Understanding the mechanisms underlying the emergence and spread of high pathogenicity avian influenza virus (HPAIV) is critical for tracking its global dissemination, particularly via migratory seabirds, given their role in transmission over long distances. Scavenging seabirds, such as skuas, may act as both reservoirs and vectors, and have been linked to multiple outbreaks since 2021. Here, we report the detection of HPAIV clade 2.3.4.4b H5N1 in three Tristan skua (Stercorarius antarcticus hamiltoni) carcasses on Gough Island in the central South Atlantic Ocean. To investigate potential incursion routes, we combined genomic analyses with year-round tracking data from global location sensors. Although migratory movement patterns suggested southern Africa as the most obvious pathway, the strain detected on Gough Island was more closely related to that found in South Georgia, suggesting infection may have occurred during the pre-laying exodus when skuas disperse into frontal waters south of the island. No further cases have been confirmed for Gough, but further systematic monitoring is needed to understand the dynamics of virus infection. The detection of HPAIV H5N1 in skuas on Gough Island highlights the importance of continued vigilance, coordinated surveillance, and proactive biosecurity across the South Atlantic and Southern Ocean, alongside efforts to reduce other pressures on globally important seabird populations to help strengthen their resilience.