Embedding stakeholders’ priorities into the low-emission development of the East African dairy sector

Yesuf, Gabriel; Schoneveld, G.C.; Zijlstra, Mink; Hawkins, James W.; Kihoro, Esther; Vernooij, Vera; Rufino, Mariana C.

doi:10.1088/1748-9326/abfe2d

Cited by 7 publications

(8 citation statements)

References 33 publications

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“…Moreover, overall GHG reductions estimated by this study are substantially larger (20-37%) (Fig. 1c) compared to previous estimates 16,17 . These findings indicate that 4.3-7.9 Mt of CO2eq could be saved every year by supporting the dairy sector achieve self-sufficiency and mitigation targets eligible for climate financing.…”

Section: Development Self-sufficiency and Mitigationcontrasting

confidence: 77%

“…Breeds with high feed conversion efficiency produce milk with up to 35% lower GHG emissions intensity, implying Tanzania's genetic improvement goals could reduce the dairy sector's carbon footprint 15 . Previous assessments have been limited in scope neglecting the risks of land use change and did not account for the costs and benefits from breed adoption 16,17 .…”

Section: Introductionmentioning

confidence: 99%

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High-yield dairy cattle breeds improve farmer incomes, curtail greenhouse gas emissions and reduce dairy import dependency in Tanzania

et al. 2022

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Tanzania's dairy sector is poorly developed, creating reliance on imports for processed, value-added dairy products and threatening food security, particularly when supply chains are disrupted due to market volatility or armed conflicts. The Tanzanian Dairy Development Roadmap (DDR) is a domestic development initiative that aims to achieve dairy self-sufficiency by 2030. Here, we model different outcomes of the DDR, finding that adoption of high yield cattle breeds is essential for reducing dairy import dependency. Avoided land use change resulting from fewer, higher yielding dairy cattle would lead to lower greenhouse gas (GHG) emissions. Dairy producers' average incomes could increase despite capital expenditure and land allocation required for the adoption of high yield breeds. Our findings demonstrate the importance of bottom-up development policies for sustainable food system transformations, which also support food sovereignty, increase incomes for smallholder farmers and contribute towards Tanzania's commitments to reduce GHG emissions.

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Section: Development Self-sufficiency and Mitigationcontrasting

confidence: 77%

Section: Introductionmentioning

confidence: 99%

High-yield dairy cattle breeds improve farmer incomes, curtail greenhouse gas emissions and reduce dairy import dependency in Tanzania

et al. 2022

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“…This was done via mapping disaggregated intervention strategies responsive to observed variation in dairy production which resonate with local policy planning and capture diverse priorities. Specifically, national, regional and local stakeholder priorities were explored and embedded in LED (Yesuf et al 2021), producer heterogeneity was typified (Kihoro et al 2021) and intrahousehold dynamics were elaborated (Tavenner et al 2018).…”

Section: Solutions Thinking and Transition Pathwaysmentioning

confidence: 99%

Transition pathways and transitions to sustainability : A critical exploration of perspectives, typologies and agendas

Wigboldus¹,

Eldik

Vernooij³

2021

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The perspective of transitions to sustainability seems to have almost replaced the perspective of sustainable development these days. The idea and concept of 'transition pathways' features prominently in it. Though originating from the field of systems thinking, it often tends to be approached in a rather instrumentalist way: how to make it happen. This often goes with a focus on technology and innovations. A different approach would be to focus on how to engage with related processes in appropriate ways and considering appropriate principles and values to be expressed through transition pathways. Another tendency is it to always think of transitions as something positive: "transitions to sustainability -must be good!". In this discussion paper we problematise transition pathways as concept and approach to societal change -in particular in relation to food systems -and list a series of critical reflections. As we unpack related dimensions, perspectives, and societal processes, a clear picture emerges: the need to carefully consider implications of underlying dynamics and political agendas more than researchers tend to do. We close with a number of suggestions regarding ways in which this can be done.

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“…Breeds with high feed conversion efficiency are estimated to produce milk with up to 35% lower GHGs per litre, implying Tanzania's genetic improvement goals have inherent potential to reduce the dairy sector's carbon footprint 19 . Previous national-level assessments of these outcomes however have omitted the potential for avoided land use change to contribute to dairy's GHG mitigation potential, thus under-estimating the sector's climate mitigation potential 20,21 . In this way, an assessment to quantify the full magnitude of GHG reductions to be realised through improved breeds and the potential contribution to national development goals could be useful to inform climate mitigation policy in Tanzania's dairy sector, and by extension other sectors facing similar challenges.…”

Section: Introductionmentioning

confidence: 99%

Improved animal genetics deliver low emissions development in East Africa’s dairy sector

Hawkins

Komarek²,

Kihoro³

et al. 2022

Preprint

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Smallholder farm-households produce most of the crop and livestock products consumed in developing countries. Equitable transitions to low emissions food production will depend on policies that promote a reduction of greenhouse gases (GHGs) whilst improving these farmers’ livelihoods. Here, using survey data and simulation modelling, we show that Tanzania’s public programme to reduce import dependence through efficiency gains in the dairy sector increases farmer incomes (+12-20%) whilst reducing GHG emissions consistent with the Nationally Determined Contributions pledge (21-39%). Scenario analysis demonstrates that incrementally higher proportions of improved cattle (Bos taurus crosses) in the herd lead to greater reductions in GHGs over the Baseline, whilst benefitting producers through higher marketable surpluses and household income. As East Africa has the highest population density of indigenous Bos indicus cattle in Africa, genetic gains will be a key lever for reconciling food sovereignty with climate mitigation pledges throughout the region.

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Embedding stakeholders’ priorities into the low-emission development of the East African dairy sector

Cited by 7 publications

References 33 publications

High-yield dairy cattle breeds improve farmer incomes, curtail greenhouse gas emissions and reduce dairy import dependency in Tanzania

High-yield dairy cattle breeds improve farmer incomes, curtail greenhouse gas emissions and reduce dairy import dependency in Tanzania

Transition pathways and transitions to sustainability : A critical exploration of perspectives, typologies and agendas

Improved animal genetics deliver low emissions development in East Africa’s dairy sector

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