The potential effects of climate change on the subsistence farmers’ wellbeing in tropical (sub)montane homegardens. A case study on Mount Kilimanjaro
The potential effects of climate change on the subsistence farmers’ wellbeing in tropical (sub)montane homegardens. A case study on Mount Kilimanjaro
Tropical agroforestry systems support the wellbeing of millions of subsistence farmers. Owing to their ecosystem services, these agricultural systems are often advocated in government, policy, and literature as a potential adaptation to climate change measure despite emerging evidence that agroforestry systems could succumb to climate change. While the agroecological impacts of climate change on tropical agroforests are becoming increasingly apparent, few studies investigate the impacts on farmers’ wellbeing. This study empirically analyses how a potentially warmer and drier future climate could affect the wellbeing of subsistence farmers in a homegarden agroforestry system.
We employed a space-for-time climate analogue analysis approach based on the variation in altitude proxying for changes in climate on the lower southeast slopes of Mt Kilimanjaro to examine the climate effect on provisioning ecosystem services and farmers’ wellbeing. To guide our study, we developed an interdisciplinary framework for understanding how changes in climate pressures can impact farmers within tropical agroforests by considering effects on the system’s social and ecological components, ecosystem services, and farmers’ wellbeing. A mixed-method approach was used to statistically analyse the variation in farming households’ wellbeing in the homegardens and qualitatively understand the mechanisms.
Overall, the change in climate conditions reduced the homegarden’s natural capital stock, e.g., livestock fodder, and productivity, negatively affecting farmers’ wellbeing. For example, farmers under the warmer and drier climate conditions were less likely to consume the three daily meals required for a good life (OR = 0.441, P < 0.05). Farmers who supplemented their homegarden crop production using dryland agriculture were less vulnerable to climate effects. However, this strategy relies on farmers' sustained access to expensive productive assets, i.e., agrochemicals and farmland, which could become challenging under climate change. Our findings are significant because 1) they indicate that farmers’ wellbeing could decline under climate change, and 2) they evidence that tropical agroforestry systems can still be vulnerable to climate effects despite their advocacy as an adaptation measure. We suggest that policymakers utilise climate financing to assist farmers in adapting their homegarden to climate change, for example, by establishing climate-resilient fodder and crops.
Agroforestry, Climate impacts, Conceptual framework, Ecosystem services, Livelihoods, Multidimensional wellbeing
Watts, Martin
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Hutton, Craig
9102617b-caf7-4538-9414-c29e72f5fe2e
Paul, Abel
fcb3245c-bcbc-423b-a43d-e9506eb84364
Suckall, Natalie R
6403cd8a-dab8-4fed-9136-ab293700d4fe
Peh, Kelvin S.-H.
0bd60207-dad8-43fb-a84a-a15e09b024cc
1 August 2024
Watts, Martin
542ac943-dbed-4d9d-83ec-aa1812eee62a
Hutton, Craig
9102617b-caf7-4538-9414-c29e72f5fe2e
Paul, Abel
fcb3245c-bcbc-423b-a43d-e9506eb84364
Suckall, Natalie R
6403cd8a-dab8-4fed-9136-ab293700d4fe
Peh, Kelvin S.-H.
0bd60207-dad8-43fb-a84a-a15e09b024cc
Watts, Martin, Hutton, Craig, Paul, Abel, Suckall, Natalie R and Peh, Kelvin S.-H.
(2024)
The potential effects of climate change on the subsistence farmers’ wellbeing in tropical (sub)montane homegardens. A case study on Mount Kilimanjaro.
Journal of Rural Studies, 110, [103346].
(doi:10.1016/j.jrurstud.2024.103346).
Abstract
Tropical agroforestry systems support the wellbeing of millions of subsistence farmers. Owing to their ecosystem services, these agricultural systems are often advocated in government, policy, and literature as a potential adaptation to climate change measure despite emerging evidence that agroforestry systems could succumb to climate change. While the agroecological impacts of climate change on tropical agroforests are becoming increasingly apparent, few studies investigate the impacts on farmers’ wellbeing. This study empirically analyses how a potentially warmer and drier future climate could affect the wellbeing of subsistence farmers in a homegarden agroforestry system.
We employed a space-for-time climate analogue analysis approach based on the variation in altitude proxying for changes in climate on the lower southeast slopes of Mt Kilimanjaro to examine the climate effect on provisioning ecosystem services and farmers’ wellbeing. To guide our study, we developed an interdisciplinary framework for understanding how changes in climate pressures can impact farmers within tropical agroforests by considering effects on the system’s social and ecological components, ecosystem services, and farmers’ wellbeing. A mixed-method approach was used to statistically analyse the variation in farming households’ wellbeing in the homegardens and qualitatively understand the mechanisms.
Overall, the change in climate conditions reduced the homegarden’s natural capital stock, e.g., livestock fodder, and productivity, negatively affecting farmers’ wellbeing. For example, farmers under the warmer and drier climate conditions were less likely to consume the three daily meals required for a good life (OR = 0.441, P < 0.05). Farmers who supplemented their homegarden crop production using dryland agriculture were less vulnerable to climate effects. However, this strategy relies on farmers' sustained access to expensive productive assets, i.e., agrochemicals and farmland, which could become challenging under climate change. Our findings are significant because 1) they indicate that farmers’ wellbeing could decline under climate change, and 2) they evidence that tropical agroforestry systems can still be vulnerable to climate effects despite their advocacy as an adaptation measure. We suggest that policymakers utilise climate financing to assist farmers in adapting their homegarden to climate change, for example, by establishing climate-resilient fodder and crops.
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Watt et al - 2024 - Journal of Rural Studies
- Accepted Manuscript
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1-s2.0-S0743016724001505-main
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Accepted/In Press date: 12 July 2024
Published date: 1 August 2024
Keywords:
Agroforestry, Climate impacts, Conceptual framework, Ecosystem services, Livelihoods, Multidimensional wellbeing
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Local EPrints ID: 492454
URI: http://eprints.soton.ac.uk/id/eprint/492454
ISSN: 0743-0167
PURE UUID: ded9de58-8a4a-4b52-9769-4e2b6d7f4514
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Date deposited: 29 Jul 2024 16:36
Last modified: 19 Dec 2024 02:44
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Author:
Abel Paul
Author:
Natalie R Suckall
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