Abstract
Soybean thrips (Neohydatothrips variabilis) are one of the most efficient vectors of soybean vein necrosis virus, which can cause severe necrotic symptoms in sensitive soybean plants. To determine which other viruses are associated with soybean thrips, the metatranscriptome of soybean thrips, collected by the Midwest Suction Trap Network during 2018, was analyzed. Contigs assembled from the data revealed a remarkable diversity of virus-like sequences. Of the 181 virus-like sequences identified, 155 were novel and associated primarily with taxa of arthropod-infecting viruses, but sequences similar to plant and fungus-infecting viruses were also identified. The novel viruses were predicted to have positive-sense RNA, negative-stranded RNA, double-stranded RNA, and single-stranded DNA genomes. The assembled sequences included 100 contigs that represented at least 95% coverage of a virus genome or genome segment. Sequences represented 12 previously described arthropod viruses including eight viruses reported from Hubei Province in China, and 12 plant virus sequences of which six have been previously described. The presence of diverse populations of plant viruses within soybean thrips suggests they feed on and acquire viruses from multiple host plant species that could be transmitted to soybean. Assessment of the virome of soybean thrips provides, for the first time, information on the diversity of viruses present in thrips.
Highlights
Our study provides unique insights into the virus diversity in thrips for the first time, soybean thrips, and suggests that Vector-enabled metagenomics or metatranscriptomics (VEM) when paired with systematic vector sampling could be used as a molecular surveillance system capable of recognizing novel insect viruses and emerging plant viruses of potential agricultural importance
We discovered sequences (MT240792 and MW039367) from soybean thrips that were 95% identical to the genome sequences of Wuhan insect virus (WIV) 21 RNA1 (LC516847.1) and Hubei tombus-like virus (HTLV) 2 (NC_032965.1), respectively, which were originally reported from China [46]
The use of virus metagenomics has rapidly expanded our understanding of the diversity, ecology, evolution, and taxonomy of viruses
Summary
Thrips (order, Thysanoptera) are economically important agricultural pests. In addition to the damage caused by feeding, thrips transmit some of the most damaging plant viruses including members of the genera Carmovirus, Ilarvirus, Machlomovirus, Orthotospovirus, and Sobemovirus [1].Viruses in the genus Orthotospovirus (family, Tospoviridae; e.g., iris yellow spot virus and tomato spotted wilt virus [TSWV]) cause significant economic losses in multiple agricultural crops worldwide [2,3].Soybean vein necrosis orthotospovirus (SVNV) is an emerging virus in soybean that has widespread occurrence in the United States (US) and Canada [4]. Thrips (order, Thysanoptera) are economically important agricultural pests. In addition to the damage caused by feeding, thrips transmit some of the most damaging plant viruses including members of the genera Carmovirus, Ilarvirus, Machlomovirus, Orthotospovirus, and Sobemovirus [1]. Viruses in the genus Orthotospovirus (family, Tospoviridae; e.g., iris yellow spot virus and tomato spotted wilt virus [TSWV]) cause significant economic losses in multiple agricultural crops worldwide [2,3]. Soybean vein necrosis orthotospovirus (SVNV) is an emerging virus in soybean that has widespread occurrence in the United States (US) and Canada [4]. SVNV causes vein clearing, leaf chlorosis, and leaf necrosis in soybean [5] and was reported to reduce seed quality and oil content [6]. SVNV is exclusively transmitted by thrips in a persistent and propagative manner, primarily by soybean thrips
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