Characterization of the fungal genus Sphaerellopsis associated with rust fungi: species diversity, host-specificity, biogeography, and in-vitro mycoparasitic events of S. macroconidialis on the southern corn rust, Puccinia polysora. [PDF]
IMA FungusGómez-Zapata PA +4 more
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A Comprehensive Review of Climate Change and Plant Diseases in Brazil. [PDF]
Plants (Basel)Angelotti F, Hamada E, Bettiol W.
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First Report of Rust Caused by Tranzschelia discolor on Peach Leaves in Shenzhou, China
Plant Disease, 2023Peach (Prunus persica [L.] Batsch) as an economically important fruit tree is widely cultivated in Shenzhou, China. In September 2021, peach rust was observed in the peach tree in Shenzhou City, Hebei Province (lat. 38°02'56'' N, long. 115°54'57'' E, altitude 22 m).
Xinkang Sun +9 more
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Susceptibility of almond cultivars to Tranzschelia discolor
Australasian Plant Pathology, 2013The susceptibility of 34 almond cultivars to rust [Transchelia discolor] was evaluated over a period of 4 years at two locations in South Australia on naturally and artificially inoculated trees. Cultivar tolerance to rust was measured by leaf area infection, uredia density or defoliation.
Andrew Horsfield, Trevor Wicks
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Host range of plum anemone rust, Tranzschelia discolor
Transactions of the British Mycological Society, 1983Aeciospores of Tranzschelia discolor from anemone were inoculated onto Prunus amygdalus, P. cerasifera, P. domestica ssp. domestica, P. domestica ssp. insititia and P. spinosa. Urediniospores developed only on the two subspecies of P. domestica. Cross-inoculations with urediniospores from each of these sub-species failed to infect the other Prunus ...
Christine A. Linfield, D. Price
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Factors affecting uredospore production and dispersal in Tranzschelia discolor
Australian Journal of Agricultural Research, 1970Uredosori of Tranzschelia discolor mature on infected twigs of susceptible peach varieties in July and uredospores are produced at a diminishing rate throughout most of the following growing season. Dry liberation of uredospores from sori on leaves occurs at a rate which increases logarithmically with the wind speed.
MV Carter, WJ Moller, SM Pady
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A severe outbreak of rust disease was observed on Prunus species, P. persica (peach), P. persica var. nectarina (nectarine), and P. salicina (Japanese plum) cultivated in northern Thailand in the rainy season. Previous reports have identified the causal agents as Tranzschelia discolor and T.
Pitaksin Chitta +3 more
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Tranzschelia pruni-spinosae var. discolor . [Descriptions of Fungi and Bacteria].
Descriptions of Fungi and Bacteria, 1971Abstract A description is provided for Tranzschelia pruni-spinosae var. discolor . Information is included on the disease caused by the organism, its transmission, geographical distribution, and hosts. HOSTS: Pycnia and aecia systemic on Anemone coronaria (florists' anemone), uredia
null UK, CAB International +2 more
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Corrigendum - Factors affecting uredospore production and dispersal in Tranzschelia discolor
Australian Journal of Agricultural Research, 1970Uredosori of Tranzschelia discolor mature on infected twigs of susceptible peach varieties in July and uredospores are produced at a diminishing rate throughout most of the following growing season. Dry liberation of uredospores from sori on leaves occurs at a rate which increases logarithmically with the wind speed.
MV Carter, WJ Moller, SM Pady
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Sources of primary inoculum ofTranzschelia discolorin Australian almond orchards
Australasian Plant Pathology, 2010Sources of primary inoculum of almond rust (Tranzschelia discolor) were investigated. Retained leaves, fruit not removed during harvest, leaf litter on soil and green or lignified shoots were monitored for viable urediniospores between harvest and the emergence of new leaves.
Andrew Horsfield, Trevor Wicks
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