Aquatic Animal Epidemiology is a specialized field that focuses on the study of diseases in aquatic organisms, encompassing fish, shellfish, and other marine life. Researchers in this discipline analyze the patterns, causes, and effects of diseases within aquatic ecosystems. Understanding the epidemiology of aquatic animal diseases is crucial for maintaining the health of both wild and farmed populations. Monitoring factors such as water quality, temperature, and population density helps identify potential disease outbreaks. Rapid response and effective management strategies are essential to prevent the spread of infections and protect biodiversity. Aquatic Animal Epidemiologists utilize advanced tools like molecular diagnostics and satellite technology to track and study disease dynamics. This field plays a vital role in sustainable aquaculture practices, ensuring the safety of seafood for human consumption and preserving the delicate balance of aquatic ecosystems. Ongoing research in Aquatic Animal Epidemiology aims to enhance our ability to predict, prevent, and mitigate the impact of diseases in marine environments, contributing to the overall health of our planet's aquatic life.
Title : Spillover at the edge: Mapping zoonotic disease risk in the wildland-urban interface
Roman Sharnuud, University of Tennessee, United States
Title : AI for good? Expanding our understanding of opinion leaders in a changing digital landscape
Amelia Burke Garcia, NORC at the University of Chicago, United States
Title : Confidence as care: Empowering under represented voices in public health leadership and community engagement
Sheena Yap Chan, The Tao of Self-Confidence, Canada
Title : Redefining eHealth literacy for the digital age: A scoping review to advance equity, engagement, and behaviour change
Comfort Sanuade, Concordia University, Canada
Title : Innovative approaches in public health leadership: Empowering communities for resilient health systems
Mohammad Kamal Hussain, Umm Al-Qura University, Saudi Arabia
Title : Assessing human exposure to key chemical carcinogens diagnostic approaches and interpretation
Vladan Radosavljevic, Military Medical Academy, Serbia