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      Supporting the capacities and knowledge of smallholder farmers in Kenya for sustainable agricultural futures: a Citizen Science pilot project

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          Abstract

          Sub-Saharan Africa is often presented as the continent most vulnerable to climatic change with major repercussions for food systems. Coupled with high rates of population growth, continued food insecurity and malnutrition, thus the need to enhance food production across the continent is seen as a major global imperative. We argue here, however, that current models of agricultural development in Eastern Africa frequently marginalise critical smallholder knowledge from the process of future agricultural design due to a lack of a methodological tools for engagement. This paper addresses this by outlining a potential means to capture and share locally produced agronomic information on a large scale. We report on a ‘Citizen Science’ pilot study that worked with smallholder farmers in Elgeyo-Marakwet County, Western Kenya, to co-design a mobile application using the well-developed Sapelli platform that easily allows farmers to identify, record and geolocate cropping patterns and challenges at multiple stages in the agricultural calendar using their own understanding. The pilot project demonstrated the technical and epistemological benefits of co-design, the abilities of smallholder farmers to co-design and use smartphone applications, and the potential for such technology to produce and share valuable agricultural and ecological knowledge in real time. Proof-of-concept data illustrates opportunities to spatially and temporally track and respond to challenges related to climate, crop disease and pests. Such work expounds how smallholder farmers are a source of largely untapped ecological and agronomic expert knowledge that can, and should, be harnessed to address issues of future agricultural resilience and food system sustainability.

          Most cited references34

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          Citizen Science: A Developing Tool for Expanding Science Knowledge and Scientific Literacy

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            Citizen Science and Volunteered Geographic Information: Overview and Typology of Participation

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              The Imperative for Regenerative Agriculture

              A review is made of the current state of agriculture, emphasising issues of soil erosion and dependence on fossil fuels, in regard to achieving food security for a relentlessly enlarging global population. Soil has been described as "the fragile, living skin of the Earth", and yet both its aliveness and fragility have all too often been ignored in the expansion of agriculture across the face of the globe. Since it is a pivotal component in a global nexus of soil-water-air-energy, how we treat the soil can impact massively on climate change - with either beneficial or detrimental consequences, depending on whether the soil is preserved or degraded. Regenerative agriculture has at its core the intention to improve the health of soil or to restore highly degraded soil, which symbiotically enhances the quality of water, vegetation and land-productivity. By using methods of regenerative agriculture, it is possible not only to increase the amount of soil organic carbon (SOC) in existing soils, but to build new soil. This has the effect of drawing down carbon from the atmosphere, while simultaneously improving soil structure and soil health, soil fertility and crop yields, water retention and aquifer recharge - thus ameliorating both flooding and drought, and also the erosion of further soil, since runoff is reduced. Since food production on a more local scale is found to preserve the soil and its quality, urban food production should be seen as a significant potential contributor to regenerative agriculture in the future, so long as the methods employed are themselves 'regenerative'. If localisation is to become a dominant strategy for dealing with a vastly reduced use of fossil fuels, and preserving soil quality - with increased food production in towns and cities - it will be necessary to incorporate integrated ('systems') design approaches such as permaculture and the circular economy (which minimise and repurpose 'waste') within the existing urban infrastructure. In addition to growing food in urban space, such actions as draught-proofing and thermally insulating existing building stock, and living/ working on a more local scale, would serve well to cut our overall energy consumption. In order to curb our use of fossil fuels, methods for reducing overall energy use must be considered at least equally important to expanding low-carbon energy production. In synopsis, it is clear that only by moving from the current linear, 'take, make, dispose (waste-creation)' model for resource-consumption, to the systemic, circular alternative of 'reduce, reuse, recycle, regenerate', are we likely to meet demands for future generations.
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                Author and article information

                Journal
                UCL Open Environ
                UCL Open Environ
                UCLOE
                UCL Open Environment
                UCL Press (UK )
                2632-0886
                01 December 2023
                2023
                : 5
                : e065
                Affiliations
                [1 ]McDonald Institute for Archaeological Research, University of Cambridge, Cambridge, UK
                [2 ]Department of Geography, University College London, London, UK
                [3 ]Prosperity Co-Lab Africa and British Institute in Eastern Africa, Nairobi, Kenya
                [4 ]Department of Anthropology, London School of Economics, London, UK
                [5 ]Department of Anthropology, University College London, London, UK
                [6 ]Institute for Global Prosperity, University College London, London, UK
                [7 ]Prosperity Co-Lab Africa, Nairobi, Kenya
                [8 ]School of Natural Resource Management, Department of Forestry and Wood Science, University of Eldoret, Eldoret, Kenya
                Author notes
                *Corresponding author: E-mail: md564@ 123456cam.ac.uk
                Author information
                https://orcid.org/0000-0001-9740-0622
                Article
                10.14324/111.444/ucloe.000065
                10691338
                38045732
                412ecbe8-ff85-4490-bb29-5215b668e050
                © 2023 The Authors.

                This is an open access article distributed under the terms of the Creative Commons Attribution Licence (CC BY) 4.0, which permits unrestricted use, distribution and reproduction in any medium, provided the original author and source are credited.

                History
                : 21 June 2022
                : 18 September 2023
                Page count
                Figures: 9, References: 37, Pages: 13
                Funding
                Funded by: GCRF: UCL Small Grant and then furthered under AHRC
                Award ID: AH/T00424X/1
                Funded by: European Union’s ERC Advanced Grant project European Citizen Science: Analysis and Visualisation
                Award ID: 694767
                This work was initially funded by a GCRF: UCL Small Grant and then furthered under AHRC award AH/T00424X/1. Development of Sapelli was supported by the European Union’s ERC Advanced Grant project European Citizen Science: Analysis and Visualisation (under Grant Agreement No 694767).
                Categories
                Research Article

                citizen science,sapelli,smartphone,co-design,trans-disciplinary,farmer,agriculture,sustainability,kenya,africa

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