Advancing aquaculture biosecurity: a scientometric analysis and future outlook for disease prevention and environmental sustainability

Abstract

AbstractBiosecurity plans are crucial for preventing economic and environmental impacts caused by disease outbreaks in aquaculture. These plans focus on prevention, early detection, and effective control measures. With the global threat of emerging infectious diseases and the need for sustainable production practices, the importance of biosecurity continues to grow. Scientometric analysis is a valuable tool for assessing the impact and influence of scientific research within a particular field or discipline. Scientometric analysis of aquaculture biosecurity publications reveals significant activity in the field, with the highest number of publications recorded in 2021. Cottier-Cook EJ emerged as the most prolific author, while USA and the Centre for Environment Fisheries Aquaculture Science were identified as leading contributors. Physical biosecurity measures prevent the entry of pathogens and wild fish into aquaculture systems. Biological biosecurity measures enhance immunity and reduce disease risks. Operational biosecurity measures, such as feed management and hygiene protocols, maintain animal health. Innovative technologies such as sensors and artificial intelligence improve biosecurity efficiency. Effective management of disease outbreaks requires coordination, risk assessment, and established response plans. Aquaculture biosecurity offers benefits such as disease prevention, environmental protection, and food safety, but may have disadvantages including costs and negative environmental impacts. The industry should focus on implementing effective and sustainable biosecurity measures, improving disease prevention, reducing environmental impact, and ensuring product safety and quality.