W. F. T. Hartill scite author profile

Species of Colletotrichum, Botryosphaeria, and Phomopsis causing postharvest rots in avocado (Persea americana Miller) fruits are present in the living and dead branches and twigs of avocado trees, and in the living pedicels. They dominate the fungal population within the extra-cambial tissues but are less common within the xylem elements. There is no evidence that invasion of these tissues is pathogenic. With the possible exception of C. gloeosporioides they appear to be discontinuously present and are more properly termed phellophytes rather than endophytes. There was a higher incidence of stem-end rots than of body rots in untreated (control) 'Hass' avocados in New Zealand experiments and most of these stem-end rots were associated with B. parva and Phomopsis spp. A high proportion of stem-end infections appeared to be initiated during harvesting. Picking the fruit by snapping the pedicels instead of clipping, as in commercial practice, resulted in an unusually high level of stem-end rots caused by C. acutatum. Frequently sterilising the clippers used to harvest the fruits reduced the incidence of stem-end infections, in particular those caused by B. parva, indicating that contamination of the clippers is an important source of infection. It is suggested that this contamination is probably present as fragments of infected extracambial tissue.

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Development in New Zealand of resistance to dicarboximide fungicides inBotrytis cinerea, to acylalinines inPhytophthora infestans, and to guazatine inPenicillium italicum

Hartill

Tompkins

Kleinsman

1983

New Zealand Journal of Agricultural Research

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Aerobiology ofSclerotinia sclerotiorumandBotrytis cinereaspores in New Zealand tobacco crops

Hartill

1980

New Zealand Journal of Agricultural Research

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The seasonal abundance of ascos'pore~of Sclerotinia sclerotiorum (Lib.) de Bary m the au depended~n ramfall rnotstenmg the soil sufficiently for apothecia to devt:l~p. No otherclimatic factors were found to be related to the trapping pattern.Conidia of Botrytis ctnerea Pers, ex Fr. were released in large numbers if the preVIOUS day was calm and the night wal"Ill;, or when rain was falling. Few conidia wer~released~t night unless ram was falhng. Ascospores of S. sclerotiorum and conidia of B. ctnerea both showed markedly diurnal distribution patterns.

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Effects of temperature and leaf wetness on the potato late blight

Hartill¹,

Young²,

Allan³

et al. 1990

New Zealand Journal of Crop and Horticultural Science

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The time required for potato late blight lesions, caused by Phytophthora infestans (Mont.) de Bary, to produce sporangia during periods of continuous leaf wetness, and for inoculations to produce lesions bearing sporangia, was determined over a temperature range of 5-24°C. Equations were derived relating time to sporulate with temperature. A 2-h break in leaf wetness, initiated at any time within the first 3 h of incubation after inoculation, markedly reduced lesion numbers. When the break was initiated later it had less effect, except at the lowest temperature tested (9°C).

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W. F. T. Hartill

Post-harvest diseases of avocado fruits in New Zealand

Inoculum sources and infection pathways of pathogens causing stem‐end rots of ‘Hass’ avocado(PerseaAmericana)

Development in New Zealand of resistance to dicarboximide fungicides inBotrytis cinerea, to acylalinines inPhytophthora infestans, and to guazatine inPenicillium italicum

Aerobiology ofSclerotinia sclerotiorumandBotrytis cinereaspores in New Zealand tobacco crops

Effects of temperature and leaf wetness on the potato late blight

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