Horticultural mineral oil treatments in nurseries during aphid flights reduce <i>Plum pox virus</i> incidence under different ecological conditions

Vidal, Eduardo; Zagrai, L.; Milusheva, S.; Bozhkova, V.; Tasheva‐Terzieva, Elena; Kamenova, I.; Zagrai, Ioan; Cambra, M.

doi:10.1111/aab.12022

Cited by 13 publications

(5 citation statements)

References 33 publications

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“…Infections starting with a completely random spatial pattern which finally reaches a uniform distribution in the orchard have also been reported (Varveri, ). The application of horticultural mineral oil has been shown to be an efficient control strategy to reduce PPV incidence in nursery plots (Vidal et al ., ).…”

Section: Epidemiology and Transmissionmentioning

confidence: 97%

Plum pox virus and sharka: a model potyvirus and a major disease

Garcı́a

Glasa

Cambra

et al. 2014

Molecular Plant Pathology

195

151

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A few natural sources of resistance to PPV have been found so far in Prunus species, which are being used in classical breeding programmes. Different genetic engineering approaches are being used to generate resistance to PPV, and a transgenic plum, 'HoneySweet', transformed with the viral CP gene, has demonstrated high resistance to PPV in field tests in several countries and has obtained regulatory approval in the USA.

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Section: Epidemiology and Transmissionmentioning

confidence: 97%

Plum pox virus and sharka: a model potyvirus and a major disease

Garcı́a

Glasa

Cambra

et al. 2014

Molecular Plant Pathology

195

151

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“…A few examples of other original contributions from the many published in the journal over the last 100 years relevant to the theme of plant virus ecology and epidemiology include:‐ Virus spread by aphid (Broadbent, ; Watson et al ., , ; Elnagar & Murant, ; Tatchell et al ., ); whitefly (Fargette et al ., ), leafhopper (Soleimani et al ., ), mite (Thresh, ), nematode (Harrison, ) and fungus (Rosner et al ., ) vectors; Virus spread by contact (McKirdy et al ., ); Seed transmission of nematode‐borne (Lister & Murant, ; Murant & Lister, ; Hanada & Harrison, 1977), aphid‐borne (Jones, 1988 b ; Jones & Proudlove, ), and contact‐transmitted viruses (Wroth & Jones, ); Weeds as virus reservoirs (Tomlinson et al ., ; Ramappa et al ., ; Pallett et al ., 2002); Virus or vector resistance deployment (Jones, ; Ferris et al ., ); Virus resistance breakdown (Pelham et al ., ; Thomas‐Carroll & Jones, ); Effects of cultural practices on spread of aphid‐borne viruses (Kendall et al ., ; Jones, , ; Difonzo et al ., ; Sauke & Doring, ); Control of aphid‐borne viruses by insecticides (Jones & Ferris, ) or mineral oil (Vidal et al ., ); Control of nematode‐borne viruses by nematicides (Harrison et al ., ); Control of fungus‐transmitted viruses by fungicides (Tomlinson & Faithfull, ); Forecasting virus epidemics (Harrington et al ., ). …”

Section: Annals Of Applied Biology Research Papersmentioning

confidence: 99%

Plant virus ecology and epidemiology: historical perspectives, recent progress and future prospects

Jones

2014

Annals of Applied Biology

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After clarifying the relationship between the closely related concepts of ecology and epidemiology as they are used in plant virology, this article provides a historical perspective on the subject before discussing recent progress and future prospects. Ecology focuses on virus populations interacting with host populations within a variable environment, while epidemiology focuses on the complex association between virus and host plant, and factors that influence spread. The evolution and growth of plant virus ecology and epidemiology since its inception to the present day, and the major milestones in its development, are illustrated by examples from influential historical reviews published in the Annals of Applied Biology over the last 100 years. Original research papers published in the journal are used to illustrate important ecological and epidemiological principles and new developments in both fields. Both areas are multifaceted with many factors influencing host plants, and virus and vector behaviour. The highly diverse scenarios that arise from this process influence the virus population and the spatiotemporal dynamics of virus distribution and spread. The review then describes exciting progress in research in the areas of molecular epidemiology and ecology, and understanding virus-vector interactions. Application of new molecular techniques has greatly accelerated the rate of progress in understanding virus populations and the way changes in these populations influence epidemics. Viruses cause direct and plant-mediated indirect effects on insect vectors by modifying their life cycles, fitness and behaviour, and one of the most fascinating recent fields of research concerns plant-mediated indirect virus manipulation of insect vector behaviour that encourages virus spread. Next, the review describes the current state of knowledge about spread of plant viruses at the critical agro-ecological interface between managed and natural vegetation. There is an urgent need to understand how viruses move in both directions between the two and be able to anticipate these kinds of events. To obtain an understanding of, and ability to foresee, such events will require a major research effort into the future. The review finishes by discussing the implications of climate change and rapid technological innovation for the types of research needed to avoid virus threats to future world food supplies and plant biodiversity. There has been lamentably little focus on research to determine the magnitude of the threat from diseases caused in diverse plant virus pathosystems under different climate change scenarios. Increasing technological innovation offers many opportunities to help ensure this situation is addressed, and provide plant virus ecology and epidemiology with a very exciting future.

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“…Overall, the control of aphid populations is very important in order to reduce the direct damages, and to limit the spread of PPV which produces significant additional losses. Previous field studies have shown that the application of mineral oils, which are accepted in ecological farming, is useful in reducing the incidence of PPV infections [ 16 ]. The allelopathic effect of phenolic acids can also be a good tool for protecting plants against aphid infestation; a high concentration of phenolic acid (gallic acid and caffeic acid) inflicts a reduction in aphid infestation [ 17 ].…”

Section: Introductionmentioning

confidence: 99%

Alternative Ecological Products for Aphid Control on Plum

Moldovan,

Zagrai,

Guzu

et al. 2023

Plants

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Ecological farming is increasing worldwide, as more and more consumers prefer chemical-free fruits. As a result, ecological farming is becoming increasingly appealing to European farmers, including those in Romania. However, implementing an effective ecological phytosanitary program remains a challenge for farmers due to limited options and a lack of information about their effectiveness. Romania is a major producer of plums and ranks second in the world after China. Aphids are common pests of plum, and some species are vectors of the damaging Plum pox virus, and therefore require special attention regarding their control. Eight ecological products were tested both in the field and laboratory for a duration of three vegetative periods to determine their efficiency in aphid control. The effects of ecological products were compared with five chemical insecticides known to be effective against aphids. Observations were made 24 and 48 h after spraying. Two of the eight ecological products tested were proven to be efficient in aphid control, Ovipron Top and Prev-Am, with a mortality rate over 90%. The results indicate that these two ecological products are comparable in effectiveness to chemical insecticides and could be suitable candidates for both ecological and conventional treatment programs.

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Horticultural mineral oil treatments in nurseries during aphid flights reduce Plum pox virus incidence under different ecological conditions

Cited by 13 publications

References 33 publications

Plum pox virus and sharka: a model potyvirus and a major disease

Plum pox virus and sharka: a model potyvirus and a major disease

Plant virus ecology and epidemiology: historical perspectives, recent progress and future prospects

Alternative Ecological Products for Aphid Control on Plum

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