Scientific need
Long, spatially consistent records are needed to examine seasonality, long-run change, district departures from broader zone patterns and the agreement or mismatch between fire activity and burned area.
Ghana fire research
A research programme connecting long-run fire observations, district analysis, open data and ongoing wildfire-susceptibility modelling
Programme overview
The Ghana Fire Observatory brings together long-run burned-area records, active-fire observations, harmonized district reporting and agro-climatic context. It is designed to make differences between fire activity and fire impact visible, document data support honestly and connect analytical results to reusable public resources.
The programme supports district-scale fire-regime studies, comparison of MODIS and VIIRS observations and ongoing development of a national wildfire-susceptibility framework.
Why this research matters
Ghana’s fire patterns vary through time, across ecological contexts and between districts. Satellite products also observe different aspects of fire. Treating those signals as equivalent can obscure meaningful variation.
Long, spatially consistent records are needed to examine seasonality, long-run change, district departures from broader zone patterns and the agreement or mismatch between fire activity and burned area.
Transparent district evidence can support research, environmental monitoring and fire-management planning, provided users understand the limits of satellite observations and aggregated statistics.
Study area
The programme uses 260 harmonised districts assigned to five agro-climatic zones by greatest spatial overlap. National summaries provide the broad view; zones provide ecological context; districts expose local heterogeneity.
| Agro-climatic zone | Code | Harmonised districts | Analytical role |
|---|---|---|---|
| Sudan Savannah | SS | 20 | Northern dryland context |
| Guinea Savannah | GS | 45 | Broad savannah fire context |
| Transition | TZ | 27 | Forest–savannah transition context |
| Forest | FZ | 110 | Forest-zone context |
| Coastal | CZ | 58 | Coastal and urbanising context |
| Total | 260 | National district framework | |
Evidence and status
A peer-reviewed geospatial study of fire records, burned area and potential climatic and anthropogenic drivers in Mole National Park.
Open the published article in a new tabA contributing paper to the Global Assessment Report on Disaster Risk Reduction 2019, published by the United Nations Office for Disaster Risk Reduction.
Open the UNDRR record in a new tabDistrict and agro-climatic-zone monthly datasets for 2001–2024, accompanied by audit, manifest and merge-integrity files.
Open the Figshare dataset in a new tabThe analysis is complete and the manuscript is under peer review. It is not counted as a publication, and its provisional numerical findings are not presented here as established evidence.
Current work is developing a leakage-aware, explainable and calibrated modelling framework with district and agro-climatic-zone reporting. Results will be published only after validation.
Future outputs will focus on clear spatial reporting, reproducible release packages and communication suitable for research and planning contexts.
Principal observations
Monthly burned-area measures describe mapped fire impact: where the land surface was detected as burned and how much area was affected.
Thermal detections provide a longer-run activity signal and support comparison with burned-area observations.
Higher-resolution thermal detections provide overlap-era activity information. They are analysed within their validated support window rather than backfilled with zeros.
Research resources
The Ghana Fire Observatory is a research and analytical resource. It is not an emergency-warning or incident-response service. For active emergencies, consult the relevant public authorities. Research outputs should be interpreted with the documented spatial, temporal and sensor limitations.