Background The introduction of multiple avian influenza virus (AIV) subtypes into Nigeria has resulted in several poultry outbreaks purportedly linked to trade and wild birds. The role of wild birds in perpetuating AIV in Nigeria was, therefore, elucidated. Methods A cross-sectional study was conducted among wild aquatic bird species at the Hadejia-Nguru wetlands in northeastern Nigeria between March and April 2022. A total of 452 swabs (226 cloacae and 226 oropharyngeal swabs) were collected using a mist net to capture the birds. These samples were tested by RT-qPCR, followed by sequencing. Results Highly pathogenic AIV of the H5N1 subtype was identified in clinically healthy wild bird species, namely African jacana, ruff, spur-winged goose, squared-tailed nightjar, white-faced whistling ducks, and white stork. A prevalence of 11.1% (25/226) was recorded. Phylogenetic analysis of the complete HA gene segment indicated the presence of clade 2.3.4.4b. However, these H5N1 viruses characterized from these wild birds cluster separately from the H5N1 viruses characterized in Nigerian poultry since early 2021. Specifically, the viruses form two distinct genetic groups both linked with the Eurasian H5N1 gene pool but likely resulting from two distinct introductions of the virus in the region. Whole genome characterization of the viruses reveals the presence of the mammalian adaptive marker E627K in two Afro-tropical resident aquatic ducks. This has zoonotic potential. Conclusion Our findings highlight the key role of surveillance in wild birds to monitor the diversity of viruses in this area, provide the foundations of epidemiological understanding, and facilitate risk assessment.

Background: Orf virus (ORFV) is an important zoonotic parapox virus, with 100% morbidity. It affects mainly domesticated ruminants such as sheep and goats. This study determined the molecular epidemiology of ORFV local as well as imported sheep and goats in Nigeria and evolution of ORFV in Africa. Methods: A total of 30 small ruminants with orf were sampled in a livestock market Abuja Nigeria.Skin scabs from pathological tissues were collected and processed for viral genomic DNA. PCR and Sanger sequencing of B2L gene of ORFV. Phylogenetic analysis, phylogeography, and Bayesian skygird reconstruction (BSK), including mutational changes were performed on B2L gene sequences. Results: An ORFV positivity rate of 67% was determined from samples. Animals <2 years had the highest prevalence of 76.5%.Hundred percent attack rate was observed among the Uda and WAD breeds, followed by Niger 71.4%, Kano Brown 66.7%, Yankasa 25% and Balami 0% breeds. ORFV from Africa breeds clustered into 2 major lineages, Asian and African, with an evolutionary rate of 7.45 × 10 -4, 95% HPD (3.46 × 10 -4 to 1.17 × 10 -3) substitutions/ site/year. Viral population demography showed a constant population growth with a slight rise in viral population growth towards year 2020. Conclusion: We report molecular evolution of ORFV in Africa and identified gap in molecular data; we recommend regional molecular surveillance of ORFV and other zoonotic trans-boundary diseases in global health prevention and control effort.