Low but structured chloroplast diversity in Atherosperma moschatum (Atherospermataceae) suggests bottlenecks in response to the Pleistocene glacials

• Background and Aims The cool temperate rainforests of Australia were much reduced in range during the cold and dry glacial periods, although genetic evidence indicates that two key rainforest species, Nothofagus cunninghamii and Tasmannia lanceolata, survived within multiple locations and underwen...

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Bibliographic Details
Published in:Annals of botany 2011-11, Vol.108 (7), p.1247-1256
Main Authors: Worth, James R. P., Marthick, James R., Jordan, Gregory J., Vaillancourt, René E.
Format: Article
Language:English
Subjects:
Atherosperma moschatum
Biological taxonomies
chloroplast DNA
Chloroplasts
cold
Cunninghamia lanceolata
DNA, Chloroplast
DNA, Chloroplast - genetics
DNA, Plant
DNA, Plant - genetics
Evolution, Molecular
Genetic Variation
genetics
Geographic regions
Geography
Haplotypes
Magnoliopsida
Magnoliopsida - genetics
New South Wales
niches
Nothofagus cunninghamii
nucleotide sequences
Original
Paleontology
Phylogeography
Polymorphism, Genetic
rain forests
Refuge habitats
Sequence Analysis, DNA
South Australia
Species
Species diversity
Tasmania
Temperate rain forests
trees
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Summary:• Background and Aims The cool temperate rainforests of Australia were much reduced in range during the cold and dry glacial periods, although genetic evidence indicates that two key rainforest species, Nothofagus cunninghamii and Tasmannia lanceolata, survived within multiple locations and underwent only local range expansions at the end of the Last Glacial. To better understand the glacial response of a co-occurring but wind-dispersed and less cold-tolerant rainforest tree species, Atherosperma moschatum, a chloroplast phylogeographic study was undertaken. • Methods A total of 3294 bp of chloroplast DNA sequence was obtained for 155 samples collected from across the species' range. • Key Results The distribution of six haplotypes observed in A. moschatum was geographically structured with an inferred ancestral haplotype restricted to Tasmania, while three non-overlapping and endemic haplotypes were found on the mainland of south-eastern Australia. Last glacial refugia for A. moschatum are likely to have occurred in at least one location in western Tasmania and in Victoria and within at least two locations in the Great Dividing Range of New South Wales. Nucleotide diversity of A. moschatum was lower (π = 0·00021) than either N. cunninghamii (0·00101) or T. lanceolata (0·00073), and was amongst the lowest recorded for any tree species. • Conclusions This study provides evidence for past bottlenecks having impacted the chloroplast diversity of A. moschatum as a result of the species narrower climatic niche during glacials. This hypothesis is supported by the star-like haplotype network and similar estimated rates of chloroplast DNA substitution for A. moschatum and the two more cold tolerant and co-occurring species that have higher chloroplast diversity, N. cunninghamii and T. lanceolata.
ISSN:0305-7364
1095-8290
DOI:10.1093/aob/mcr220