Fields are not uniform
A single farm can span multiple micro-climates. A dip in topography can become a frost pocket; a tree line can alter wind flow. Regional forecasts at 10km resolution treat your entire operation as a single pixel, ignoring these vital differences.
Weatherwise brings meteorology down to the field level. By modeling at 200m to 1km resolution, we resolve the local topography and land cover that drive conditions on your specific plots. This is the difference between knowing it might freeze in the county, and knowing which rows need protection.
Operational efficiency: spraying & irrigation
Timing is everything in modern agriculture.
- Spraying: Our models provide precise wind speed and direction data at low altitudes, helping you identify optimal windows to minimize drift and comply with regulations.
- Irrigation: We model soil-atmosphere exchange and precipitation with high spatial fidelity. This helps optimize water usage by predicting exactly where rain will fall and how fast soil moisture will deplete based on local evaporation rates.
Timing is everything in modern agriculture.
- Spraying: Our models provide precise wind speed and direction data at low altitudes, helping you identify optimal windows to minimize drift and comply with regulations.
- Irrigation: We model soil-atmosphere exchange and precipitation with high spatial fidelity. This helps optimize water usage by predicting exactly where rain will fall and how fast soil moisture will deplete based on local evaporation rates.
Crop protection and yield optimization
Extreme events threaten yield. Accurate prediction of frost, heat stress, and hail requires resolving the physical processes that create them.
Our physics-based models capture the development of nocturnal inversion layers (frost) and convective instability (hail/storms). By integrating this data into Farm Management Information Systems (FMIS), agronomists can take proactive measures—deploying fans, heaters, or hail nets exactly when and where they are needed.
Extreme events threaten yield. Accurate prediction of frost, heat stress, and hail requires resolving the physical processes that create them.
Our physics-based models capture the development of nocturnal inversion layers (frost) and convective instability (hail/storms). By integrating this data into Farm Management Information Systems (FMIS), agronomists can take proactive measures—deploying fans, heaters, or hail nets exactly when and where they are needed.
Seamless integration with your existing systems
Farmers need answers, not raw data files. That is why our platform is designed for integration. Ag-tech companies and large farming cooperatives use our API to feed their proprietary software.
You define the farm boundaries and required resolution. We handle the heavy lifting—running the models and delivering the output to an S3 bucket. This allows you to present actionable insights to the farmer via your own user interface, backed by the most precise weather data available.
Farmers need answers, not raw data files. That is why our platform is designed for integration. Ag-tech companies and large farming cooperatives use our API to feed their proprietary software.
You define the farm boundaries and required resolution. We handle the heavy lifting—running the models and delivering the output to an S3 bucket. This allows you to present actionable insights to the farmer via your own user interface, backed by the most precise weather data available.
