Impact of Pea necrotic yellow dwarf virus (PNYDV) on nodulation, N2 fixation and yield in faba bean (Vicia faba, L.)

Seeger, Judith N.; Ziebell, Heiko; Saucke, Helmut

doi:10.1007/s41348-022-00646-z

J Plant Dis Prot

2022

DOI: 10.1007/s41348-022-00646-z

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Impact of Pea necrotic yellow dwarf virus (PNYDV) on nodulation, N2 fixation and yield in faba bean (Vicia faba, L.)

Judith N. Seeger

Heiko Ziebell

Helmut Saucke

Abstract: Pea necrotic yellow dwarf virus (PNYDV) is a novel nanovirus in Europe, affecting various grain legumes. The impact of PNYDV on nodulation, symbiotic N2 fixation and yield parameters in faba bean (Vicia faba L.) was investigated at controlled conditions in the greenhouse (2017), on-farm in natural infection foci (2018, 2019) and in a small-scale field experiment (2020). In the latter, the standard variety ‘Fuego’ was compared with the variety ‘GL Sunrise’ in early and late infections. In addition, the analogou… Show more

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Comparison of Sequencing Methods for Obtaining a Whole Genome of Pea Necrotic Yellow Dwarf Virus from U.K. Peas

Fowkes,

Duffy,

McGreig

et al. 2023

PhytoFrontiers™

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During a project investigating pea viruses in the United Kingdom (UK) and developing a workflow for high throughput sequencing (HTS) in crop surveillance, pea necrotic yellow dwarf virus (PNYDV) was identified at one site, along with pea enation mosaic virus-1, pea enation mosaic virus-2, pea enation mosaic virus satellite RNA, pea seed-borne mosaic virus and turnip yellows virus. Following an initial finding of small PNYDV contigs by RNA sequencing protocol on a MiSeq (Illumina), confirmation and prevalence testing by PCR and Sanger sequencing determined the average PNYDV prevalence to be 3%. This is the first report of PNYDV, and a nanovirus, in the UK. Initial characterisation of the octopartite genome by PCR revealed that component DNA N had a truncated sequence that differed from those previously reported. This led to confirmation testing using rolling circle amplification (RCA) into the MiSeq and then MinION (Oxford Nanopore). Sequence was obtained by both RCA-MiSeq and RCA-MinION, with the MinION producing more complete genomes than RCA-MiSeq. Data obtained from sequencing was used to provide an initial estimation of the genomic formula of PNYDV. Previous work has looked into the comparing each method, however within this study it is shown how these methods can be used together. The truncated sequence for DNA N was also found by RCA-MiSeq, RCA-MinION and confirmed by specific primers, but further work is required to understand the impact of this truncation.

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Comparison of Sequencing Methods for Obtaining a Whole Genome of Pea Necrotic Yellow Dwarf Virus from U.K. Peas

Fowkes,

Duffy,

McGreig

et al. 2023

PhytoFrontiers™

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Legume‐Colonising Aphids as Potential PNYDV‐Vectors: Reproduction and Infestation Dynamics in Two Different Field Bean Varieties

Berawe,

Ziebell,

Seeger

et al. 2024

J Applied Entomology

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Faba bean can be infected by Pea necrotic yellow dwarf virus (PNYDV), a novel pathogen throughout Europe, and transmitted persistently by several legume‐colonising aphid species. Recent field screenings in Austria and Germany of different faba bean varieties were encouraging as consistently the lowest viral symptom development in the variety ‘GL Sunrise’ was reported. However, our own greenhouse experiments revealed that ‘GL Sunrise’ was not resistant to PNYDV but showed a similar susceptibility such as other common varieties, for example, ‘Fuego’. Therefore, we suspected varietal host traits were affecting the reproductive potential of virus vector species with reduced virus transmission, probably explaining the empirical superior health status in the field. Under greenhouse conditions, vector‐specific intrinsic rates of increase (rm) for Acyrthosiphon pisum Harris Aphis fabae Scopoli and Megoura viciae Buckton were similar for both varieties, except for a particular A. pisum‐biotype derived from field pea, with a significantly reduced rm and fecundity in ‘GL Sunrise’. Furthermore, vector abundance assessments in multisite varietal showed A. pisum as the predominant species. In overall cross‐year and ‐site evaluation, early aphid census in ‘GL Sunrise’ at growth stage BBCH 61–65 indicated significantly lower primary A. pisum‐infestation pressure (factor 0,43 relative to ‘Fuego’). This lower infestation level in ‘GL Sunrise’ was kept until BBCH 77–79 but the difference had diminished down to the non‐significant factor of 0,74 A. pisum‐density relative to ‘Fuego’ in the late census, respectively. Based on our findings of (i) basic PNYDV susceptibility, (ii) similar reproductive vector performance of key aphid species, together with (iii) a significantly weaker initial A. pisum‐infestation levels in the field, we hypothesise ‘GL Sunrise’‐specific additional antixenosis/antibiotic traits, must influence host recognition and settling behaviour of alighting (viruliferous) migrants and/or apteres, which finally determine the superior PNYDV‐health status in ‘GL Sunrise’ at field conditions.

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Impact of Pea necrotic yellow dwarf virus (PNYDV) on nodulation, N2 fixation and yield in faba bean (Vicia faba, L.)

Cited by 2 publications

References 46 publications

Comparison of Sequencing Methods for Obtaining a Whole Genome of Pea Necrotic Yellow Dwarf Virus from U.K. Peas

Comparison of Sequencing Methods for Obtaining a Whole Genome of Pea Necrotic Yellow Dwarf Virus from U.K. Peas

Legume‐Colonising Aphids as Potential PNYDV‐Vectors: Reproduction and Infestation Dynamics in Two Different Field Bean Varieties

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