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The evolution of fruit traits in Coprosma and the subtribe Coprosminae

The flora of New Zealand has evolved largely in the absence of terrestrial mammals, the predominant frugivore guilds being birds and reptiles. The evolution of divergent fruit traits in New Zealand may be a consequence of different selection pressure by these two guilds, and two contrasting putative dispersal syndromes have been proposed for New Zealand fleshy fruited plants. Coprosma (Rubiaceae: subtribe Coprosminae) is a speciose and morphologically diverse genus, which is distributed throughout the South Pacific and which also produces variably coloured drupes. It was selected as a model genus to investigate the evolution of fruit traits within this context. For this purpose, a molecular phylogeny for the subtribe Coprosminae and Coprosma was inferred using parsimony, likelihood and split decomposition analysis on sequences from the 16rps intron of cpDNA and ETS and ITS region of nrDNA. Up to 32 species were included in the subtribal analyses, whilst 53 species of Coprosma were used in subgeneric studies. The basis for the variety of fruit colours seen in New Zealand was determined using histology and pigment extractions. To test the assumption that fruit traits among species evolved in concert under selection from frugivore guilds, fruit shape, size and nutrient composition were determined in order to test predictions that these would co-vary with fruit colour.
In the Coprosminae, fleshy drupes have arisen from dry fruited schizocarps and with two possible reversals to semi-dry drupes. Within Coprosma, fruit colour was found to be evolutionarily labile and varied both among and within lineages, particularly within two main groups where fruit colour had shifted from orange to blue and white, or red, pink and black colours respectively. The evolution of novel (non-orange) fruit colours was restricted to New Zealand, as was the small-leaved, divaricate growth form, the combination of which has been associated with a putative reptile dispersal syndrome. Several trans-oceanic dispersals out of New Zealand were also inferred from the phylogeny, these extending into Australia, New Guinea and Hawai�i. In these instances, fruit colour did not appear change markedly after establishment in a new country. Within New Zealand, fruit sizes were found to vary with colour as predicted, although the majority of species produced small (< 8 mm), elliptical fruits. There was no clear association between fruit colour and fruit nutrient composition. It would appear that these small, succulent, carbohydrate-rich and lipid-poor fruits cater to a wide range of generalist frugivores.
The variety of fruit colours in Coprosma stemmed from qualitative and quantitative differences in carotenoid and anthocyanin composition. The genetic basis for the control of these pathways is currently unknown, but it is assumed that a few regulatory genes can control a substantial amount of phenotypic variation. Considering the evolutionary history of Coprosma, it would appear that a history of recent and rapid speciation, hybridisation and reticulate evolution may have increased the tempo of fruit colour evolution in the genus.

Identiferoai:union.ndltd.org:ADTP/266407
Date January 2006
CreatorsMarkey, Adrienne Selina, n/a
PublisherUniversity of Otago. Department of Botany
Source SetsAustraliasian Digital Theses Program
LanguageEnglish
Detected LanguageEnglish
Rightshttp://policy01.otago.ac.nz/policies/FMPro?-db=policies.fm&-format=viewpolicy.html&-lay=viewpolicy&-sortfield=Title&Type=Academic&-recid=33025&-find), Copyright Adrienne Selina Markey

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