Literature detail

Counting cases, conserving species: addressing highly pathogenic avian influenza in wildlife.

Ulrich Knief¹ Sandra Bouwhuis² Anja Globig³ Anne Günther⁴ Wouter Courtens⁵

Affiliations 5 institutions

Evolutionary Biology and Ecology, University of Freiburg, Institute of Biology I (Zoology), Hauptstr. 1, Freiburg, DE-79104, Germany.
Institute of Avian Research, An der Vogelwarte 21, Wilhelmshaven, DE-26386, Germany.
Friedrich-Loeffler-Institut, Institute of International Animal Health/One Health, Federal Research Institute for Animal Health, Südufer 10, Greifswald-Insel Riems, DE-17493, Germany.
Friedrich-Loeffler-Institut, Institute of Diagnostic Virology, Federal Research Institute for Animal Health, Südufer 10, Greifswald-Insel Riems, DE-17493, Germany.
Research Institute for Nature and Forest, Havenlaan 88, bus 73, Brussels, 1000, Belgium.

PMID 42101093 2026 Biol Rev Camb Philos Soc eng aheadofprint

Article

Publication summary

Highly pathogenic avian influenza (HPAI) has become a critical threat to wildlife, shifting from a seasonal epizootic to a persistent, year-round panzootic with global consequences. Here, we summarise the origin, evolutionary mechanisms, and expanding host range of the current H5N1 virus (clade 2.3.4.4b) and assess its impact on wildlife. Over the past 5 years, HPAI has caused the deaths of millions of wild birds, causing dramatic population declines in several seabird species. Mortality records, however, are often anecdotal, focus on localised mass die-offs, and thus represent only a fraction of the true mortality. This lack of quantitative data limits the ability to predict outbreak dynamics and mitigate long-term consequences. Using the northwestern European Sandwich tern (Thalasseus sandvicensis) population as a case study, we demonstrate the value of integrating mortality data with ecological, serological and genetic data before, during and after an outbreak. This approach uncovered age-specific vulnerability, selective mortality, and population immunological responses, and provided insights into how breeding density, carcass removal, and host adaptation modulate outbreak dynamics. The absence of a centralised and standardised wildlife mortality monitoring framework, on the other hand, remains a major barrier to effective outbreak forecasting and conservation planning. We argue that integrating population and mortality monitoring, serological assays, and genetic analyses within a One Health framework is essential to enable early detection, targeted mitigation, and robust evaluation of outbreak impacts, and caution that without a proactive and data-driven approach to conservation, HPAI will continue to threaten global wildlife populations, with cascading ecological, economic and public health consequences.

disease outbreak ecology H5N1 HPAI mass mortality wild birds wildlife

Structured evidence records

Evidence records

2 total

Reservoir Ecology 1 records

Reservoir Ecology Extraction confidence 0.85

Key finding

Host adaptation and population immunological responses modulate HPAI outbreak dynamics among Sandwich terns and other seabirds.

Virus

Host

Location

Supporting text

This approach uncovered age-specific vulnerability, selective mortality, and population immunological responses, and provided insights into how breeding density, carcass removal, and host adaptation modulate outbreak dynamics.

Method: ecological analysis | serological assays | genetic analyses
Sample type: wildlife mortality data
Study design: field surveillance
Transmission direction: animal reservoir only
Event type: wildlife host adaptation
Geographic raw: northwestern Europe
Mechanism types: host adaptation

Zoonotic Surveillance 1 records

Zoonotic Surveillance Extraction confidence 0.90

Key finding

HPAI H5N1 clade 2.3.4.4b has caused extensive mortality in wild bird populations and expanded host range, with integrated surveillance of Sandwich terns revealing age-specific vulnerability and immunological responses.

Virus

Host

Location

Supporting text

Over the past 5 years, HPAI has caused the deaths of millions of wild birds, causing dramatic population declines in several seabird species. Using the northwestern European Sandwich tern (Thalasseus sandvicensis) population as a case study, we demonstrate the value of integrating mortality data with ecological, serological and genetic data before, during and after an outbreak.

Method: mortality monitoring | serological assays | genetic analyses
Sample type: mortality data | ecological data | serological data | genetic data
Study design: field surveillance
Transmission direction: animal reservoir only
Event type: wildlife mortality and serological/genetic monitoring
Geographic raw: northwestern Europe

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Evidence overview

Evidence 2

Types 2

Virus 1

Host 1

Evidence types

Reservoir Ecology 1 Zoonotic Surveillance 1

Linked entities

Viruses

Hosts

Locations

Publication metadata

Journal: Biological reviews of the Cambridge Philosophical Society
Volume / Issue / Pages: - / - / -
ISSN: 1469-185X
Journal country: England
DOI: 10.1002/brv.70173