#19,254
South Korean farmers, and their agricultural department (MAFRA), have been dealing with outbreaks of HPAI H5 for more than 2 decades, and yet they continue to report major biosecurity lapses leading to large culls.
In January of 2025, in South Korea: MAFRA Orders Fines For Biosecurity Breaches On Poultry Farms, we looked at a scathing report that found of the 15 infected poultry farms investigated since October 2024, the vast majority have failed to comply with established biosecurity protocols, and that strong punitive action would be taken.
And yet, in December of last year (see South Korea: MAFRA Identifies Biosecurity Breaches On HPAI Infected Poultry Farms), we saw the same patterns emerge; including failures to disinfect vehicles, and allowing people to enter farms and barns without protective clothing.
From the report's summary:
Choi Jeong-rok, Director of the Quarantine Policy Bureau of the Ministry of Agriculture, Food and Rural Affairs, said , “ As a result of the epidemiological investigation into poultry farms where highly pathogenic avian influenza occurred this winter , it was confirmed that most farms were not properly following basic quarantine rules.
Therefore , each local government should strictly punish those who violate related regulations and provide repeated education and inspections so that farms can manage quarantine on their farms with a sense of alertness . ”
Late in December MAFRA reported Increased Infectivity & Pathogenicity of This Year's Avian Flu Strains, and warned again on the importance of increasing biosecurity, and on January 5th announced Special Quarantine Measures Implemented for one Month to Prevent the Spread of HPAI.
In March, in an Investigation Into Biosecurity Lapses on HPAI Affected Poultry Farms, MAFRA reported that of 50 of that year's 53 infected poultry farms, 70% had at least one serious violation.- 70%: No disinfection or protective clothing for people entering farms
- 68%: Vehicles entering/exiting farms not disinfected
- 66%: Poor overall sanitation management
- 62%: Workers not using farm-specific clothing/footwear
- 48%: Inadequate barriers to prevent entry of wild animals
Amid reports of greatly increased infectivity of South Korean bird flu strains we also saw a sharp increase in HPAI activity around the globe over the 2025-2026 avian flu season.
This is obviously not just a South Korean problem, although they have been far more transparent about the challenges of containing avian flu than most other countries.
All of which brings us to an analysis of biosecurity lapses on South Korean poultry (duck & chicken) farms between 2020/21 and 2024/2025. While this does not include data from last year's outbreaks, it closely aligns with what we saw reported last winter by MAFRA.
Due to its length and technical nature, I've just posted the abstract and a brief excerpt. Those involved with raising poultry, or biosecurity on farms, will want to do a deeper dive.
I'll have a bit more after the break.
Front. Vet. Sci., 16 July 2026
Sec. Veterinary Infectious Diseases
Volume 13 - 2026 | https://doi.org/10.3389/fvets.2026.1863522
Biosecurity deficiencies in HPAI-affected poultry farms in Korea, 2020/2021–2024/2025 seasons
Hachung Yoon * , Kyoungsook Kim , Keesung Hong
Veterinary Epidemiology Division, Animal and Plant Quarantine Agency, Gimcheon, Republic of Korea
Abstract
Introduction:
Highly pathogenic avian influenza (HPAI) remains a persistent threat to poultry production systems despite reinforced biosecurity measures. This study aimed to characterize biosecurity deficiencies in HPAI-affected farms in Korea and to identify structured patterns of deficiencies.
Methods:
Outbreak investigation reports from 311 HPAI-affected farms (2020/2021–2024/2025 seasons) were analyzed, yielding 3,172 biosecurity deficiency records classified into 16 categories across three operational domains. Frequency analysis, k-means clustering, and association rule analysis were applied to identify deficiency patterns and co-occurrence structures.
Results:
Wildlife control was the most frequent deficiency (85.9%), followed by operational management (65.9%) and deficiencies related to anteroom biosecurity measures in barns (56.3%). Four distinct farm-level deficiency profiles were identified, with significant differences in cluster membership between chicken and duck farms. Association rule analysis revealed consistent co-occurring deficiency pairs, particularly involving farm-entry measures such as visitor and vehicle disinfection.
Discussion:
These findings indicate that biosecurity deficiencies are not isolated but form structured and interconnected patterns. A system-level approach incorporating targeted, pattern-based biosecurity interventions and risk-based surveillance prioritization may improve the sustainability and effectiveness of HPAI prevention and control in poultry production systems.
(SNIP)
Together, these findings indicate that biosecurity deficiencies in HPAI-affected farms are structured, sector-specific, and tend to cluster into interpretable farm-level patterns. Recurrent co-occurring deficiency pairs suggest that weaknesses accumulate in consistent combinations, particularly around farm-entry measures. This supports a shift from single-item compliance checks toward integrated, system-level approaches to biosecurity. From a practical perspective, the identified deficiency profiles may support risk-based prioritization of biosecurity interventions according to farm characteristics and dominant vulnerability patterns.
Farms with entrance-focused profiles may benefit from strengthened visitor control and disinfection measures, whereas barn- or management-dominant farms may require improvements in worker practices, equipment handling, and operational oversight. Training and technology-assisted monitoring, including CCTV, may further enhance compliance, particularly for behaviorally demanding procedures (27, 36, 38). Collectively, these findings may help inform more targeted surveillance strategies and adaptive biosecurity policies in poultry production systems.
This study is limited to farms with confirmed HPAI outbreaks, and the identified patterns do not establish direct causality. However, these deficiencies represent conditions that may contribute to disease introduction and spread, and their consistent implementation remains essential for effective HPAI prevention.
We are two, maybe three months away from arrival of the next wave of avian flu in the Northern Hemisphere. Migratory birds that are currently breeding in their high-latitude roosting spots - where they can easily swap viruses - will once again head south in the fall.
Now is the time for poultry producers - from commercial operations to back-yard hobby farms - to review their biosecurity procedures, and to make necessary adjustments before the fall.
The APPA estimates `Eleven (11) million U.S. households own backyard chickens (a 28% increase from 2023)', yet a recent survey (see MMWR: Knowledge, Attitudes, and Practices Regarding Avian Influenza Among Owners of Backyard Flocks) found significant gaps in their knowledge of dealing with HPAI.
Over the past 18 months we've seen at least 3 U.S. backyard flock owners infected with HPAI H5, resulting in 2 deaths. This is an all-too familiar pattern, which we've seen repeated dozens of times in many other countries.
If battle-tested South Korean farmers are having this much trouble maintaining adequate biosecurity, then it is probably worth reviewing our own practices before the next wave of the virus heads our way.