The loss of dispersal on islands hypothesis revisited: Implementing phylogeography to investigate evolution of dispersal traits in Periploca (Apocynaceae)

García‐Verdugo, Carlos; Mairal Pisa, Mario José; Monroy, Pedro; Sajeva, Maurizia; Caujapé‐Castells, Juli

The loss of dispersal on islands hypothesis revisited: Implementing phylogeography to investigate evolution of dispersal traits in Periploca (Apocynaceae)

Download

Loss_of_dispersal_on_islands_hypothesis.pdf (1.33 MB)

Official URL

https://doi.org/10.1111/jbi.13050

Publication date

2017

Authors

García‐Verdugo, Carlos

Mairal Pisa, Mario José

Monroy, Pedro

Sajeva, Maurizia

Caujapé‐Castells, Juli

Citations

Exportar

URI

https://hdl.handle.net/20.500.14352/99414

Citation

García‐Verdugo, C., et al. «The Loss of Dispersal on Islands Hypothesis Revisited: Implementing Phylogeography to Investigate Evolution of Dispersal Traits in Periploca (Apocynaceae)». Journal of Biogeography, vol. 44, n.o 11, noviembre de 2017, pp. 2595-606. DOI.org (Crossref), https://doi.org/10.1111/jbi.13050.

Abstract

The loss of dispersal on islands hypothesis (LDIH posits that wind‐dispersed plants should exhibit reduced dispersal potential, particularly if island populations are old. In this study, we tested this hypothesis using a detailed phylogeographical framework across different geographical scales. Location Mainland and island areas of the Atlantic and Mediterranean regions, including Macaronesia (Canary Islands and Cape Verde) and Mediterranean islands in the strait of Sicily. Methods Forty‐five populations of Periploca laevigata, a wind‐dispersed shrub, were sampled. Plastid and nuclear microsatellite data were used to reconstruct spatio‐temporal patterns of island colonization, and estimates of seed terminal velocity used as a surrogate for dispersal ability under both field and common garden conditions. Results Our findings did not provide evidence of loss of dispersability in any island lineage. In all of the regions considered, dispersal ability was similar on island and mainland populations, or higher on islands. Contrary to expectations, lineages inferred as the oldest (western Canaries and Cape Verde) converged towards the most dispersive seed phenotype. This pattern was supported by data obtained under common garden conditions. Within the western Canarian lineage, successful dispersal was shown to be very rare among islands and extensive within islands, but dispersability did not vary significantly from older to more recent sublineages. Considering all the study islands, we found a strong, positive correlation between dispersal ability and estimates of within‐island habitat availability. Main conclusions This study suggests that dispersal ability can be favoured on islands, possibly because traits enhancing wind dispersal are positively selected when habitat availability is high. Our results challenge broad generalizations of the LDIH, but we discuss how overlooking species′ phylogeographical history may give rise to misleading conclusions.