Barley Yellow Dwarf Virus Influences Its Vector's Endosymbionts but Not Its Thermotolerance

• Published in: Microorganisms (Basel) Vol. 12; no. 1; p. 10
• Main Authors: Chirgwin, Evatt, Yang, Qiong, Umina, Paul A, Thia, Joshua A, Gill, Alex, Song, Wei, Gu, Xinyue, Ross, Perran A, Wei, Shu-Jun, Hoffmann, Ary A
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 19.12.2023; MDPI
• Subjects: agriculture; Barley; biocontrol; Buchnera aphidicola; Cereals; Density; Diseases and pests; Dwarf disease; Endosymbionts; Flowers & plants; Genotypes; Grain; Heat; Heat resistance; High temperature; Infections; Insecticides; Insects; Luteovirus; oat aphids; Pathogens; pest; Physiological aspects; Plant viruses; Rhopalosiphum padi; Rickettsiella; Temperature tolerance; Thermal properties; thermotolerance; Transmission efficiency; Virus diseases of plants; Viruses; Wheat; Australia; agriculture; luteovirus; pest; thermotolerance; symbionts; GxG; oat aphids; climate; insects; biocontrol
• ISSN: 2076-2607; 2076-2607
• DOI: 10.3390/microorganisms12010010

The barley yellow dwarf virus (BYDV) of cereals is thought to substantially increase the high-temperature tolerance of its aphid vector, , which may enhance its transmission efficiency. This is based on experiments with North American strains of BYDV and . Here, we independently test these by measuring the temperature tolerance, via Critical Thermal Maximum (CTmax) and knockdown time, of Australian infected with a local BYDV isolate. We further consider the interaction between BYDV transmission, the primary endosymbiont of ( ), and a transinfected secondary endosymbiont ( which reduces the thermotolerance of other aphid species. We failed to find an increase in tolerance to high temperatures in BYDV-infected aphids or an impact of on thermotolerance. However, BYDV interacted with endosymbionts in unexpected ways, suppressing the density of and . BYDV density was also fourfold higher in -infected aphids. Our findings indicate that BYDV does not necessarily increase the temperature tolerance of the aphid transmission vector to increase its transmission potential, at least for the genotype combinations tested here. The interactions between BYDV and suggest new ways in which aphid endosymbionts may influence how BYDV spreads, which needs further testing in a field context.