L. V. Gunn scite author profile

We studied the behaviour of tomato mosaic tobamovirus (ToMV) in a recirculating nutrient solution. Particles of tomato mosaic virus were found in the nutrient solution 3 days after leaf inoculation of plants and we demonstrated that the level could increase to a concentration readily detectable by electron microscopy. Virions remained infective in nutrient solution for at least 6 months, could infect bait plants and induced systemic symptoms within 10 days. This is the first report of measurement of infective virions in recirculating nutrient solutions. Hydroponic producers should be aware of the potential for rapid spread of virus diseases in soilless growing systems as one infected plant can serve as a source of inoculum that can ultimately result in an epidemic.

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Detection of double‐stranded RNA and virus‐like particles in Australian isolates of Pythium irregulare

Gillings¹,

Tesoriero²,

Gunn³

1993

Plant Pathology

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Mycelial extracts of Pythium irregulare were processed using CF-11 chromatography and analysed by gel electrophoresis for double-stranded RNA (dsRNA) content. DsRNA molecules of between 1 and 6 kb were found in 33 of 39 isolates tested. The dsRNA profiles of individual isolates remained unchanged after repeated subculturing of hyphal tips, after storage under water for 2 years, or when single zoospores were used to generate subcultures. However, dsRNA profiles varied between isolates, and even within individual populations; in the one case eight different dsRNA types were recovered upon testing 17 isolates from a single wheatfield. Isometric virus-like particles (VLPs) of approximately 45 nm were found in isolates containing dsRNA, while no such particles could be found in isolates in which dsRNA was not detected. Electrophoretic profiles of dsRNA extracted from partial purifications of VLPs were identical to those of dsRNA extracted from whole mycelium, suggesting that the dsRNA is at least partially encapsidated. Attempts to transmit dsRNA between isolates by hyphal anastomosis or by coinfection in wheat plants were unsuccessful, with only parental types being recovered. Analysis of 29 isolates representing 14 other Pythium species failed to detect dsRNA, even when co-isolated with P. irregulare known lo contain dsRNA

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The Role of Infective Plant Debris, and its Concentration in Soil, in the Ecology of Tomato Mosaic Tobamovirus—a Non‐vectored Plant Virus

Pares

Gunn

Keskula

1996

Journal of Phytopathology

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Only a few plants in a crop are generally thought to become infected by abiotic soil transmission. In glasshouse experiments we have induced almost total infection in tomatoes growing in soil with infective debris, but levels of infection are dependent upon certain conditions. We found that as the inoculum concentration decreased (i) a greater percentage of the infections were either latent (symptomless) or restricted to roots and (ii) infection levels decreased. Thus, apparent infection (based on symptoms) of 0. 10% was in reality 0 60–70% based on enzyme‐linked immunosorbent assay and immunoelectron microscopy testing of roots and leaves. This occurred whether seedlings or seed were planted into infected mix. Under conditions in which minimal root damage was caused (planting seed) or roots were mechanically inoculated only once, almost all systemically infected plants were symptomless.

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The Role of Non‐Vectored Soil Transmission as a Primary Source of Infection by Pepper Mild Mottle and Cucumber Mosaic Viruses in Glasshouse‐Grown Capsicum in Australia

Pares¹,

Gunn²

1989

Journal of Phytopathology

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Virus disease limit glasshouse production of capsicums in the Supraysia District of New South Wales. Symptoms develop on plants about 4 weeks after planting; and up to 83° of plants are infected. The major virus is cucumber mosaic (CMV) with some pepper mild niottle (PMMV) also present. Evidence is presented to show that the primary source of intection of both viruses is most likely to be debris from previous crops remaining in the soil. It demonstrates a previously unconsi‐dered mechanism tor survival and spread of labile viruses such as CMV and the ecological ecological consequence of these results are considerable.

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Effect of potato physiology on the interpretation of ELISA results for potato leafroll virus

Gunn¹,

Pares²

1988

Plant Pathology

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This paper records the occurrence of an antigen produced in plants infected by potato leafroll virus (PLRV), which is copurified with the virus and induces an immune response in rabbits used for virus antiserum production. The antigen also appeared to be produced in uninfected but physiologically stressed potato plants. These plants reacted with antisera to PLRV in ELISA tests, thereby giving false positive results. We refer to the compound as virus‐stress antigen (VSA). The importance of this finding, not only to serological testing for PLRV, but also as a possible explanation for some false‐positive reactions that occur with other host‐virus combinations, is discussed. The necessity of having detailed information on plants from which samples are taken for testing is emphasized.

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L. V. Gunn

Tomato Mosaic Virus Infection in a Recirculating Nutrient Solution

Detection of double‐stranded RNA and virus‐like particles in Australian isolates of Pythium irregulare

The Role of Infective Plant Debris, and its Concentration in Soil, in the Ecology of Tomato Mosaic Tobamovirus—a Non‐vectored Plant Virus

The Role of Non‐Vectored Soil Transmission as a Primary Source of Infection by Pepper Mild Mottle and Cucumber Mosaic Viruses in Glasshouse‐Grown Capsicum in Australia

Effect of potato physiology on the interpretation of ELISA results for potato leafroll virus

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