Screening potential insect vectors in a museum biorepository reveals undiscovered diversity of plant pathogens in natural areas

Screening potential insect vectors in a museum biorepository reveals undiscovered diversity of plant pathogens in natural areas

Abstract Phytoplasmas (Mollicutes, Acholeplasmataceae), vector‐borne obligate bacterial plant parasites, infect nearly 1,000 plant species and unknown numbers of insects, mainly leafhoppers (Hemiptera, Deltocephalinae), which play a key role in transmission and epidemiology. Although the plant–phyto...

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Main Authors: Valeria Trivellone, Wei Wei, Luisa Filippin, Christopher H. Dietrich
Format: Article
Language:English
Published: Wiley 2021-06-01
Series:Ecology and Evolution
Subjects:
coevolution
emerging disease
leafhoppers
phytoplasma
vector‐borne pathogens
Online Access:https://doi.org/10.1002/ece3.7502
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record_format Article
spelling doaj-1b003240a52643a4a6ea6273ec8147372021-06-16T08:36:34ZengWileyEcology and Evolution2045-77582021-06-0111116493650310.1002/ece3.7502Screening potential insect vectors in a museum biorepository reveals undiscovered diversity of plant pathogens in natural areasValeria Trivellone0Wei Wei1Luisa Filippin2Christopher H. Dietrich3Illinois Natural History Survey Prairie Research Institute University of Illinois Champaign IL USAMolecular Plant Pathology Laboratory Beltsville Agricultural Research Center Agricultural Research Service United States Department of Agriculture Beltsville MD USACREA–VECouncil for Agricultural Research and EconomicsResearch Centre for Viticulture and Enology Conegliano, Treviso ItalyIllinois Natural History Survey Prairie Research Institute University of Illinois Champaign IL USAAbstract Phytoplasmas (Mollicutes, Acholeplasmataceae), vector‐borne obligate bacterial plant parasites, infect nearly 1,000 plant species and unknown numbers of insects, mainly leafhoppers (Hemiptera, Deltocephalinae), which play a key role in transmission and epidemiology. Although the plant–phytoplasma–insect association has been evolving for >300 million years, nearly all known phytoplasmas have been discovered as a result of the damage inflicted by phytoplasma diseases on crops. Few efforts have been made to study phytoplasmas occurring in noneconomically important plants in natural habitats. In this study, a subsample of leafhopper specimens preserved in a large museum biorepository was analyzed to unveil potential new associations. PCR screening for phytoplasmas performed on 227 phloem‐feeding leafhoppers collected worldwide from natural habitats revealed the presence of 6 different previously unknown phytoplasma strains. This indicates that museum collections of herbivorous insects represent a rich and largely untapped resource for discovery of new plant pathogens, that natural areas worldwide harbor a diverse but largely undiscovered diversity of phytoplasmas and potential insect vectors, and that independent epidemiological cycles occur in such habitats, posing a potential threat of disease spillover into agricultural systems. Larger‐scale future investigations will contribute to a better understanding of phytoplasma genetic diversity, insect host range, and insect‐borne phytoplasma transmission and provide an early warning for the emergence of new phytoplasma diseases across global agroecosystems.https://doi.org/10.1002/ece3.7502coevolutionemerging diseaseleafhoppersphytoplasmavector‐borne pathogens
collection DOAJ
language English
format Article
sources DOAJ
author Valeria Trivellone
Wei Wei
Luisa Filippin
Christopher H. Dietrich
spellingShingle Valeria Trivellone
Wei Wei
Luisa Filippin
Christopher H. Dietrich
Screening potential insect vectors in a museum biorepository reveals undiscovered diversity of plant pathogens in natural areas
Ecology and Evolution
coevolution
emerging disease
leafhoppers
phytoplasma
vector‐borne pathogens
author_facet Valeria Trivellone
Wei Wei
Luisa Filippin
Christopher H. Dietrich
author_sort Valeria Trivellone
title Screening potential insect vectors in a museum biorepository reveals undiscovered diversity of plant pathogens in natural areas
title_short Screening potential insect vectors in a museum biorepository reveals undiscovered diversity of plant pathogens in natural areas
title_full Screening potential insect vectors in a museum biorepository reveals undiscovered diversity of plant pathogens in natural areas
title_fullStr Screening potential insect vectors in a museum biorepository reveals undiscovered diversity of plant pathogens in natural areas
title_full_unstemmed Screening potential insect vectors in a museum biorepository reveals undiscovered diversity of plant pathogens in natural areas
title_sort screening potential insect vectors in a museum biorepository reveals undiscovered diversity of plant pathogens in natural areas
publisher Wiley
series Ecology and Evolution
issn 2045-7758
publishDate 2021-06-01
description Abstract Phytoplasmas (Mollicutes, Acholeplasmataceae), vector‐borne obligate bacterial plant parasites, infect nearly 1,000 plant species and unknown numbers of insects, mainly leafhoppers (Hemiptera, Deltocephalinae), which play a key role in transmission and epidemiology. Although the plant–phytoplasma–insect association has been evolving for >300 million years, nearly all known phytoplasmas have been discovered as a result of the damage inflicted by phytoplasma diseases on crops. Few efforts have been made to study phytoplasmas occurring in noneconomically important plants in natural habitats. In this study, a subsample of leafhopper specimens preserved in a large museum biorepository was analyzed to unveil potential new associations. PCR screening for phytoplasmas performed on 227 phloem‐feeding leafhoppers collected worldwide from natural habitats revealed the presence of 6 different previously unknown phytoplasma strains. This indicates that museum collections of herbivorous insects represent a rich and largely untapped resource for discovery of new plant pathogens, that natural areas worldwide harbor a diverse but largely undiscovered diversity of phytoplasmas and potential insect vectors, and that independent epidemiological cycles occur in such habitats, posing a potential threat of disease spillover into agricultural systems. Larger‐scale future investigations will contribute to a better understanding of phytoplasma genetic diversity, insect host range, and insect‐borne phytoplasma transmission and provide an early warning for the emergence of new phytoplasma diseases across global agroecosystems.
topic coevolution
emerging disease
leafhoppers
phytoplasma
vector‐borne pathogens
url https://doi.org/10.1002/ece3.7502
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AT luisafilippin screeningpotentialinsectvectorsinamuseumbiorepositoryrevealsundiscovereddiversityofplantpathogensinnaturalareas
AT christopherhdietrich screeningpotentialinsectvectorsinamuseumbiorepositoryrevealsundiscovereddiversityofplantpathogensinnaturalareas
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