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Main Authors: Rufin, Philippe, Hammer, Pauline Lucie, Thomas, Leon-Friedrich, Lisboa, Sá Nogueira, Ribeiro, Natasha, Sitoe, Almeida, Hostert, Patrick, Meyfroidt, Patrick
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.10499
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author Rufin, Philippe
Hammer, Pauline Lucie
Thomas, Leon-Friedrich
Lisboa, Sá Nogueira
Ribeiro, Natasha
Sitoe, Almeida
Hostert, Patrick
Meyfroidt, Patrick
author_facet Rufin, Philippe
Hammer, Pauline Lucie
Thomas, Leon-Friedrich
Lisboa, Sá Nogueira
Ribeiro, Natasha
Sitoe, Almeida
Hostert, Patrick
Meyfroidt, Patrick
contents The design of science-based policies to improve the sustainability of smallholder agriculture is challenged by a limited understanding of fundamental system properties, such as the spatial distribution of active cropland and field size. We integrate very high spatial resolution (1.5 m) Earth observation data and deep transfer learning to derive crop field delineations in complex agricultural systems at the national scale, while maintaining minimum reference data requirements and enhancing transferability. We provide the first national-level dataset of 21 million individual fields for Mozambique (covering ~800,000 km2) for 2023. Our maps separate active cropland from non-agricultural land use with an overall accuracy of 93% and balanced omission and commission errors. Field-level spatial agreement reached median intersection over union (IoU) scores of 0.81, advancing the state-of-the-art in large-area field delineation in complex smallholder systems. The active cropland maps capture fragmented rural regions with low cropland shares not yet identified in global land cover or cropland maps. These regions are mostly located in agricultural frontier regions which host 7-9% of the Mozambican population. Field size in Mozambique is very low overall, with half of the fields being smaller than 0.16 ha, and 83% smaller than 0.5 ha. Mean field size at aggregate spatial resolution (0.05°) is 0.32 ha, but it varies strongly across gradients of accessibility, population density, and net forest cover change. This variation reflects a diverse set of actors, ranging from semi-subsistence smallholder farms to medium-scale commercial farming, and large-scale farming operations. Our results highlight that field size is a key indicator relating to socio-economic and environmental outcomes of agriculture (e.g., food production, livelihoods, deforestation, biodiversity), as well as their trade-offs.
format Preprint
id arxiv_https___arxiv_org_abs_2507_10499
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle National level satellite-based crop field inventories in smallholder landscapes
Rufin, Philippe
Hammer, Pauline Lucie
Thomas, Leon-Friedrich
Lisboa, Sá Nogueira
Ribeiro, Natasha
Sitoe, Almeida
Hostert, Patrick
Meyfroidt, Patrick
Computer Vision and Pattern Recognition
Machine Learning
The design of science-based policies to improve the sustainability of smallholder agriculture is challenged by a limited understanding of fundamental system properties, such as the spatial distribution of active cropland and field size. We integrate very high spatial resolution (1.5 m) Earth observation data and deep transfer learning to derive crop field delineations in complex agricultural systems at the national scale, while maintaining minimum reference data requirements and enhancing transferability. We provide the first national-level dataset of 21 million individual fields for Mozambique (covering ~800,000 km2) for 2023. Our maps separate active cropland from non-agricultural land use with an overall accuracy of 93% and balanced omission and commission errors. Field-level spatial agreement reached median intersection over union (IoU) scores of 0.81, advancing the state-of-the-art in large-area field delineation in complex smallholder systems. The active cropland maps capture fragmented rural regions with low cropland shares not yet identified in global land cover or cropland maps. These regions are mostly located in agricultural frontier regions which host 7-9% of the Mozambican population. Field size in Mozambique is very low overall, with half of the fields being smaller than 0.16 ha, and 83% smaller than 0.5 ha. Mean field size at aggregate spatial resolution (0.05°) is 0.32 ha, but it varies strongly across gradients of accessibility, population density, and net forest cover change. This variation reflects a diverse set of actors, ranging from semi-subsistence smallholder farms to medium-scale commercial farming, and large-scale farming operations. Our results highlight that field size is a key indicator relating to socio-economic and environmental outcomes of agriculture (e.g., food production, livelihoods, deforestation, biodiversity), as well as their trade-offs.
title National level satellite-based crop field inventories in smallholder landscapes
topic Computer Vision and Pattern Recognition
Machine Learning
url https://arxiv.org/abs/2507.10499