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R. Freckleton, A. Watkinson (2003)
Are all plant populations metapopulations?Journal of Ecology, 91
W. Bond, J. Midgley (2003)
The Evolutionary Ecology of Sprouting in Woody PlantsInternational Journal of Plant Sciences, 164
R. Carter, S. Prince (1981)
Epidemic models used to explain biogeographical distribution limitsNature, 293
R. Holt, J. Lawton, K. Gaston, T. Blackburn (1997)
On the Relationship between Range Size and Local Abundance: Back to BasicsOikos, 78
O. Honnay, K. Verheyen, J. Butaye, H. Jacquemyn, B. Bossuyt, M. Hermy (2002)
Possible effects of habitat fragmentation and climate change on the range of forest plant speciesGlobal Ecology and Biogeography, 5
A. Guisan, W. Thuiller (2005)
Predicting species distribution: offering more than simple habitat models.Ecology letters, 8 9
Jens‐Christian Svenning, F. Skov (2004)
Limited filling of the potential range in European tree speciesEcology Letters, 7
J. Ehrlen, O. Eriksson (2003)
Large‐scale spatial dynamics of plants: a response to Freckleton & WatkinsonGlobal Ecology and Biogeography, 91
R.M. Cowling, R.L. Pressey, M. Rouget, A.T. Lombard (2003)
A conservation plan for a global biodiversity hotspot — the Cape Floristic Region, South AfricaJournal of Ecology, 112
Ran Nathan, G. Perry, J. Cronin, A. Strand, M. Cain (2003)
Methods for estimating long-distance dispersalOikos, 103
R.P. Freckleton, A.R. Watkinson (2003)
Are all plant populations metapopulations?Ecology Letters, 91
S. Higgins, J. Clark, Ran Nathan, T. Hovestadt, F. Schurr, J. Fragoso, M. Aguiar, E. Ribbens, S. Lavorel (2003)
Forecasting plant migration rates: managing uncertainty for risk assessmentJournal of Ecology, 91
T. Webb, K. Gaston (2000)
Geographic range size and evolutionary age in birdsProceedings of the Royal Society of London. Series B: Biological Sciences, 267
W. Bond, B. Wilgen (1995)
Fire and Plants
F. Schurr, W. Bond, G. Midgley, S. Higgins (2005)
A mechanistic model for secondary seed dispersal by wind and its experimental validationJournal of Ecology, 93
J. Ehrlén, O. Eriksson (2003)
Large‐scale spatial dynamics of plants: a response to Freckleton & WatkinsonJournal of Ecology, 91
O. Tackenberg (2003)
Modeling long‐distance dispersal of plant diaspores by windEcological Monographs, 73
O. Honnay, K. Verheyen, J. Butaye, H. Jacquemyn, B. Bossuyt, M. Hermy (2002)
Possible effects of habitat fragmentation and climate change on the range of forest plant speciesEcology Letters, 5
R. Cowling, R. Pressey, M. Rouget, A. Lombard (2003)
A conservation plan for a global biodiversity hotspot— the Cape Floristic Region, South AfricaBiological Conservation, 112
M. Gyllenberg, I. Hanski (1997)
Habitat Deterioration, Habitat Destruction, and Metapopulation Persistence in a Heterogenous LandscapeTheoretical population biology, 52 3
A. Gelfand, A. Schmidt, Shanshan Wu, J. Silander, A. Latimer, A. Rebelo (2005)
Modelling species diversity through species level hierarchical modellingJournal of the Royal Statistical Society: Series C (Applied Statistics), 54
J. Richardson, F. Weitz, M. Fay, Q. Cronk, H. Linder, G. Reeves, M. Chase (2001)
Rapid and recent origin of species richness in the Cape flora of South AfricaNature, 412
James Brown, and Stevens, Dawn Kaufman (1996)
THE GEOGRAPHIC RANGE: Size, Shape, Boundaries, and Internal StructureAnnual Review of Ecology, Evolution, and Systematics, 27
E. Paradis, J. Claude (2002)
Analysis of comparative data using generalized estimating equations.Journal of theoretical biology, 218 2
I. Hanski (1991)
Single‐species metapopulation dynamics: concepts, models and observationsBiological Journal of The Linnean Society, 42
I.P. Horne (1981)
The frequency of fires in the Groot Swartberg mountain catchment area, Cape ProvinceBiological Conservation, 118
J. Willis (2009)
Age and Area a Study in Geographical Distribution and Origin of Species
W. Krämer (2003)
Review of Modern applied statistics with S, 4th ed. by W.N. Venables and B.D. Ripley. Springer-Verlag 2002Computational Statistics & Data Analysis, 43
R. Ricklefs, E. Bermingham (2002)
The concept of the taxon cycle in biogeographyGlobal Ecology and Biogeography, 11
J. Pearce, S. Ferrier (2000)
Evaluating the predictive performance of habitat models developed using logistic regressionEcological Modelling, 133
K.J. Gaston, T.M. Blackburn (2003)
Dispersal and the interspecific abundance–occupancy relationship in British birdsBiological Journal of the Linnean Society, 12
G. Reeves (2001)
Radiation and macroevolutionary ecology of the African genus protea
I. Hanski, A. Moilanen, M. Gyllenberg (1996)
Minimum viable metapopulation sizeEcology Letters, 147
G. Midgley, L. Hannah, D. Millar, W. Thuiller, A. Booth (2003)
Developing regional and species-level assessments of climate change impacts on biodiversity in the Cape Floristic RegionBiological Conservation, 112
W.J. Bond, J. Vlok, M. Viviers (1984)
Variation in seedling recruitment of Cape Proteaceae after fireAnnual Review of Ecology and Systematics, 72
J.H. Brown (1995)
MacroecologyNature
M. Willson (1983)
Plant reproductive ecology
D.C. Le Maitre, J.J. Midgley (1992)
The ecology of Fynbos: nutrients, fire and diversityEcological Modelling
S. Higgins, M. Cain (2002)
Spatially realistic plant metapopulation models and the colonization–competition trade‐offJournal of Ecology, 90
S.I. Higgins, M.L. Cain (2002)
Spatially realistic plant metapopulation models and the colonization‐competition trade‐offSouth African Forestry Journal, 90
J.H. Brown, G.C. Stevens, D.M. Kaufman (1996)
The geographic range: size, shape, boundaries, and internal structureBiological Conservation, 27
I. Hanski, M. Gyllenberg (1997)
Uniting Two General Patterns in the Distribution of SpeciesScience, 275
R.P. Freckleton, A.R. Watkinson (2002)
Large‐scale spatial dynamics of plants: metapopulations, regional ensembles and patchy populationsJournal of the Royal Statistical Society Series C, 90
D. Jablonski (1987)
Heritability at the Species Level: Analysis of Geographic Ranges of Cretaceous MollusksScience, 238
A. Latimer, J. Silander, A. Gelfand, A. Rebelo, D. Richardson (2004)
Quantifying threats to biodiversity from invasive alien plants and other factors: a case study from the Cape Floristic RegionSouth African Journal of Science, 100
Daniel Polakow, T. Dunne (1999)
Modelling fire-return interval T: stochasticity and censoring in the two-parameter Weibull modelEcological Modelling, 121
W. Bond (1988)
Proteas as ‘tumbleseeds’: Wind dispersal through the air and over soilSouth African Journal of Botany, 54
R. Freckleton, A. Watkinson (2002)
Large‐scale spatial dynamics of plants: metapopulations, regional ensembles and patchy populationsJournal of Ecology, 90
M. Sanderson (1997)
A Nonparametric Approach to Estimating Divergence Times in the Absence of Rate ConstancyMolecular Biology and Evolution, 14
K. Gaston (2003)
The structure and dynamics of geographic ranges
A. Schimper
Die epiphytische Vegetation Amerikas
G. Midgley, L. Hannah, D. Millar, M. Rutherford, Powrie Lw (2002)
Assessing the vulnerability of species richness to anthropogenic climate change in a biodiversity hotspotGlobal Ecology and Biogeography, 11
R. Levins (1969)
Some demographic and genetic consequences of environmental heterogeneity for biological controlEcological Modelling, 15
W. Bond, J. Vlok, M. Viviers (1984)
Variation in seedling recruitment of Cape Proteaceae after fireJournal of Ecology, 72
M. Rouget, D. Richardson, R. Cowling, J. Lloyd, A. Lombard (2003)
Current patterns of habitat transformation and future threats to biodiversity in terrestrial ecosystems of the Cape Floristic Region, South AfricaBiological Conservation, 112
W. Bond, J. Midgley (2001)
Ecology of sprouting in woody plants: the persistence niche.Trends in ecology & evolution, 16 1
I. Hanski (1991)
Single‐species metapopulation dynamics — concepts, models and observationsJournal of Ecology, 42
C. Darwin (2019)
On the origin of species by means of natural selection: Or the preservation of the favoured races in the struggle for life.
R. Holt, T. Keitt (2000)
Alternative causes for range limits: a metapopulation perspectiveEcology Letters, 3
E. Paradis, J. Claude (2002)
Analysis of comparative data using generalized estimating equationsMolecular Biology and Evolution, 218
I. Horne (1981)
The Frequency of Veld Fires in the Groot Swartberg Mountain Catchment Area, Cape ProvinceSouth African forestry journal, 118
W. Thuiller, M. Araújo, R. Pearson, R. Whittaker, L. Brotóns, S. Lavorel (2004)
Biodiversity conservation: Uncertainty in predictions of extinction riskNature, 430
A. Guisan, W. Thuiller (2005)
Predicting species distribution: offering more than simple habitat modelsThe American Naturalist, 8
I. Hanski, A. Moilanen, M. Gyllenberg (1996)
Minimum Viable Metapopulation SizeThe American Naturalist, 147
R.D. Holt, T.H. Keitt (2000)
Alternative causes for range limits: a metapopulation perspectiveSouth African Journal of Science, 3
A.M. Latimer, J.A. Silander, A.E. Gelfand, A.G. Rebelo, D.M. Richardson (2004)
Quantifying threats to biodiversity from invasive alien plants and other factors: a case study from the Cape Floristic RegionJournal of Theoretical Biology, 100
K. Gaston, T. Blackburn (2003)
Dispersal and the interspecific abundance‐occupancy relationship in British birdsGlobal Ecology and Biogeography, 12
R. Levins (1969)
Some Demographic and Genetic Consequences of Environmental Heterogeneity for Biological ControlBulletin of the Entomological Society of America, 15
T. Rebelo, Colin Paterson-Jones, N. Page (1995)
Sasol proteas: A field guide to the proteas of southern Africa
G.F. Midgley, L. Hannah, D. Millar, W. Thuiller, A. Booth (2003)
Developing regional and species‐level assessments of climate change impacts on biodiversity in the Cape Floristic RegionGlobal Ecology and Biogeography, 112
I. Hanski (1999)
Metapopulation ecologyEcology Letters
M. Gyllenberg, I. Hanski (1997)
Habitat deterioration, habitat destruction, and metapopulation persistence in a heterogeneous landscapeJournal of Ecology, 52
Aim How species traits and environmental conditions affect biogeographical dynamics is poorly understood. Here we test whether estimates of a species’ evolutionary age, colonization and persistence ability can explain its current ‘range filling’ (the ratio between realized and potential range size).
Global Ecology and Biogeography – Wiley
Published: Jul 1, 2007
Keywords: ; ; ; ; ; ; ; ; ;
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