Kylie Wenham scite author profile

Kylie Wenham

2Publications

1Citation Statement Received

220Citation Statements Given

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Agriculture and Food

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Investigation into the emerging soil borne disease of peanut – Neocosmospora root rot

Wenham¹

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Neocosmospora root rot is an emerging soilborne disease of peanut (Arachis hypogaea L.) crops in Australia caused by Neocosmospora vasinfecta var. africana. The fungal pathogen was first identified in southern Queensland in 2005 following extensive damage to an irrigated peanut crop, and has since been found in all peanut growing areas in Queensland and New South Wales. Typical symptoms of the disease include extensive chlorosis and wilting of the plant starting from the main stem, and a blackened and decayed root system with reddish-orange perithecia of N. vasinfecta present on necrotic tissue of the main tap root and lateral root system as well as the pods. While the disease has been widely observed in agricultural production areas of Australia and is considered one of the most destructive pathogens of peanut, the biology, ecology and aetiology of N. vasinfecta is largely unknown therefore the biotic and abiotic factors that may influence the infectivity of the pathogen and severity of disease epidemics have not been identified. The purpose of this thesis is to investigate the biology, ecology and aetiology of N. vasinfecta var. africana and understand how these factors may contribute to the pathogenicity of the fungus.Due to limited knowledge of the biology of N. vasinfecta var. africana, a morphological and molecular approach was taken to determine the taxonomic identification and the morphological characteristics of the pathogen. The results of the morphological analysis of isolates collected from a range of peanut growing areas in Queensland identified the fungus to the species level as Neocosmospora vasinfecta. Further morphological analysis of the ascospores confirmed the characteristics of the ascospores to be consistent with the morphological description for the variety africana. Morphological analysis of isolates collected from peanut crops in Georgia were also consistent with N. vasinfecta however a MegaBlast search revealed the species variety to be vasinfecta which may account for the difference in pathogenicity seen between the two countries.Neocosmospora root rot has been identified in all peanut growing areas in Australia, however outbreaks of the disease have been sporadic and contained to isolated areas of peanut crops. An investigation into the behaviour of N. vasinfecta var. africana concluded that the fungus is likely to originate from foci of infected plants where soil inoculum is high and environmental conditions are conducive to infection, and is spread to neighbouring plants. N. vasinfecta var. africana has been identified as the most prevalent fungi isolated where plants have exhibited symptoms such as wilting, chlorosis, plant death and root decay, and therefore is considered to be a primary pathogen. There is the potential for N. vasinfecta var. africana to infect plants in conjunction with other pathogens such as peanut Tospovirus, which was evidenced by the presence of Tobacco Streak Virus (TSV) in the roots of peanut plants exhibiting symptoms of Neocosmospora root rot. Perithecia ...

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Genotypic Variation in Biomass Produced Is Linked to Differences in Radiation Acquisition in Mungbean

Geetika

Rachaputi

Collins

et al. 2019

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Mungbean has become an important cash and legume rotation crop in the Australian Northern Grains region. Thus, it is necessary to narrow the gap between potential productivity and actual production by understanding the crop physiological attributes contributing to the acquisition of radiation, and it’s conversion into total biomass. A field experiment was conducted at Gatton, during 2018-19 summer season, growing two commercial varieties of mungbean; Jade-AU and Satin II under irrigated conditions. The varieties were planted at 0.5m and 1.0m row spacing and different plant densities. Weekly biomass cuts were taken from a square meter and separated into its components. The area of a green leaf sub-sample was used to compute the leaf area of the canopy. Weekly Ceptometer measurements were taken above and below the canopy at noon on clear, sunny days to obtain a measure of Fraction of radiation interception (Fi). Total shoot dry matter (TDM), pod dry mater (PDM) and leaf area index (LAI) was investigated. There was a significant effect of canopy density on Fi. There was no significant difference in total dry matter between the two varieties, however, there was a highly significant effect of canopy density on TDM. . A highly significant variation in LAI amongst the two varieties and across canopy densities, with Satin II having a higher mean LAI compared to Jade-AU. There was significant effect of canopy density on PDM. Our data indicate variation in dry matter production across canopy densities and there is a need to examine varietal differences in radiation use efficiency which may provide better understanding of hot the captured radiation is utilized in biomass production in mungbean.

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Kylie Wenham

Investigation into the emerging soil borne disease of peanut – Neocosmospora root rot

Genotypic Variation in Biomass Produced Is Linked to Differences in Radiation Acquisition in Mungbean

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