Laridae birds, such as gulls, are known reservoirs of H13 and H16 low pathogenic avian influenza subtypes. However, during the recent outbreaks linked to the reemergence of high pathogenicity avian influenza virus (HPAIV) H5N1 clade 2.3.4.4b of the Goose/Guangdong lineage, European populations of those birds suffered significant losses. HPAI cases were registered not only along the coastlines but also inland areas, particularly in France and Central Europe.

During a diagnostic investigation of a group of Laridae birds, part of a HPAIV outbreak registered in the South of France in 2023, larval stages of Ornithodoros maritimus, a nidicolous soft tick parasitizing seabirds, were recovered from a slender-billed gull (Chroicocephalus genei). Affected birds exhibited gross and histopathological lesions consistent with systemic HPAI infection. Immunohistochemistry revealed marked neurotropism, oculotropism and multicentric epitheliotropism. Viral isolation and sequencing analysis confirmed the presence of HPAI H5N1 clade 2.3.4.4b in both the gull and ectoparasites, showing from 98.505% to 99.989% nucleotide identity across six out of eight RNA segments. While additional research is needed to properly assess the vector competence of O. maritimus, ticks may represent an interesting non-invasive surveillance tool for HPAIV surveillance. This is the first time a HPAIV is successfully isolated from ticks larvae. These findings represent a first step toward understanding the potential role played by ticks in the diffusion of avian influenza viruses within marine bird colonies and among other ecosystems, considering the occurrence of specific behavioral traits, such as kleptoparasitim and the position of gulls at the interface between wild and domestic species.