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RESEARCH ARTICLE

Pollen fertility and berry setting behaviour of the grape variety Carina

S. M. Liu A B , S. R. Sykes A C and P. R. Clingeleffer A
+ Author Affiliations
- Author Affiliations

A CSIRO Plant Industry, Horticulture Unit, PMB, Merbein, Vic. 3505, Australia.

B Present address: CSIRO Plant Industry, Cotton Research Unit, Locked Bag 59, Narrabri, NSW 2390, Australia.

C Corresponding author. Email: steve.sykes@csiro.au

Australian Journal of Experimental Agriculture 47(7) 877-882 https://doi.org/10.1071/EA07038
Submitted: 5 January 2007  Accepted: 4 February 2007   Published: 2 July 2007

Abstract

Carina is a significant grape variety grown in Australia to produce dried currants. Its yield and fruit quality are restricted by pollination; however, this can be improved by the judicious use of hormone-based setting sprays. Male fertility and seedless berry set in Carina were investigated by examining pollen viability, the effect of self- and cross-pollination on berry set and in ovulo embryo recovery in comparison with two pollen sterile varieties, Hunisa and Kishmishi. Carina pollen failed to germinate in vitro and gave poor berry set when used to pollinate Hunisa and Kishmishi. Percentage berry set in Carina was unaffected by pollination treatments, but cross-pollination increased berry size. Larger seed traces (>1.2 mm in length) were present in most cross-pollinated Carina berries and their size and number were correlated positively with berry size. In ovulo embryo recovery rates ranged from 19.7 to 49.0% and 6.8 to 13.6% for cross-pollinated combinations of Carina when ovules were cultured at 50 and 75 days after pollination, respectively. In contrast, embryo recovery was zero from self-pollinated ovules. The results indicated that Carina produces sterile or non-functional pollen and is capable of setting seedless fruits through either parthenocarpy and/or stenospermocarpy.


Acknowledgements

We wish to acknowledge funding support for this research provided by CSIRO’s Food into Asia initiative and Horticulture Australia Limited. In addition, we thank Australian table grape growers for voluntary funds, which also supported this investigation.


References


Antcliff AJ (1975) Four new grape varieties released for testing. Journal of the Australian Institute of Agricultural Sciences 41, 262–264. open url image1

Antcliff AJ (1981) Merbein Seedless: a new white seedless grape for drying. Journal of the Australian Institute of Agricultural Sciences 47, 167–168. open url image1

Australian Dried Fruits Association Inc. (1998) ‘ADFA dried vine fruit manual: a production guide for quality dried vine fruit.’ (ADFA Inc.: Mildura)

Bouquet A, Davis HP (1989) In-vitro ovule and embryo culture for breeding seedless table grapes (Vitis vinifera L.). Agronomie 9, 565–574.
Crossref |
open url image1

Carmer SG, Walker MA (1982) Baby bear’s dilemma: a statistical tale. Agronomy Journal 74, 122–124. open url image1

Ebadi A, May P, Coombe BG (1996) Effect of short-term temperature and shading on fruit-set, seed and berry development in model vines of V. vinifera, cvs Chardonnay and Shiraz. Australian Journal of Grape and Wine Research 2, 2–9. open url image1

Fisher RA (1951) ‘The design of experiments.’ 6th edn. (Longman: New York)

Lavee S , Nir G (1986) Grape. In ‘CRC handbook of fruit set and development’. (Ed. SP Monselise) pp. 167–191. (CRC Press Inc.: Boca Raton, FL)

Liu SM, Sykes SR, Clingeleffer PR (2003) Improved in-ovulo embryo rescue for stenospermocarpic grapes (Vitis vinifera L.). Australian Journal of Agricultural Research 54, 869–876.
Crossref | GoogleScholarGoogle Scholar | open url image1

Olmo HP (1937) Pollination and the setting of fruit in the Black Corinth grape. Proceedings of the American Society of Horticulture Sciences 34, 402–440. open url image1

Payne RW (2000) ‘The guide to GenStat. Part 2: statistics.’ (VSN International Ltd.: Oxford)

Pearson HM (1932) Parthenocarpy and seed abortion in Vitis vinifera. Proceedings of the American Society of Horticulture Sciences 29, 169–175. open url image1

Penman F , Taylor JK , Hooper PD , Marshall TJ (1939) A soil survey of the Merbein irrigation district, Victoria. Council for Scientific and Industrial Research, Bulletin No. 123.

Pratt C (1971) Reproductive anatomy in cultivated grapes – a review. American Journal of Enology and Viticulture 22, 92–109. open url image1

Sokal RR , Rohlf FJ (1981) ‘Biometry: the principles and practices of statistics in biological research.’ (W. H. Freeman & Company: San Francisco)

Stout AB (1936) Seedlessness in grapes. New York State Agricultural Experiment Station, Technical Bulletin No. 238.

Weaver RJ (1976) ‘Grape growing.’ (John Wiley and Sons Inc.: New York)

Winkler AJ , Cook JA , Kliewer WM , Lider LA (1974) ‘General viticulture.’ (University of California Press: Berkeley)