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1. The impacts of climate change, energy policy and traditional ecological practices on future firewood availability for Diné (Navajo) People

   https://doi.org/10.1098/rstb.2022.0394  

   Magargal, Kate; Wilson, Kurt; Chee, Shaniah; Campbell, Michael J; Bailey, Vanessa; Dennison, Philip E; Anderegg, William_R L; Cachelin, Adrienne; Brewer, Simon; Codding, Brian Frank (November 2023, Philosophical Transactions of the Royal Society B: Biological Sciences)

   Local-scale human–environment relationships are fundamental to energy sovereignty, and in many contexts, Indigenous ecological knowledge (IEK) is integral to such relationships. For example, Tribal leaders in southwestern USA identify firewood harvested from local woodlands as vital. For Diné people, firewood is central to cultural and physical survival and offers a reliable fuel for energy embedded in local ecological systems. However, there are two acute problems: first, climate change-induced drought will diminish local sources of firewood; second, policies aimed at reducing reliance on greenhouse-gas-emitting energy sources may limit alternatives like coal for home use, thereby increasing firewood demand to unsustainable levels. We develop an agent-based model trained with ecological and community-generated ethnographic data to assess the future of firewood availability under varying climate, demand and IEK scenarios. We find that the long-term sustainability of Indigenous firewood harvesting is maximized under low-emissions and low-to-moderate demand scenarios when harvesters adhere to IEK guidance. Results show how Indigenous ecological practices and resulting ecological legacies maintain resilient socio-environmental systems. Insights offered focus on creating energy equity for Indigenous people and broad lessons about how Indigenous knowledge is integral for adapting to climate change. This article is part of the theme issue ‘Climate change adaptation needs a science of culture’. 

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2. Design of a Culturally Situated Hybrid Immersive and Hands-On STEM Learning Environment for Middle School Students on Navajo Nation

   Metcalf, S; Jordan, S (June 2025, Immersive Learning Research Network)

   This extended abstract describes early-stage research on the research, design, and development of two culturally situated STEM curriculum units for Navajo Nation (Diné) middle school students, on the topics of energy and water, blending immersive and hands-on experiences. The first unit addresses the significant issue of energy access on Navajo Nation, where 32% of homes lack electricity. Culturally relevant, virtual experiences provide engaging and motiving narrative-based contexts for learning, aiming to inspire the next generation of Diné engineers and scientists to use their cultural and STEM knowledge to support their communities. We present the design of a prototype exploring options for solar energy on Navajo Nation, using immersive, place- based virtual representations, and feedback from teachers and students who engaged with the prototype. We describe the design of the full energy unit, and upcoming plans for classroom testing during spring, 2025. Initial findings from this classroom testing will be shared in the poster presentation of this extended abstract at the ILRN conference in June 2025. 

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3. Assessing energy sources for powering “evakuula”

   https://doi.org/10.18697/ajfand.114.20600  

   Sempiira, EJ; Ononye, C; Robinson, J; Aralu, A; Mugisa, DJ; Katimbo A, A; Galiwango, J; Gomillion, C; Kisaalita, WS (November 2022, African Journal of Food, Agriculture, Nutrition and Development)

   Technologies that are appropriate, affordable, and sustainable are needed to increase incomes and resilience among sub-Saharan African smallholder farmers. A combination of thermization and low-cost evaporative cooling, termed Evakuuling, was developed to enable rural smallholder dairy farmers to preserve their evening milk in the absence of grid-electricity. The “EvaKuula” was configured to be powered by biogas. Biogas is used for the thermization process of the system. The evaporative cooling component is powered by wind. Use of biogas from domestic biogas plants add circularity value to smallholder farms. However, domestic biogas plant set-ups are relatively high capital investments and as such, a financial barrier to co-adoption with the EvaKuula. To lower this barrier, other energy sources have been considered. The purpose of this study was to assess alternative energy sources to power the thermization component of the EvaKuula. The list of energy sources considered included biogas, butane, kerosene, charcoal, and firewood. These energy sources were assessed with respect to the sum of the social and market costs. The product of a unit of fuel cost and the units consumed represented the “market cost.” The product of the long-term social carbon cost and total carbon dioxide emission equivalence represented the “social cost.” Regular and improved stoves were included in the charcoal and firewood analysis. As expected, biogas ranked on top of the list, followed by butane and kerosene. However, butane and kerosene are not easily accessible in rural setting. Approximated 76% of farmers in rural sub-Saharan Africa rely on firewood to meet domestic needs like cooking. Butane and kerosene are the fuel sources predominantly used in urban and peri-urban areas, due to accessibility and affordability. Incomes are typically higher among urban dwellers. Therefore, with butane and kerosene not readily available to the target EvaKuula users, the next best option was firewood, provided it is combusted in improved efficient stoves such as Lorena type. Key words: alternative energy, evaporative cooling, sustainable development, food security, circularity, smallholder farmers 

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4. Buyouts with rentbacks: a policy proposal for managing coastal retreat

   https://doi.org/10.1007/s13412-022-00762-0  

   Keeler, Andrew G.; Mullin, Megan; McNamara, Dylan E.; Smith, Martin D. (April 2022, Journal of Environmental Studies and Sciences)

   Abstract The discussion of adaptation to climate change in coastal areas has focused on short-term risk reduction and climate-proofing, but there is growing recognition that—at some point in the future—relocation to less vulnerable geographical areas will become necessary for large numbers of residents in many coastal communities. Spontaneous relocations that occur after catastrophic events can entail high costs, both for those who resettle elsewhere and for the remaining community. Managed retreat attempts to reduce such costs, thereby facilitating the relocation process. Property buyouts, the most prominently discussed policy tool for managed retreat, present significant challenges in terms of equity, timing, finance, and scale. We discuss innovation in buyout policy that allows residents to remain in their homes as renters after being bought out. We develop the basic structure of such a policy and show the pathways through which it can help to finance buyouts, harmonize public and private decision-making, and manage the timing of community transition. We also recommend funding mechanisms and other details to overcome the substantial barriers to implementation. Although buyouts with rentbacks will require institutional innovation in order to serve as an effective policy framework, the policy has the potential to improve social, economic, and environmental outcomes from the eventual unfortunate but necessary migration away from coastal areas. 

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5. Willingness to Pay for Renewably-Sourced Home Heating in the Fairbanks North Star Borough

   https://doi.org/10.3390/en16083413  

   Roberts, Georgia K.; Pride, Dominique J.; Little, Joseph M.; Mueller, Julie M. (April 2023, Energies)

   Space heating is a necessity in Alaska; however, the use of heating fuels carries both economic and environmental costs. In the Fairbanks North Star Borough (FNSB), Alaska, most households utilize heating fuel oil as a primary source for home heating and firewood as a secondary source. In the FNSB, wood-burning devices are the principal source of fine particulate matter with a size of 2.5 microns or less, (PM2.5), but firewood is less expensive when compared to heating fuel oil. The FNSB has been designated as a nonattainment area for PM2.5, which has been linked to negative cardiopulmonary impacts and other adverse health consequences. Electric thermal storage heaters (ETSH) could help solve the PM2.5 problem by displacing firewood used for residential space heating. We use dichotomous choice contingent valuation (DC-CV) to estimate willingness to pay (WTP) for an ETSH program which would allow FNSB residents to offset 100 gallons of heating fuel oil annually. Certainty correction is used to control for the presence of hypothetical bias. We find median WTP is USD 33.98 without certainty correction and USD 9.75 with certainty correction. Our results indicate that implementation of a special ETSH electricity rate based on the WTP estimate may lead to broader adoption of ETSH for space heating, which could improve air quality, reduce fuel poverty, and reduce the carbon footprint of residential space heating. 

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