Designing AfriCultuReS services to support food security in Africa

Thomas Alexandridis; Georgios Ovakoglou; Ines Cherif; Marta Gómez Giménez; Giovanni Laneve; Dimitrios Kasampalis; Dimitrios Moshou; Stergios Kartsios; Maria Chara Karypidou; Eleni Katragkou; S Herrera Garcia; Mahlatse Kganyago; Nosiseko Mashiyi; Kanhu Pattnayak; Andrew Challinor; Rose Pritchard; Dan Brockington; Clarisse Kagoyire; Juan Suarez Beltrán

doi:10.1111/tgis.12684

Designing AfriCultuReS services to support food security in Africa

Thomas Alexandridis, Georgios Ovakoglou, Ines Cherif, Marta Gómez Giménez, Giovanni Laneve, Dimitrios Kasampalis, Dimitrios Moshou, Stergios Kartsios, Maria Chara Karypidou, Eleni Katragkou, S Herrera Garcia, Mahlatse Kganyago, Nosiseko Mashiyi, Kanhu Pattnayak, Andrew Challinor, Rose Pritchard, Dan Brockington, Clarisse Kagoyire, Juan Suarez Beltrán

Global Development Institute

The University of Sheffield

Research output: Contribution to journal › Article › peer-review

Abstract

Earth observation (EO) data are increasingly being used to monitor vegetation and detect plant growth anomalies due to water stress, drought, or pests, as well as to monitor water availability, weather conditions, disaster risks, land use/land cover changes and to evaluate soil degradation. Satellite data are provided regularly by worldwide organizations, covering a wide variety of spatial, temporal and spectral characteristics. In addition, weather, climate and crop growth models provide early estimates of the expected weather and climatic patterns and yield, which can be improved by fusion with EO data. The AfriCultuReS project is capitalizing on the above to contribute towards an integrated agricultural monitoring and early warning system for Africa, supporting decision-making in the field of food security. The aim of this article is to present the design of EO services within the project, and how they will support food security in Africa. The services designed cover the users’ requirements related to climate, drought, land, livestock, crops, water, and weather. For each category of services, results from one case study are presented. The services will be distributed to the stakeholders and are expected to provide a continuous monitoring framework for early and accurate assessment of factors affecting food security in Africa.

Original language	English
Pages (from-to)	692-720
Number of pages	9
Journal	Transactions in GIS
Volume	25
Issue number	2
DOIs	https://doi.org/10.1111/tgis.12684
Publication status	Published - 11 Sept 2020

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Global Development Institute

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Alexandridis, T., Ovakoglou, G., Cherif, I., Gómez Giménez, M., Laneve, G., Kasampalis, D., Moshou, D., Kartsios, S., Karypidou, M. C., Katragkou, E., Herrera Garcia, S., Kganyago, M., Mashiyi, N., Pattnayak, K., Challinor, A., Pritchard, R., Brockington, D., Kagoyire, C., & Suarez Beltrán, J. (2020). Designing AfriCultuReS services to support food security in Africa. Transactions in GIS, 25(2), 692-720. https://doi.org/10.1111/tgis.12684

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title = "Designing AfriCultuReS services to support food security in Africa",

abstract = "Earth observation (EO) data are increasingly being used to monitor vegetation and detect plant growth anomalies due to water stress, drought, or pests, as well as to monitor water availability, weather conditions, disaster risks, land use/land cover changes and to evaluate soil degradation. Satellite data are provided regularly by worldwide organizations, covering a wide variety of spatial, temporal and spectral characteristics. In addition, weather, climate and crop growth models provide early estimates of the expected weather and climatic patterns and yield, which can be improved by fusion with EO data. The AfriCultuReS project is capitalizing on the above to contribute towards an integrated agricultural monitoring and early warning system for Africa, supporting decision-making in the field of food security. The aim of this article is to present the design of EO services within the project, and how they will support food security in Africa. The services designed cover the users{\textquoteright} requirements related to climate, drought, land, livestock, crops, water, and weather. For each category of services, results from one case study are presented. The services will be distributed to the stakeholders and are expected to provide a continuous monitoring framework for early and accurate assessment of factors affecting food security in Africa.",

author = "Thomas Alexandridis and Georgios Ovakoglou and Ines Cherif and {G{\'o}mez Gim{\'e}nez}, Marta and Giovanni Laneve and Dimitrios Kasampalis and Dimitrios Moshou and Stergios Kartsios and Karypidou, {Maria Chara} and Eleni Katragkou and {Herrera Garcia}, S and Mahlatse Kganyago and Nosiseko Mashiyi and Kanhu Pattnayak and Andrew Challinor and Rose Pritchard and Dan Brockington and Clarisse Kagoyire and {Suarez Beltr{\'a}n}, Juan",

year = "2020",

month = sep,

day = "11",

doi = "10.1111/tgis.12684",

language = "English",

volume = "25",

pages = "692--720",

journal = "Transactions in GIS",

issn = "1361-1682",

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Alexandridis, T, Ovakoglou, G, Cherif, I, Gómez Giménez, M, Laneve, G, Kasampalis, D, Moshou, D, Kartsios, S, Karypidou, MC, Katragkou, E, Herrera Garcia, S, Kganyago, M, Mashiyi, N, Pattnayak, K, Challinor, A, Pritchard, R, Brockington, D, Kagoyire, C & Suarez Beltrán, J 2020, 'Designing AfriCultuReS services to support food security in Africa', Transactions in GIS, vol. 25, no. 2, pp. 692-720. https://doi.org/10.1111/tgis.12684

TY - JOUR

T1 - Designing AfriCultuReS services to support food security in Africa

AU - Alexandridis, Thomas

AU - Ovakoglou, Georgios

AU - Cherif, Ines

AU - Gómez Giménez, Marta

AU - Laneve, Giovanni

AU - Kasampalis, Dimitrios

AU - Moshou, Dimitrios

AU - Kartsios, Stergios

AU - Karypidou, Maria Chara

AU - Katragkou, Eleni

AU - Herrera Garcia, S

AU - Kganyago, Mahlatse

AU - Mashiyi, Nosiseko

AU - Pattnayak, Kanhu

AU - Challinor, Andrew

AU - Pritchard, Rose

AU - Brockington, Dan

AU - Kagoyire, Clarisse

AU - Suarez Beltrán, Juan

PY - 2020/9/11

Y1 - 2020/9/11

N2 - Earth observation (EO) data are increasingly being used to monitor vegetation and detect plant growth anomalies due to water stress, drought, or pests, as well as to monitor water availability, weather conditions, disaster risks, land use/land cover changes and to evaluate soil degradation. Satellite data are provided regularly by worldwide organizations, covering a wide variety of spatial, temporal and spectral characteristics. In addition, weather, climate and crop growth models provide early estimates of the expected weather and climatic patterns and yield, which can be improved by fusion with EO data. The AfriCultuReS project is capitalizing on the above to contribute towards an integrated agricultural monitoring and early warning system for Africa, supporting decision-making in the field of food security. The aim of this article is to present the design of EO services within the project, and how they will support food security in Africa. The services designed cover the users’ requirements related to climate, drought, land, livestock, crops, water, and weather. For each category of services, results from one case study are presented. The services will be distributed to the stakeholders and are expected to provide a continuous monitoring framework for early and accurate assessment of factors affecting food security in Africa.

AB - Earth observation (EO) data are increasingly being used to monitor vegetation and detect plant growth anomalies due to water stress, drought, or pests, as well as to monitor water availability, weather conditions, disaster risks, land use/land cover changes and to evaluate soil degradation. Satellite data are provided regularly by worldwide organizations, covering a wide variety of spatial, temporal and spectral characteristics. In addition, weather, climate and crop growth models provide early estimates of the expected weather and climatic patterns and yield, which can be improved by fusion with EO data. The AfriCultuReS project is capitalizing on the above to contribute towards an integrated agricultural monitoring and early warning system for Africa, supporting decision-making in the field of food security. The aim of this article is to present the design of EO services within the project, and how they will support food security in Africa. The services designed cover the users’ requirements related to climate, drought, land, livestock, crops, water, and weather. For each category of services, results from one case study are presented. The services will be distributed to the stakeholders and are expected to provide a continuous monitoring framework for early and accurate assessment of factors affecting food security in Africa.

UR - https://onlinelibrary.wiley.com/doi/abs/10.1111/tgis.12684

U2 - 10.1111/tgis.12684

DO - 10.1111/tgis.12684

M3 - Article

SN - 1361-1682

VL - 25

SP - 692

EP - 720

JO - Transactions in GIS

JF - Transactions in GIS

IS - 2

ER -

Designing AfriCultuReS services to support food security in Africa

Abstract

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UN SDGs

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