IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing (Jan 2025)
An Operational Framework to Track Individual Farmland Trees Over Time at National Scales Using PlanetScope
Abstract
Trees outside forests, in particular on croplands, play a crucial role for food security and climate resilience in the Global South but are threatened by increasing climatic change and human pressures. The dynamics of agroforestry systems and national cropland tree stocks are largely unknown, as currently, no robust monitoring system exists to remotely detect single field trees and track changes at national scales. Here, we present a framework to track cropland trees at the single tree level across multiple years, using a combination of satellite imagery, deep learning, and object-based change classification. The approach matches annual tree center predictions to detect changes, such as individual tree losses from logging or tree mortality events. The slope between annual tree prediction confidence heatmaps is also used to detect areas of gains, with possible applications for monitoring plantation and restoration areas. The framework is designed for PlanetScope nanosatellite imagery, which offers unprecedented opportunities for detailed tree monitoring given the combined high spatial and temporal resolution. PlanetScope imagery, however, also comes with a range of challenges, which are discussed and for which solutions are proposed. We demonstrate the framework by applying it to a national-scale case study of cropland trees in Tanzania from 2018 to 2022, detecting a disappearance of 1 10 500 trees with confidence >0.8.
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