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RESEARCH ARTICLE
Contents Vol 55(8)

Gynodioecy, sexual dimorphism and erratic fruiting in Corynocarpus laevigatus (Corynocarpaceae)

P. J. Garnock-Jones A C , R. E. Brockie A and R. G. FitzJohn A B
+ Author Affiliations
- Author Affiliations

A Centre for Biodiversity and Restoration Ecology, School of Biological Sciences, Victoria University of Wellington, PO Box 600, Wellington 6140, New Zealand.

B Landcare Research, PO Box 40, Lincoln 7640, Canterbury, New Zealand.

C Corresponding author. Email: phil.garnock-jones@vuw.ac.nz

Australian Journal of Botany 55(8) 803-808 https://doi.org/10.1071/BT07054
Submitted: 27 March 2007  Accepted: 27 August 2007   Published: 14 December 2007

Abstract

The New Zealand karaka tree, Corynocarpus laevigatus J.R. & G.Forst., is shown to be gynodioecious. Flowers on female plants have large but empty anthers and many set fruit. Flowers on male plants produce pollen and each has a fully developed ovule. On most male plants, a low proportion of flowers set fruit. Inflorescences and flowers on male and female trees are similar in overall appearance, except that the flower parts on males are larger and flowers open more widely. Even the gynoecia on male plants are larger in most respects. We also report that although trees retain their gender, their intensity of fruiting varies from year to year. Some observations indicate that other species of Corynocarpus in Australia and the south-western Pacific might also be gender dimorphic.


Acknowledgements

Sabrina Malcolm and Linda Sorensen assisted with recording observations. Bill Malcolm provided close-up photographs of flowers for Fig. 2 and Ewen Cameron provided a photocopy of an article. PGJ and RGF thank the Science Faculty at Victoria University for a summer research grant. We thank two anonymous referees for helpful comments on the manuscript.


References


Alexander MP (1969) Differential staining of aborted and non-aborted pollen. Stain Technology 44, 117–122.
PubMed |
open url image1

Allan HH (1961) ‘Flora of New Zealand. Vol. I.’ (Government Printer: Wellington)

Bateman AJ (1955) Note on dioecy in the Cruciferae. Heredity 9, 415. open url image1

Bawa KS, Webb CJ (1984) Flower, fruit and seed abortion in tropical forest trees: implications for the evolution of paternal and maternal reproductive patterns. American Journal of Botany 71, 736–751.
Crossref | GoogleScholarGoogle Scholar | open url image1

Braggins JE, Large MF, Mabberley DJ (1999) Sexual arrangements in kohekohe (Dysoxylum spectabile, Meliaceae). Telopea 8, 315–324. open url image1

Castro I, Robertson AW (1997) Honeyeaters and the New Zealand forest flora: the utilisation and profitability of small flowers. New Zealand Journal of Ecology 21, 169–179. open url image1

Costall JA, Carter RJ, Shimada Y, Anthony D, Rapson GL (2006) The endemic tree Corynocarpus laevigatus (karaka) as a weedy invader in forest remnants of southern North Island, New Zealand. New Zealand Journal of Botany 44, 5–22. open url image1

Delph LF, Galloway LF, Stanton ML (1996) Sexual dimorphism in flower size. American Naturalist 148, 299–320.
Crossref | GoogleScholarGoogle Scholar | open url image1

Eagle A (2006) ‘Eagle’s complete trees and shrubs of New Zealand. Vol. 1.’ (Te Papa Press: Wellington)

Endress ME, Igersheim A, Garnock-Jones PJ (1998) Sexual dimorphism and secondary pollen presentation in Geniostoma ligustrifolium (Geniostomaceae). American Journal of Botany Supplement 85, 126. open url image1

Garnock-Jones PJ (1986) Floret specialisation, seed production, and gender in Artemisia vulgaris (Asteraceae, Anthemideae). Botanical Journal of the Linnean Society 92, 285–302. open url image1

Garnock-Jones PJ (1991) Gender dimorphism in Cheesemania wallii (Brassicaceae). New Zealand Journal of Botany 29, 87–90. open url image1

Godley EJ (1979) Flower biology in New Zealand. New Zealand Journal of Botany 17, 441–466. open url image1

Gravatt DJ (1970) Honeyeater movements and the flowering cycle of vegetation on Little Barrier Island. Notornis 17, 96–101. open url image1

Heine EM (1937) Observations on the pollination of New Zealand flowering plants. Transactions and Proceedings of the Royal Society of New Zealand 67, 133–148. open url image1

Kärkkäinen K, Savolainen O, Koski V (1999) Why do plants abort so many developing seeds: bad offspring or bad maternal genotypes? Evolutionary Ecology 13, 305–317.
Crossref | GoogleScholarGoogle Scholar | open url image1

Lloyd DG (1979) Parental strategies of angiosperms. New Zealand Journal of Botany 17, 595–606. open url image1

Lloyd DG, Bawa K (1984) Modification of the gender of seed plants in varying conditions. Evolutionary Biology 17, 255–338. open url image1

Merrett MF (2005) Gynodioecy in Teucridium parvifolium (Verbenaceae), a threatened, small-leaved shrub from New Zealand. New Zealand Journal of Botany 43, 613–617. open url image1

Metcalf L (1995) ‘The propagation of New Zealand native plants.’ (Godwit: Auckland)

Molloy BPJ (1990) The origin, relationships, and use of karaka or kopi (Corynocarpus laevigatus). In ‘Nga mahi Maori o te wao nui a Tane’. (Eds W Harris, P Kapoor) pp. 48–53. (Botany Division, DSIR: Christchurch)

Moore LB (1986) Fruitless karaka. Auckland Botanical Society Newsletter 41, 42. open url image1

Moore LB , Irwin JB (1978) ‘The Oxford book of New Zealand plants.’ (Oxford University Press: Wellington)

Newstrom L, Robertson A (2005) Progress in understanding pollination systems in New Zealand. New Zealand Journal of Botany 43, 1–59. open url image1

Philipson WR (1987) Corynocarpus J.R. et G.Forst.—an isolated genus. Botanical Journal of the Linnean Society 95, 9–18. open url image1

Pigott E (1927) Observations on Corynocarpus laevigata Forst., the karaka. Transactions of the New Zealand Institute 58, 57–71. open url image1

Platt G (2003) Observations on karaka (Corynocarpus laevigatus) and its fruit. Auckland Botanical Society Journal 58, 29–31. open url image1

Renner SS, Ricklefs RE (1995) Dioecy and its correlates in the flowering plants. American Journal of Botany 82, 596–606.
Crossref | GoogleScholarGoogle Scholar | open url image1

Rivers EM (1971) Variation in dioecism in cultivated Dodonaea viscosa. New Zealand Journal of Botany 9, 549–554. open url image1

Robinsohn I (1924) Die Fähbungsreaktion der Narbe, Stigmatchromie, als morpho-biologische Blütenuntersuchungsmethode. Sitzungsberichte der Kaiserlichen Akademie der Wissenschaften. Mathematisch-Naturwissenschaftliche Classe. Abteilung 1 132, 181–211. open url image1

Sakai AK , Weller SG (1999) Gender and sexual dimorphism in flowering plants: a review of terminology, biogeographic patterns, ecological correlates, and phylogenetic approaches. In ‘Gender and sexual dimorphism in flowering plants’. (Eds MA Geber, TE Dawson, LF Delph) pp. 1–31. (Springer: Berlin)

Salmon JT (1986) ‘The native trees of New Zealand.’ Revised edn. (Reed Methuen: Auckland)

Sawyer J, McFadgen B, Hughes P (2003) Karaka (Corynocarpus laevigatus J.R. et G.Forst.) in Wellington Conservancy (excluding Chatham Islands). Department of Conservation Internal Series 101, 1–27. open url image1

Schultz ST (2003) Sexual dimorphism in gynodioecious Sidalcea hirtipes (Malvaceae). II. Floral traits. International Journal of Plant Sciences 164, 175–180.
Crossref | GoogleScholarGoogle Scholar | open url image1

Skey W (1872) Preliminary notes on the isolation of the bitter substance of the nut of the karaka tree (Corynocarpus laevigata). Transactions and Proceedings of the New Zealand Institute 4, 316–321. open url image1

Van Essen RA, Rapson GL (2005) Fruit size of karaka (Corynocarpus laevigatus) in relation to potential selection by Maori. New Zealand Botanical Society Newsletter 81, 13–16. open url image1

Wagstaff SJ, Dawson MI (2000) Classification, origin, and patterns of diversification of Corynocarpus (Corynocarpaceae) inferred from DNA sequences. Systematic Botany 25, 134–149.
Crossref | GoogleScholarGoogle Scholar | open url image1

Webb CJ (1979) Breeding systems and the evolution of dioecy in New Zealand apioid Umbelliferae. Evolution 33, 662–672.
Crossref | GoogleScholarGoogle Scholar | open url image1

Webb CJ (1999) Empirical studies: evolution and maintenance of dimorphic breeding systems. In ‘Gender and sexual dimorphism in flowering plants’. (Eds MA Geber, TE Dawson, LF Delph) pp. 61–95. (Springer: Berlin)

Webb CJ, Lloyd DG, Delph LF (1999) Gender dimorphism in indigenous New Zealand seed plants. New Zealand Journal of Botany 37, 119–130. open url image1

Yampolsky C, Yampolsky H (1922) Distribution of sex forms in the phanerogamic flora. Bibliotheca Genetica 3, 1–62. open url image1

Zhang L-B, Simmons MP, Kocyan A, Renner SS (2006) Phylogeny of the Curcurbitales based on DNA sequences of nine loci from three genomes: implications for morphological and sexual system evolution. Molecular Phylogenetics and Evolution 39, 305–322.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1