Register      Login
Crop and Pasture Science Crop and Pasture Science Society
Plant sciences, sustainable farming systems and food quality
Shopping Cart: ( empty )
You are here: Home > Journals > CP > AR06274
RESEARCH ARTICLE
Contents Vol 58(7)

Differences in zoospore germination and host penetration in response to temperature among Western Australian isolates of Plasmopara viticola

M. G. Williams A C , P. A. Magarey B and K. Sivasithamparam A
+ Author Affiliations
- Author Affiliations

A Plant Pathology Group, Soil Science Discipline, Faculty of Natural and Agricultural Sciences, School of Earth and Geographical Sciences, The University of Western Australia, 35 Stirling Hwy, Crawley, WA 6009, Australia.

B South Australian Research and Development Institute, GPO Box 411, Loxton, SA 5333, Australia.

C Corresponding author. Email: mia.williams@curtin.edu.au

Australian Journal of Agricultural Research 58(7) 702-710 https://doi.org/10.1071/AR06274
Submitted: 22 August 2006  Accepted: 26 March 2007   Published: 26 July 2007

Abstract

Plasmopara viticola, causal agent of grape downy mildew, was first detected in Western Australia (WA) in widespread commercial viticulture in the Swan Valley (–31.85 S, 116.02 E) in 1998. It has since been found in all viticultural areas in WA, which extend from the far north (–15.75 S, 128.74 E) to the far south (–35.02 S, 117.80 E) of the state across a diverse range of climate zones. Not all of these zones are considered conducive for the development of grape downy mildew. The early infection behaviour of P. viticola isolates, obtained from climatically different grape-growing locations, was examined under different temperatures of incubation (10, 20, and 30°C). Variation in early infection behaviour was used to discern ecotypes of the pathogen. Ten isolates were obtained from WA and 8 of these responded similarly. Three isolates obtained from the east of Australia and used as comparisons in the study behaved similarly to most of the WA isolates. Zoospore germination and host penetration occurred at 10 and 20°C for all isolates. None of the isolates penetrated the host at 30°C. Only 2 isolates, from WA, germinated at 30°C. The early infection behaviour of most of the P. viticola isolates examined in this study appears to be reasonably analogous, despite the influence of varied local environmental conditions. The capacity of certain isolates to germinate under a wider spectrum of temperatures could be indicative of ecotypic specialisation. Such behaviour could confer advantage for the pathogen in viticultural regions that experience high temperatures throughout the growing season.

Additional keywords: adaptation, evolution, Oomycete, selection, survival.


Acknowledgments

The authors thank Mr Peter Wood and Mr Colin Gordon (Department of Agriculture and Food Western Australia, Perth, WA), Dr Ian Dry (CSIRO, Plant Industry, Adelaide, SA), Dr Michael Fuhlbohm (Department of Primary Industries and Fisheries, Kingaroy, Qld), and Mr Tom Wisdom (Selwyn Viticultural Services, Jindong, WA) for providing samples of grapevine leaves infected with Plasmopara viticola.


References


Australian Bureau of Meteorology (2007) Climate zone maps. www.bom.gov.au/cgi-bin/climate/cgi_bin_scripts/clim_classification.cgi

Australian Wine and Brandy Corporation (2007) Wine regions. www.wineaustralia.com/Australia/Default.aspx?tabid=171

Blaeser M, Weltzein HC (1977) Investigation of the infection of grapevine with Plasmopara viticola in relation to leaf wetness. Mededelingen-Faculteit Landbouwwetenschappen. Rijksuniversiteit Gent. 42, 967–976. open url image1

Bonman JM (1992) Foliar diseases—Blast. In ‘Compendium of rice diseases’. (Eds RK Webster, PS Gunnell) pp. 14–17. (The American Phytopathological Society: St Paul, MN)

de Castella F (1917) Notes on downy mildew (Plasmopara viticola, B. and de T.). Journal of Agriculture Victoria 15, 685–700. open url image1

Dry PR , Smart RE (1998) The grape-growing regions of Australia. In ‘Viticulture, Vol. 1, Resources’. (Eds BG Coombe, PR Dry) pp. 37–60. (Winetitles: Adelaide, S. Aust.)

Emmett RW , Harris AR , Taylor RH , McGechan JK (1998) Grape diseases and vineyard protection. In ‘Viticulture, Vol. 2: Practices’. (Eds BG Coombe, PR Dry) pp. 232–278. (Winetitles: Adelaide, S. Aust.)

Emmett RW , Wicks TJ , Magarey PA (1992) Downy mildew of grapes. In ‘Diseases of fruit crops, Vol. 3: Plant diseases of international importance’. (Eds J Kumar, HS Chaube, US Singh, AN Mukhopadhyay) pp. 90–128. (Prentice Hall: Englewoood Cliffs, NJ)

Galet P (1977) ‘Les maladies et les parasites de la vigne.’ (Imprimerie du Paysan du Midi: Montpellier, France)

Gladstones JG (1999) ‘Viticulture and environment.’ (Winetitles: Adelaide, S. Aust.)

Gobbin D, Jermini M, Loskill B, Pertot I, Raynal M, Gessler C (2005) Importance of secondary inoculum of Plasmopara viticola to epidemics of grapevine downy mildew. Plant Pathology 54, 522–534.
Crossref | GoogleScholarGoogle Scholar | open url image1

Gobbin D, Pertot I, Gessler C (2003a) Genetic structure of a Plasmopara viticola population in an isolated Italian mountain vineyard. Journal of Phytopathology 151, 636–646.
Crossref | GoogleScholarGoogle Scholar | open url image1

Gobbin D, Pertot I, Gessler C (2003b) Identification of microsatellite markers for Plasmopara viticola and establishment of high throughput method for SSR analysis. European Journal of Plant Pathology 109, 153–164.
Crossref | GoogleScholarGoogle Scholar | open url image1

Gregory CT (1915) Studies on Plasmopara viticola (downey mildew of grapes). In ‘The official report of the session of the International Congress of Viticulture’. San Francisco, CA. pp. 126–150. www.archive.org/details/officialreportof00interich

Kast WK (1996) About genetic host-parasite interactions between Plasmopara viticola and resistant hybrid varieties. In ‘Understanding the genetic basis for grape and wine production. Proceedings for the 4th International Symposium on Cool Climate Viticulture and Enology’. Rochester, New York. (Eds T Henick-Kling, TK Wolf, EM Harkness) pp. 42–44. (Communications Services, New York State Experiment Station: Geneva, New York)

Kast WK, Stark-Urnau M, Seidel M, Gemmrich AR (2000) Inter-isolate variation of virulence of Plasmopara viticola on resistant vine varieties. Mitteilungen Klosterneuburg 50, 38–42. open url image1

Kortekamp A (2003) Leaf surface topography does not mediate tactic response of Plasmopara-zoospores to stomata. Journal of Applied Botany 77, 41–46. open url image1

Laffer HE (1918) Diseases of the vine. Downy mildew (Plasmopara viticola). Agricultural Gazette of NSW 29, 581–584. open url image1

Lafon R , Clerjeau M (1988) Fruit and foliar diseases caused by fungi. In ‘Compendium of grape diseases’. (Eds RC Pearson, AC Goheen) pp. 11–13. (APS Press: St Paul, MN)

Langcake P, Lovell PA (1980) Light and electron microscopical studies of the infection of Vitis spp. by Plasmopara viticola, the downy mildew pathogen. Vitis 19, 321–337. open url image1

Magarey PA, Wachtel MF, Weir PC, Seem RC (1991) A computer-based simulator for rational management of grapevine downy mildew (Plasmopara viticola). Plant Protection Quarterly 6, 29–33. open url image1

McKirdy SJ, Riley IT, Cameron IJ (1999) First report of grapevine downy mildew (Plasmopara viticola) in commercial viticulture in Western Australia. Plant Disease 83, 301.
Crossref | GoogleScholarGoogle Scholar | open url image1

McLean GD , Magarey PA , Wachtel MF , Dry PR (1984) A climatic evaluation of the question: could grapevine downy mildew develop in Western Australia? In ‘Proceedings of the 5th Australian Wine Industry Technical Conference’. Perth, Western Australia. (Eds TH Lee, TC Somers) pp. 249–260. (The Australian Wine Research Institute: Adelaide, S. Aust.)

Mullins MG , Bouquet A , Williams LE (1992) ‘Biology of the grapevine.’ (Cambridge University Press: Cambridge, UK)

Rafaila C, Sevcenco V, David Z (1968) Contributions to the biology of Plasmopara viticola. Phytopathologische Zeitschrift 63, 328–336. open url image1

Reuveni M (1998) Relationships between leaf age, peroxidase and beta-1,3-glucanase activity, and resistance to downy mildew in grapevines. Journal of Phytopathology 146, 525–530. open url image1

Royle DJ, Thomas CG (1973) Factors affecting zoospore responses towards stomata in hop downy mildew (Pseudoperonospora humuli) including some comparisons with grapevine downy mildew (Plasmopara viticola). Physiological Plant Pathology 3, 405–417. open url image1

Rumbou A, Gessler C (2004) Genetic dissection of Plasmopara viticola from a Greek vineyard in two consecutive years. European Journal of Plant Pathology 110, 379–392.
Crossref | GoogleScholarGoogle Scholar | open url image1

Shurtleff MC , Averre CW (1997) ‘Glossary of plant-pathological terms.’ (APS Press: St Paul, MN)

Sivasithamparam K (1993) Ecology of root infecting fungi in Mediterranean environments. Advances in Plant Pathology 10, 245–280. open url image1

Stark-Urnau M, Seidel M, Kast WK, Gemmrich AR (2000) Studies on the genetic diversity of primary and secondary infections of Plasmopara viticola using RAPD/PCR. Vitis 39, 163–166. open url image1

Viennot-Bourgin G (1981) History and importance of downy mildews. In ‘The downy mildews’. (Ed. DM Spencer) pp. 1–15. (Academic Press: London, UK)

Weltzein HC (1981) Geographical distribution of downy mildews. In ‘The downy mildews’. (Ed. DM Spencer) pp. 31–43. (Academic Press: London, UK)

Williams MG (2005) Impact of environmental conditions on the infection behaviour of Western Australian strains of Plasmopara viticola, causal agent of downy mildew in grapevines. PhD thesis, The University of Western Australia, Australia.

Wong FP, Burr HN, Wilcox WF (2001) Heterothallism in Plasmopara viticola. Plant Pathology 50, 427–432.
Crossref | GoogleScholarGoogle Scholar | open url image1