Progressive island colonization and ancient origin of Hawaiian Metrosideros (Myrtaceae)

Knowledge of the evolutionary history of plants that are ecologically dominant in modern ecosystems is critical to understanding the historical development of those ecosystems. Metrosideros is a plant genus found in many ecological and altitudinal zones throughout the Pacific. In the Hawaiian Island...

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Bibliographic Details
Published in:Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2008-07, Vol.275 (1642), p.1479-1490
Main Authors: Percy, Diana M, Garver, Adam M, Wagner, Warren L, James, Helen F, Cunningham, Clifford W, Miller, Scott E, Fleischer, Robert C
Format: Article
Language:English
Subjects:
Archipelagos
Base Sequence
Bayes Theorem
Biological taxonomies
Bogs
Chloroplast
Chloroplasts
Demography
DNA, Chloroplast - genetics
Evolution
Genetics, Population
Geography
Haplotypes
Haplotypes - genetics
Hawaii
Hawaiian Islands
Islands
Likelihood Functions
Metrosideros
Models, Genetic
Molecular Sequence Data
Myrtaceae - genetics
Parallel Evolution
Phylogenetics
Phylogeny
Plants
Plasticity
Polymorphism
Population Dynamics
Sequence Analysis, DNA
Taxa
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Summary:Knowledge of the evolutionary history of plants that are ecologically dominant in modern ecosystems is critical to understanding the historical development of those ecosystems. Metrosideros is a plant genus found in many ecological and altitudinal zones throughout the Pacific. In the Hawaiian Islands, Metrosideros polymorpha is an ecologically dominant species and is also highly polymorphic in both growth form and ecology. Using 10 non-coding chloroplast regions, we investigated haplotype diversity in the five currently recognized Hawaiian Metrosideros species and an established out-group, Metrosideros collina, from French Polynesia. Multiple haplotype groups were found, but these did not match morphological delimitations. Alternative morphologies sharing the same haplotype, as well as similar morphologies occurring within several distinct island clades, could be the result of developmental plasticity, parallel evolution or chloroplast capture. The geographical structure of the data is consistent with a pattern of age progressive island colonizations and suggests de novo intra-island diversification. If single colonization events resulted in a similar array of morphologies on each island, this would represent parallel radiations within a single, highly polymorphic species. However, we were unable to resolve whether the pattern is instead explained by ancient introgression and incomplete lineage sorting resulting in repeated chloroplast capture. Using several calibration methods, we estimate the colonization of the Hawaiian Islands to be potentially as old as 3.9 (−6.3) Myr with an ancestral position for Kaua'i in the colonization and evolution of Metrosideros in the Hawaiian Islands. This would represent a more ancient arrival of Metrosideros to this region than previous studies have suggested.
ISSN:0962-8452
1471-2954
DOI:10.1098/rspb.2008.0191