Daniel Druce scite author profile

Armed conflicts often result in cropland abandonment with significant impacts on food security. Moreover, conflicts restrict the collection of on-the-ground information required for organizing targeted relief distribution. Satellite remote sensing provides a way of observationally gathering information about disruptions during armed conflicts and food-security status in conflict zones.Using ~7500 multisource satellite images, we implemented a data-driven approach that showed a reduction in cultivated croplands in war-ravaged South Sudan by 23% from 2016 to 2018.Propensity score matching revealed a close relationship between cropland abandonment and armed conflicts that lead to drastic decreases in the available food supply. If war-induced abandonment had not occurred, our analysis shows that the abandoned croplands could have supported at least a quarter of the population in the southern states of South Sudan. Here, we demonstrate that remote-sensing technology can play a crucial role in rapid assessments of cropland abandonment in food-insecure regions, thus improving the basis for timely aid provision.

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An Optical and SAR Based Fusion Approach for Mapping Surface Water Dynamics over Mainland China

Druce

Tong

Lei³

et al. 2021

Remote Sensing

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Earth Observation (EO) data is a critical information source for mapping and monitoring water resources over large inaccessible regions where hydrological in-situ networks are sparse. In this paper, we present a simple yet robust method for fusing optical and Synthetic Aperture Radar (SAR) data for mapping surface water dynamics over mainland China. This method uses a multivariate logistic regression model to estimate monthly surface water extent over a four-year period (2017 to 2020) from the combined usages of Sentinel-1, Sentinel-2 and Landsat-8 imagery. Multi-seasonal high-resolution images from the Chinese Gaofen satellites are used as a reference for an independent validation showing a high degree of agreement (overall accuracy 94%) across a diversity of climatic and physiographic regions demonstrating potential scalability beyond China. Through inter-comparison with similar global scale products, this paper further shows how this new mapping technique provides improved spatio-temporal characterization of inland water bodies, and for better capturing smaller water bodies (< 0.81 ha in size). The relevance of the results is discussed, and we find this new enhanced monitoring approach has the potential to advance the use of Earth observation for water resource management, planning and reporting.

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Surface Water Dynamics from Space: A Round Robin Intercomparison of Using Optical and SAR High-Resolution Satellite Observations for Regional Surface Water Detection

et al. 2022

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Climate change, increasing population and changes in land use are all rapidly driving the need to be able to better understand surface water dynamics. The targets set by the United Nations under Sustainable Development Goal 6 in relation to freshwater ecosystems also make accurate surface water monitoring increasingly vital. However, the last decades have seen a steady decline in in situ hydrological monitoring and the availability of the growing volume of environmental data from free and open satellite systems is increasingly being recognized as an essential tool for largescale monitoring of water resources. The scientific literature holds many promising studies on satellite-based surface-water mapping, but a systematic evaluation has been lacking. Therefore, a round robin exercise was organized to conduct an intercomparison of 14 different satellite-based approaches for monitoring inland surface dynamics with Sentinel-1, Sentinel-2, and Landsat 8 imagery. The objective was to achieve a better understanding of the pros and cons of different sensors and models for surface water detection and monitoring. Results indicate that, while using a single sensor approach (applying either optical or radar satellite data) can provide comprehensive results for very specific localities, a dual sensor approach (combining data from both optical and radar satellites) is the most effective way to undertake largescale national and regional surface water mapping across bioclimatic gradients.

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Flow regime changes in the Lancang River, revealed by integrated modeling with multiple Earth observation datasets

Zhang

Jiang

Liu

et al. 2023

Science of The Total Environment

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Impacts of water resources management on land water storage in the North China Plain: Insights from multi-mission earth observations

Liu

Jiang

Zhang

et al. 2021

Journal of Hydrology

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Daniel Druce

The impact of conflict-driven cropland abandonment on food insecurity in South Sudan revealed using satellite remote sensing

An Optical and SAR Based Fusion Approach for Mapping Surface Water Dynamics over Mainland China

Surface Water Dynamics from Space: A Round Robin Intercomparison of Using Optical and SAR High-Resolution Satellite Observations for Regional Surface Water Detection

Flow regime changes in the Lancang River, revealed by integrated modeling with multiple Earth observation datasets

Impacts of water resources management on land water storage in the North China Plain: Insights from multi-mission earth observations

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