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K. Tynan, C. Wilkinson, J. Holmes, B. Dell, I. Colquhoun, J. McComb, G. Hardy (2001)
The long-term ability of phosphite to control Phytophthora cinnamomi in two native plant communities of Western AustraliaAustralian Journal of Botany, 49
G. Weste (1997)
The changing status of disease caused by Phytophthora cinnamomi in Victorian open forests, woodlands and heathlandsAustralasian Plant Pathology, 26
M. Kellam, M. Coffey (1985)
Quantitative comparison of the resistance to phytophthora root rot in three avocado rootstocksPhytopathology, 75
B. Wilson, J. Aberton, D. Cahill (2000)
Relationships between site factors and distribution of Phytophthora cinnamomi in the Eastern Otway Ranges, Victoria.Australian Journal of Botany, 48
G. Weste, C. Law (1973)
The Invasion of Native Forest by Phytophthora cinnamomi. III. Threat to the National Park, Wilson's Promontory, VictoriaAustralian Journal of Botany, 21
G. Weste (2003)
The dieback cycle in Victorian forests: a 30-year study of changes caused by Phytophthora cinnamomi in Victorian open forests, woodlands and heathlandsAustralasian Plant Pathology, 32
M. Aberton, B. Wilson, J. Hill, D. Cahill (2001)
Development of disease caused by Phytophthora cinnamomi in mature Xanthorrhoea australisAustralian Journal of Botany, 49
G. Weste (1975)
The distribution of Phytophthora cinnamomi within the National Park, Wilson's Promontory, Victoria.Australian Journal of Botany, 23
J. Kennedy, G. Weste (1986)
Vegetation changes associated with invasion by Phytophthora cinnamomi on monitored sites in the Grampians, Western AustraliaAustralian Journal of Botany, 34
G Weste (2003)
A 30 year study of the changes caused by Phytophthora cinnamomi in Victorian open forests, woodlands and heathlandsAustralasian Plant Pathology, 32
D. Cahill, I. Bennett, J. McComb (1992)
Resistance of micropropagated Eucalyptus marginata to Phytophthora cinnamomiPlant Disease, 76
D. Cahill, N. Legge, B. Grant, G. Weste (1989)
Cellular and histological changes induced by Phytophthora cinnamomi in a group of plant species ranging from fully susceptible to fully resistantPhytopathology, 79
D. Cahill, C. Harding, J. OMay, B. Wilson (2002)
Assessment of guidelines for best practice management of phytophthora cinnamomi in parks and reserves across Victoria
G. Weste (1981)
Changes in the Vegetation of Sclerophyll Shrubby Woodland Associated With Invasion by Phytophthora cinnamomiAustralian Journal of Botany, 29
L. Robinson, D. Cahill (2003)
Ecotypic variation in the response of Arabidopsis thaliana to Phytophthora cinnamomiAustralasian Plant Pathology, 32
G. Weste (1987)
THE BIOLOGY OF PHYTOPHTHORA CINNAMOMI IN AUSTRALASIAN FORESTSAnnual Review of Phytopathology, 25
M. Aberton, B. Wilson, D. Cahill (1999)
The use of potassium phosphonate to control Phytophthora cinnamomi in native vegetation at Anglesea, VictoriaAustralasian Plant Pathology, 28
M. Gibson, R. Milne, D. Cahill, B. Wilson (2002)
Preliminary review of the actual and potential distribution of Phytophthora cinnamomi dieback in parks and reserves across Victoria
G. Marks, F. Kassaby (1972)
Detection of Phytophthora cinnamomi in SoilsAustralian Forestry, 36
The extent of disease caused by Phytophthora cinnamomi was determined within vegetation communities of Wilsons Promontory National Park. Aerial survey of visible symptoms by helicopter and systematic survey along all roads and tracks followed by isolation of the pathogen from soil found that in total 551 ha of moist foothill forest, heath and heathy woodland broad vegetation types were affected by the disease. P. cinnamomi was isolated from 93% of sites that, based on the presence of visible symptoms, were expected to yield the pathogen. The species-rich heathy woodland was most affected with 6.5% of the total area of this type showing symptoms of disease. The size of infestation ranged from 229 ha on the slopes of the Vereker Range in the north to less than 1 ha along the Sealers Cove Walking Track in the south. The potential for disease to spread into uninfested vegetation was estimated for all sites from which P. cinnamomi was isolated. Eight of 18 sites where evidence of disease was found were estimated to have a high potential for further disease spread. This study indicates that even though the disease may be waning in some areas of the Park, the pathogen is active and easily isolated from others and provides a continuing threat to susceptible vegetation communities.
Australasian Plant Pathology – Springer Journals
Published: Jan 27, 2011
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