Browsing by Author "Kajobe, Robert"
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Item Food system innovation platforms as a pathway towards regenerative inclusive food systems(Wageningen University & Research, 2023) Froebrich, Jochen; Groot, Annemarie; Adokorach, Molly; Aranguiz, Adolfo Alvarez; Andeweg, Karin; Omedo, Bockline Bebe; Beekman, Gonne; Bennink, Viola; Berecha, Gezahegn; Alho, Carlos Brazao Vieira; Brummelhuis, Amber; Kajobe, Robert; Langi, Sandra; Malingumu, Richard; Nabulime, Maureen NorahFood systems in East Africa are under pressure. Climate change, biodiversity loss, natural resource depletion, and declining soil health are having an impact. Hunger continues to grow. Recent developments, such as the increasing price of inputs like mineral fertilisers, make the need for change even more urgent. Many agree that to reverse these trends requires a fundamental change. We need a transition towards Regenerative Inclusive Food Systems. In another booklet we describe what Regenerative Inclusive Food Systems may look like, why we need them and what lessons we have learned in the REFOOTURE project on the transition towards such food systems.Item A healthy diet for a growing population: a case study of Arua, Uganda(Springer Nature, 2023-01-27) Hermelink, Marleen I.; Pittore, Katherine H.; Álvarez Aranguiz, Adolfo; Pereira da Silva, Fatima I.; Roefs, Marlene M. I.; Kajobe, Robert; Malingumu, Richard; Hengsdijk, HuibIt is uncertain whether Sustainable Development Goal 2 (SDG2), a healthy diet for all, can be achieved in East Africa given its strong population growth, low agricultural yields, and the high perishability of nutrient-dense foods. We examine the consequences of a locally produced healthy diet on land use in a case study of the Arua district in Uganda. This type of analysis can alert policy makers to looming nutrition gaps and support the selection of alternative solution strategies. Using a linear programming (LP) model and three population growth projections, we estimate the minimum agricultural area needed in 2040 to produce a healthy diet that follows EAT-Lancet dietary diversity guidelines and supplies the average requirements of calories, proteins, Iron, and vitamin A. We also compare in scenarios to what extent i) production intensification, ii) food loss reduction, iii) by-product consumption, and iv) vitamin supplementation could reduce the required agricultural area. Results show that the necessary area to produce a healthy diet in 2040 is 160% larger than Arua’s current crop area and would greatly exceed the district’s total area. We also show that none of the changes proposed in our scenarios allows a sufficient increase in food production, suggesting that a mix of even more drastic changes across sectors will be necessary. The results underline the challenge for rural areas in East Africa like Arua to provide a healthy diet to its fast growing population, requiring integrated food system changes and policy coordination to orchestrate the increased availability of diverse and nutritious foods.Item Moving towards regenerative inclusive food systems(Wageningen University & Research, 2023) Froebrich, Jochen; Groot, Annemarie; Adokorach, Molly; Aranguiz, Adolfo Alvarez; Andeweg, Karin; Omedo, Bockline Bebe; Beekman, Gonne; Kajobe, Robert; Langi, Sandra; Malingumu, Richard; Nabulime, Maureen NorahThe food systems in which people in East Africa produce and consume their daily meals are in crisis. Hunger continues to grow. Climate change, biodiversity loss, depletion of natural resources and declining soil health are the factors making the lives of farmers and other actors in these food systems increasingly difficult. This booklet is about Regenerative Inclusive Food Systems. These are based on the idea that for the food system to change for the better, fundamental changes are needed in society – in the agricultural sector and among both consumers and policy makers. There are already many initiatives that aim to improve the current situation by focussing on sustainable outcomes, most of which are based on technology and economics. Regenerative Inclusive Food Systems approach go beyond this, by focussing on how to get to these outcomes, where the capacity to regenerate is key. Regenerative Inclusive Food Systems are about the motivation and capacities of people in the food system, starting from local communities: about their motivation and capacities to reflect on the situation, to create a common vision, and to inspire others to make a change. With this approach, interpersonal relationships will become stronger, as people take care of each other and pursue paths for equal opportunities in transforming their food systems, while leaving no one behind. Moreover, in Regenerative Inclusive Food Systems, people are seen as being embedded in nature and their relationship with nature is therefore fundamentally different. The ecosystem is regenerated, including the rich life in the soil beneath our feet.Item REFOOTURE: A project to advance regenerative inclusive food systems(Wageningen University & Research, 2023) Froebrich, Jochen; Groot, Annemarie; Adokorach, Molly; Aranguiz, Adolfo Alvarez; Andeweg, Karin; Omedo, Bockline Bebe; Beekman, Gonne; Bennink, Viola; Kajobe, Robert; Langi, Sandra; Malingumu, Richard; Nabulime, Maureen NorahDespite all the efforts in recent decades, food insecurity, poverty and nature degradation are on the rise in East Africa. The REFOOTURE project believes fundamental change is needed to solve these issues. They can only be solved by transforming food systems into Regenerative Inclusive Food Systems. In Regenerative Inclusive Food Systems, people are seen as part of nature, nurturing nature rather than exploiting it. In these food systems, nature and social relationships are regenerated, supporting food security and resilient livelihoods. The REFOOTURE project, which was launched in 2020 with funding from the IKEA Foundation, aims to foster Regenerative Inclusive Food Systems in three East African countries: Ethiopia, Kenya, and Uganda. The key idea behind REFOOTURE is that innovation is crucial to fostering social, technological, and institutional transformation towards Regenerative Inclusive Food Systems. These innovations should be place-based, rooted in the specific characteristics of a place which is in some way meaningful to the people living there. Local communities, their territory and their surroundings determine the place-based potential for innovations.Item Stingless beekeeping in Uganda: an industry in its infancy(African Entomology, 2021-03-23) Chemurot, M.; Otim, A.S.; Namayanja, D.; Onen, H.; Angiro, C.; Mugume, R.; Kajobe, Robert; Macharia, J.; Gikungu, M.; Abila, P. P.; Kasangaki, P.Stingless bees are important resources for pollination of crops, production of medicinal honey and other products. However, throughout the developing countries in Africa, meliponiculture has received less attention in beekeeping development programmes. Here, the current situation of stingless beekeeping in Uganda is assessed. First, stingless bee species utilised for their products were collected and identified. Thereafter, the economic benefits derived from stingless beekeeping in the Western Highlands agro-ecological zones of Uganda with anecdotal reports of meliponiculture were analysed. The findings reveal that stingless beekeeping is in its early stages of development in Uganda. Four stingless bee species were identified: Meliponula bocandei, Meliponula nebulata, Meliponula ferruginea and Plebeina hildebrandtii that are currently used for honey and propolis. These stingless bee species can be selected for domestication, targeting different products such as honey, propolis and pollen to make meliponiculture more profitable. Indigenous knowledge of beekeepers that can assist in locating wild stingless bee nests for domestication was documented as it is essential for the preservation of this practice. In order to transform the stingless beekeeping industry in Uganda, training needs such as hive making, colony management, product harvesting and processing will have to be addressed.