GIS and spatial analysis contribute to One Health by...

• A. Mapping disease distributions, identifying environmental drivers, and supporting cross-sector planning and targeted interventions.
• B. Replacing the need for laboratory testing.
• C. Only used for urban planning and not health.
• D. Eliminating field investigations.

Answer: (A)

GIS and spatial analysis reveal where disease occurs, what environmental factors help drive it, and how different sectors can coordinate actions. By layering data on human cases, animal reservoirs, vectors, land use, climate, and water sources, you can map hotspots and watch how outbreaks evolve over time. This helps identify environmental drivers—such as deforestation, irrigation, or rainfall patterns—that create conditions for transmission. With these insights, public health, veterinary services, environmental agencies, and other stakeholders can plan together, allocate resources efficiently, and implement targeted interventions in the places most at risk. For example, mapping a vector-borne disease couples case data with vector distributions and habitat information to guide surveillance and control efforts. Remember that GIS supports decision-making rather than replacing lab testing or field investigations; it guides where to collect samples and where to focus on-the-ground actions. It’s applicable beyond urban planning and is a valuable tool for understanding health within ecosystems.