Geographical Distribution of Four <i>Sugarcane yellow leaf virus</i> Genotypes

Ahmad, Youssef Abu; Royer, Monique; Daugrois, Jean-Heinrich; Costet, Laurent; Lett, Jean‐Michel; Victoria, Jorge; Girard, Jean-Claude; Rott, Philippe

doi:10.1094/pd-90-1156

Cited by 51 publications

(53 citation statements)

References 20 publications

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“…The time range (1960)(1961)(1962)(1963)(1964)(1965)(1966)(1967)(1968)(1969)(1970) where SCYLV is suspected to have arrived and spread in Hawaii is corroborated by a few other facts: the infected windbreak plants in the papaya plantations, the BRA-PER strain infection of the Hawaiian cultivars, which were exported to Peru in 1982, and finally the BRA-PER-strain of the variety R570 in Hawaii. That cultivar was imported from Réunion in 1981 and contains the BRA-PER strain (Abu Ahmad et al 2006), although the same cultivar in Réunion harbors the REU strain and, in Mauritius, both REU and BRA-PER. Thus, Réunion was apparently SCYLVfree at 1981 when this cultivar was imported to Hawaii.…”

Section: Discussionmentioning

confidence: 99%

“…The presence of SCYLV in the infected cultivars over so many replantings did not therefore originate from de novo infection in the greenhouse. (Schenck et al 1997;Vega et al 1997;Comstock et al 1998;Victoria et al 1998;Moutia and Saumtally 1999;Arocha et al 1999;Alegria et al 2000;Smith et al 2000;Avila et al 2001;Comstock et al 2002;Nadif et al 2002;Rassaby et al 2004;Abu Ahmad et al 2006). The numbers in the squares show the year, when the tests for SCYLV were made respectively were reported.…”

Section: Maintenance Of Scylv-infection In Sugarcane Stalksmentioning

confidence: 99%

“…Thus no definitive hint as to the origin of an imported SCYLVinfected cultivar could be obtained from the import records. The company names listed here were those which existed at the time when the plantation was closed SCYLV-types in sugarcane cultivars from Hawaii and clone R570 from Réunion Four types of SCYLV had been identified so far (Moonan and Mirkov 2002;Abu Ahmad et al 2006) and one plant had been analysed from the Hawaii collection, namely R570, which is a cultivar from Réunion. This plant contained the BRA-PER strain of SCYLV, not the REU-strain, which is typical for Réunion and which was found in R570 on Reúnion, Guadeloupe and Mauritius (Table 3).…”

Section: Scylv Spread In the Present Breeding Stationmentioning

confidence: 99%

“…Later, similar symptoms were reported from mainland United States (Comstock et al 1994), Brazil (Vega et al 1997), Mauritius (Moutia and Saumtally 1999) and many other sugarcane countries (Bailey et al 1996;Victoria et al 1998;Lockhart and Cronje 2000). The polerovirus Sugarcane yellow leaf virus (SCYLV) was identified as a possible causal agent (Vega et al (Smith et al 2000;Moonan et al 2000) and 3-4 clusters of strains could be grouped, whereby a Colombian strain was proposed as the original population, which diverged out of the polerovirus group (Moonan and Mirkov 2002;Abu Ahmad et al 2006). The fact that the disease was detected not earlier than in the 1990s points to a more recent worldwide distribution, even though a report in 1968 about yellow wilt in sugarcane in Eastern Africa is attributed as, possibly, a first account of yellow leaf (Ricaud 1968;Bailey et al 1996).…”

Section: Introductionmentioning

confidence: 99%

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Sugarcane yellow leaf virus introduction and spread in Hawaiian sugarcane industry: Retrospective epidemiological study of an unnoticed, mostly asymptomatic plant disease

2010

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Yellow leaf (YL) caused by Sugarcane yellow leaf virus (SCYLV) was first reported as a sugarcane disease in the 1990s, when it had already spread over many parts of the world. The time of introduction into the plantations is unknown. A worldwide screening identified only a few places isolated from cultivar exchange for more than 20 years which appeared SCYLV-free. Control tests with infected cultivars propagated for 12-16 generations by cuttings remained SCYLV-infected, proving that SCYLV is not eliminated by vegetative propagation. De novo infection by SCYLV-vectors in Hawaii occurred only over short distances. To reveal the period when SCYLV was introduced to Hawaii, volunteer sugarcane plants from closed Hawaiian plantations and from previous sites of the Hawaiian Sugarcane PlantersÁ ssociation breeding station were tested. The results suggest that SCYLV appeared in the breeding station between 1960 and 1970, whereas the plantations became infested after 1980. Imports in the 1960s obviously introduced the virus to the Hawaiian breeding station from where it spread to susceptible cultivars. Eighty percent of the cultivars, developed between 1973 and 1995, acquired the virus at the breeding station, in some cases within 4 years, indicating the rapid spread of SCYLV in the breeding station. The strain of SCYLV found in a Réunion cultivar in Hawaii, and the differing SCYLV-infection of CP-cultivars which were exported more than 20 years ago, suggested that also Réunion and Florida may still have been SCYLV-free in the 1970s. The study showed that retrospective epidemiology can be conducted on a disease which was unnoticed for more than 20 years.

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Section: Discussionmentioning

confidence: 99%

Section: Maintenance Of Scylv-infection In Sugarcane Stalksmentioning

confidence: 99%

Section: Scylv Spread In the Present Breeding Stationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Sugarcane yellow leaf virus introduction and spread in Hawaiian sugarcane industry: Retrospective epidemiological study of an unnoticed, mostly asymptomatic plant disease

2010

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“…(family Luteoviridae) with a single stranded positive sense RNA genome, that has been reported to infect sugarcane worldwide (Vega et al 1997;Comstock et al 1998; Moutia and Saumtally 1999;Abu Ahmad et al 2006). Like others in this group, SCYLV is phloem-limited (Vega et al 1997;Schenck et al 1997;Lehrer et al 2007).…”

Section: Sugarcane Yellow Leaf Virus (Scylv) Is a Polerovirusmentioning

confidence: 99%

RT-PCR and quantitative real-time RT-PCR detection of Sugarcane Yellow Leaf Virus (SCYLV) in symptomatic and asymptomatic plants of Hawaiian sugarcane cultivars and the correlation of SCYLV titre to yield

et al. 2010

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Sugarcane yellow leaf virus (SCYLV) has been reported worldwide to infect sugarcane and to cause significant yield losses. Current detection methods include tissue blot immunoassay (TBIA), reverse transcription-polymerase chain reaction (RT-PCR) and quantitative real-time RT-PCR assay (qRT-PCR). In this paper, we report the use and comparison of these detection methods for the study of SCYLV in Hawaiian cultivars. We observed positive RT-PCR and qRT-PCR reactions in cultivars previously thought (based on TBIA) to be immune to virus infection. The semi-quantitative virus titre in these cultivars was however at least 10 6 -fold lower than in the cultivars which were known to be SCYLVsusceptible. The RT-PCR methods also revealed that plants of the cultivar H65-7052, which were previously shown to vary strongly between TBIA-positive and TBIA-negative, indeed exhibited fluctuating SCYLV-titres in a range of 10 3 -10 4 -fold. The virus titre was carried through to the next vegetative generation, i. e. plants grown from seed pieces with low virus titre had low virus titre and plants grown from seed pieces with high virus titre contained high virus titre. A small field trial comparing plants of cv. H65-7052 of low and high SCYLV-titre showed that the field plots with plants of high virus titre developed Yellow Leaf symptoms and yielded only 54-60% of cane and sugar tonnage compared to plots with plants of low virus titre.

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Molecular Techniques for Detection of Microbial Pathogens

Narayanasamy

Molecular Biology in Plant Pathogenesis and Disease Management

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Detection, identification and differentiation of microbial plant pathogens -oomycetes, fungi, bacteria, phytoplasmas, viruses and viroids -infecting various crops constitute the basic step for the development of effective crop disease management systems. The conventional cultural methods involving isolation and studying the morphological characteristics using microscope are labor intensive and cumbersome, yielding sometimes, inconclusive results. The molecular techniques, on the other hand, are able to provide precise, reliable and reproducible results rapidly, facilitating early disease management decisions. Biochemical, immunological and nucleic acid-based assays have been preferred, because of the distinct advantages over the conventional methods. The molecular techniques have been very useful in the identification of obligate pathogens causing diseases such as downy mildews, powdery mildews and rusts and also fungi that grow very slowly in the culture media, taking several weeks to produce spore forms that can be used for identification. The availability of antisera, primers and commercial kits has led to widespread application of the molecular techniques for on-site detection during field surveys for assessing the distribution of existing pathogens, occurrence of new/introduced pathogens or strains and for preventing introduction of new pathogens through seeds or planting materials. Furthermore, molecular techniques have been demonstrated to be useful in breeding programs to identify sources of resistance to disease(s). Several protocols for molecular techniques, useful for researchers and students are presented in the Appendix.

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Geographical Distribution of Four Sugarcane yellow leaf virus Genotypes

Cited by 51 publications

References 20 publications

Sugarcane yellow leaf virus introduction and spread in Hawaiian sugarcane industry: Retrospective epidemiological study of an unnoticed, mostly asymptomatic plant disease

Sugarcane yellow leaf virus introduction and spread in Hawaiian sugarcane industry: Retrospective epidemiological study of an unnoticed, mostly asymptomatic plant disease

RT-PCR and quantitative real-time RT-PCR detection of Sugarcane Yellow Leaf Virus (SCYLV) in symptomatic and asymptomatic plants of Hawaiian sugarcane cultivars and the correlation of SCYLV titre to yield

Molecular Techniques for Detection of Microbial Pathogens

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