High throughput sequencing technologies were used to identify plant viruses in cereal samples surveyed from 2012 to 2017. Fifteen genome sequences of a tenuivirus infecting wheat, oats and spelt in Estonia, Norway and Sweden were identified and characterized. Like most tenuiviruses, the genome of this tenuivirus contains four genomic segments. The isolates found from different countries shared at least 92% nucleotide sequence identity at the genome level. The planthopper was identified as a vector of the virus. Laboratory transmission tests using this vector indicated that wheat, oats, barley, rye and triticale, but none of the tested pasture grass species (, , , , , ) are susceptible. Taking into account the vector and host range data, the tenuivirus we have found most probably represents European wheat striate mosaic virus first identified about sixty years ago. Interestingly, whereas we were not able to infect any of the tested cereal species mechanically, was infected via mechanical inoculation in laboratory conditions, displaying symptoms of yellow spots and vein clearing evolving into necrosis, eventually leading to plant death. Surprisingly, one of the virus genome segments (RNA2) encoding both a putative host systemic movement enhancer protein and a putative vector transmission factor was not detected in after several passages even though systemic infection was observed, raising fundamental questions about the role of this segment in the systemic spread in several hosts.