Combining Sentinel-1 and -2 With In-Situ Data to provide Time Series of Soil Moisture Maps at Regional Scale in Ghana
Sub-Saharian African agriculture is perceived as a high-risk activity as is mainly rainfall-dependent and climate variability are increasing.
Within the framework of the EU Horizon2020 funded TWIGA project, together Starlab Space and TAHMO intend to contribute to reducing uncertainties related to climatic information by providing improved estimates of surface soil moisture. Accurate risk-related information is key to foster investment into the agricultural sector, facilitate access to insurance products, and ultimately promote food security.
Soil moisture is one of the key soil characteristics as it is closely related to crop vegetation development. Currently, available soil moisture products are generated and calibrated for global or regional scale applications and at spatial resolutions (~1km2) usually too coarse for monitoring common small farms.
We present an approach to generate soil moisture maps at 30 m spatial resolution, every 3-6 days, by using time series of Sentinel-1 synthetic-aperture radar backscatter and Sentinel-2 optical reflectance data, and in-situ data. Soil moisture is estimated with a neural network trained with synthetical data generated from simulations from a radiative transfer model. A neural network is useful to ensure computationally affordable estimates over large areas while keeping the accuracy high. The radio transfer model is calibrated with in-situ soil moisture measurement in order to capture the local relationships between soil moisture
and radar and optical data, and soil and vegetation characteristics.
We performed an independent validation with a leave-one-out cross sampling approach. The observed good accuracy, particularly in homogeneous areas, encourages us to undertake further work in order to be able to map soil moisture on any region of the Globe, by integrating the available global in-situ station networks.
Below you can see an example of our soil moisture maps over an 80x80 km 2 square in the
north of Ghana for four months.
Written by Marc Padila
This project has received funding from the European Union’s Horizon 2020 Research and Innovation Programme under grant agreement No.776691. The opinions expressed on the web page are of the authors only and no way reflect the European Commission’s opinions. The European Union is not liable for any use that may be made of the information.