Victor Galea | The University of Queensland, Australia (original) (raw)
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Papers by Victor Galea
Rangeland Journal, Dec 19, 2022
Transactions of the British Mycological Society, 1988
... sections of leaf material infected with M. panattonianum was similar to those observed by Mol... more ... sections of leaf material infected with M. panattonianum was similar to those observed by Moline & Pollack (1976) and Marte & Cappelli ... We thank Fred Daniels for technical advice, Max Ellis and Graeme Henstridge for constructing the special equipment used in these studies ...
Plant Pathology, Mar 1, 1988
Soils from anthracnose‐infected lettuce fields at Keilor, Werribee South and La Trobe University ... more Soils from anthracnose‐infected lettuce fields at Keilor, Werribee South and La Trobe University caused lesions of Microdochium panattonianum to develop when inoculated on to lettuce leaves. Under field conditions conidia lost infectivity within 10 weeks in pasteurized and 6 weeks in non‐pasteurized Werribee South soil, 2 weeks in Keilor red and immediately in Keilor black non‐pasteurized soils. Soils remained infective for 18 weeks in non‐pasteurized and pasteurized Werribee South soils inoculated with conidia and for Hand 16 weeks respectively when the same soils were inoculated with infected leaf discs.In 1983 and 1984 M. panattonianum survived for 14 and 16 weeks respectively on infected Cos Verdi debris on the soil surface, for 10 and 20 weeks respectively on debris buried at 10 cm depth and for 70 and 58 weeks respectively on debris suspended in the air. The fungus survived for similar periods on infected Winterlake debris on the soil surface and buried at 10 cm depth. In soil the decline of infectivity was primarily influenced by duration of exposure and soil moisture, and in debris by duration of exposure and rainfall that occurred over the 2 weeks preceding each sample. The disease was not transmitted on seed produced on infected plants. Seedlings grown from healthy seed inoculated with conidia did not develop anthracnose after the seed had been stored for 24 days at 5 or 20°C. The significance of these results to the management of lettuce anthracnose in Victoria is discussed.
Photochemistry and Photobiology, Aug 1, 1996
15th Australian Weeds Conference, Papers and Proceedings, Adelaide, South Australia, 24-28 September 2006: Managing weeds in a changing climate., 2006
Australasian Plant Pathology, 1994
Australasian Plant Pathology, 1987
Phytopathology, Sep 1, 2017
Rangeland Journal, Dec 19, 2022
Transactions of the British Mycological Society, 1988
... sections of leaf material infected with M. panattonianum was similar to those observed by Mol... more ... sections of leaf material infected with M. panattonianum was similar to those observed by Moline & Pollack (1976) and Marte & Cappelli ... We thank Fred Daniels for technical advice, Max Ellis and Graeme Henstridge for constructing the special equipment used in these studies ...
Plant Pathology, Mar 1, 1988
Soils from anthracnose‐infected lettuce fields at Keilor, Werribee South and La Trobe University ... more Soils from anthracnose‐infected lettuce fields at Keilor, Werribee South and La Trobe University caused lesions of Microdochium panattonianum to develop when inoculated on to lettuce leaves. Under field conditions conidia lost infectivity within 10 weeks in pasteurized and 6 weeks in non‐pasteurized Werribee South soil, 2 weeks in Keilor red and immediately in Keilor black non‐pasteurized soils. Soils remained infective for 18 weeks in non‐pasteurized and pasteurized Werribee South soils inoculated with conidia and for Hand 16 weeks respectively when the same soils were inoculated with infected leaf discs.In 1983 and 1984 M. panattonianum survived for 14 and 16 weeks respectively on infected Cos Verdi debris on the soil surface, for 10 and 20 weeks respectively on debris buried at 10 cm depth and for 70 and 58 weeks respectively on debris suspended in the air. The fungus survived for similar periods on infected Winterlake debris on the soil surface and buried at 10 cm depth. In soil the decline of infectivity was primarily influenced by duration of exposure and soil moisture, and in debris by duration of exposure and rainfall that occurred over the 2 weeks preceding each sample. The disease was not transmitted on seed produced on infected plants. Seedlings grown from healthy seed inoculated with conidia did not develop anthracnose after the seed had been stored for 24 days at 5 or 20°C. The significance of these results to the management of lettuce anthracnose in Victoria is discussed.
Photochemistry and Photobiology, Aug 1, 1996
15th Australian Weeds Conference, Papers and Proceedings, Adelaide, South Australia, 24-28 September 2006: Managing weeds in a changing climate., 2006
Australasian Plant Pathology, 1994
Australasian Plant Pathology, 1987
Phytopathology, Sep 1, 2017