.04596.x

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Elith, J., H. Graham, C., P. Anderson, R., Dudík, M., Ferrier, S., Guisan, A., J. Hijmans, R., Huettmann, F., R. Leathwick, J., Lehmann, A., Li, J., G. Lohmann, L., A. Loiselle, B., Manion, G., Moritz, C., Nakamura, M., Nakazawa, Y., McC. M. Overton, J., Townsend Peterson, A., ... E. Zimmermann, N. (2006). Novel methods improve prediction of species' distributions from occurrence data. Ecography, 29(2), 129-151. https://doi.org/10.1111/j.2006.0906-7590.04596.x

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title = "Novel methods improve prediction of species' distributions from occurrence data",

abstract = "Prediction of species' distributions is central to diverse applications in ecology, evolution and conservation science. There is increasing electronic access to vast sets of occurrence records in museums and herbaria, yet little effective guidance on how best to use this information in the context of numerous approaches for modelling distributions. To meet this need, we compared 16 modelling methods over 226 species from 6 regions of the world, creating the most comprehensive set of model comparisons to date. We used presence-only data to fit models, and independent presence-absence data to evaluate the predictions. Along with well-established modelling methods such as generalised additive models and GARP and BIOCLIM, we explored methods that either have been developed recently or have rarely been applied to modelling species' distributions. These include machine-learning methods and community models, both of which have features that may make them particularly well suited to noisy or sparse information, as is typical of species' occurrence data. Presence-only data were effective for modelling species' distributions for many species and regions. The novel methods consistently outperformed more established methods. The results of our analysis are promising for the use of data from museums and herbaria, especially as methods suited to the noise inherent in such data improve.",

author = "Jane Elith and {H. Graham}, Catherine and {P. Anderson}, Robert and Miroslav Dud{\'i}k and Simon Ferrier and Antoine Guisan and {J. Hijmans}, Robert and Falk Huettmann and {R. Leathwick}, John and Anthony Lehmann and Jin Li and {G. Lohmann}, Lucia and {A. Loiselle}, Bette and Glenn Manion and Craig Moritz and Miguel Nakamura and Yoshinori Nakazawa and {McC. M. Overton}, Jacob and {Townsend Peterson}, A. and {J. Phillips}, Steven and Karen Richardson and Ricardo Scachetti-Pereira and {E. Schapire}, Robert and Jorge Sober{\'o}n and Stephen Williams and {S. Wisz}, Mary and {E. Zimmermann}, Niklaus",

year = "2006",

month = apr,

doi = "10.1111/j.2006.0906-7590.04596.x",

language = "English (US)",

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Elith, J, H. Graham, C, P. Anderson, R, Dudík, M, Ferrier, S, Guisan, A, J. Hijmans, R, Huettmann, F, R. Leathwick, J, Lehmann, A, Li, J, G. Lohmann, L, A. Loiselle, B, Manion, G, Moritz, C, Nakamura, M, Nakazawa, Y, McC. M. Overton, J, Townsend Peterson, A, J. Phillips, S, Richardson, K, Scachetti-Pereira, R, E. Schapire, R, Soberón, J, Williams, S, S. Wisz, M & E. Zimmermann, N 2006, 'Novel methods improve prediction of species' distributions from occurrence data', Ecography, vol. 29, no. 2, pp. 129-151. https://doi.org/10.1111/j.2006.0906-7590.04596.x

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AU - Elith, Jane

AU - H. Graham, Catherine

AU - P. Anderson, Robert

AU - Dudík, Miroslav

AU - Ferrier, Simon

AU - Guisan, Antoine

AU - J. Hijmans, Robert

AU - Huettmann, Falk

AU - R. Leathwick, John

AU - Lehmann, Anthony

AU - Li, Jin

AU - G. Lohmann, Lucia

AU - A. Loiselle, Bette

AU - Manion, Glenn

AU - Moritz, Craig

AU - Nakamura, Miguel

AU - Nakazawa, Yoshinori

AU - McC. M. Overton, Jacob

AU - Townsend Peterson, A.

AU - J. Phillips, Steven

AU - Richardson, Karen

AU - Scachetti-Pereira, Ricardo

AU - E. Schapire, Robert

AU - Soberón, Jorge

AU - Williams, Stephen

AU - S. Wisz, Mary

AU - E. Zimmermann, Niklaus

PY - 2006/4

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N2 - Prediction of species' distributions is central to diverse applications in ecology, evolution and conservation science. There is increasing electronic access to vast sets of occurrence records in museums and herbaria, yet little effective guidance on how best to use this information in the context of numerous approaches for modelling distributions. To meet this need, we compared 16 modelling methods over 226 species from 6 regions of the world, creating the most comprehensive set of model comparisons to date. We used presence-only data to fit models, and independent presence-absence data to evaluate the predictions. Along with well-established modelling methods such as generalised additive models and GARP and BIOCLIM, we explored methods that either have been developed recently or have rarely been applied to modelling species' distributions. These include machine-learning methods and community models, both of which have features that may make them particularly well suited to noisy or sparse information, as is typical of species' occurrence data. Presence-only data were effective for modelling species' distributions for many species and regions. The novel methods consistently outperformed more established methods. The results of our analysis are promising for the use of data from museums and herbaria, especially as methods suited to the noise inherent in such data improve.

AB - Prediction of species' distributions is central to diverse applications in ecology, evolution and conservation science. There is increasing electronic access to vast sets of occurrence records in museums and herbaria, yet little effective guidance on how best to use this information in the context of numerous approaches for modelling distributions. To meet this need, we compared 16 modelling methods over 226 species from 6 regions of the world, creating the most comprehensive set of model comparisons to date. We used presence-only data to fit models, and independent presence-absence data to evaluate the predictions. Along with well-established modelling methods such as generalised additive models and GARP and BIOCLIM, we explored methods that either have been developed recently or have rarely been applied to modelling species' distributions. These include machine-learning methods and community models, both of which have features that may make them particularly well suited to noisy or sparse information, as is typical of species' occurrence data. Presence-only data were effective for modelling species' distributions for many species and regions. The novel methods consistently outperformed more established methods. The results of our analysis are promising for the use of data from museums and herbaria, especially as methods suited to the noise inherent in such data improve.

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JF - Ecography

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ER -

Novel methods improve prediction of species' distributions from occurrence data

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