Person:
Hellin, J.

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Hellin
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Hellin, J.

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Now showing 1 - 7 of 7
  • Climate change and food security in the developing world: potential of maize and wheat research to expand options for adaptation and mitigation
    (Academic Journals, 2012) Hellin, J.; Shiferaw, B.; Cairns, J.E.; Reynolds, M.P.; Ortiz-Monasterio, I.; Banziger, M.; Sonder, K.; La Rovere, R.
    Publication
  • Trans-disciplinary responses to climate change: lessons from rice-based systems in Asia
    (MDPI, 2020) Hellin, J.; Balié, J.; Fisher, E.; Kohli, A.; Connor, M.; Sudhir-Yadav; Kumar, V.; Krupnik, T.J.; Sander, B.O.; Cobb, J.N.; Nelson, K.; Setiyono, T.; Puskur, R.; Chivenge, P.; Gummert, M.
    Publication
  • Increasing social-ecological resilience within small-scale agriculture in conflict-affected Guatemala
    (Resilience Alliance, 2018) Hellin, J.; Ratner, B.D.; Meinzen-Dick, R.; Lopez-Ridaura, S.
    Climate change scenarios suggest largely detrimental impacts on agricultural production from a deterioration of renewable natural resources. Over the last 15 years, a new field of research has focused on the interactions between climate and conflict risk, particularly as it relates to competition over natural resources and livelihoods. Within this field, there has been less attention to the potential for resource competition to be managed in ways that yield greater cooperation, local adaptation capacity, social-ecological resilience, and conflict mitigation or prevention. The challenge of increasing social-ecological resilience in small-scale agriculture is particularly acute in the socioeconomically and agroecologically marginalized Western Highlands of Guatemala. Not only is climate change a threat to agriculture in this region, but adaptation strategies are challenged by the context of a society torn apart by decades of violent conflict. Indeed, the largely indigenous population in the Western Highlands has suffered widespread discrimination for centuries. The armed conflict has left a legacy of a deeply divided society, with communities often suspicious of outsider interventions and in many cases with neighbors pitted against each other. We use the example of the Buena Milpa agricultural development project to demonstrate how grassroots approaches to collective action, conflict prevention, and social-ecological resilience, linking local stakeholder dynamics to the broader institutional and governance context, can bear fruit amidst postconflict development challenges. Examples of microwatershed management and conservation of local maize varieties illustrate opportunities to foster community-level climate adaptation strategies within small-scale farming systems even in deeply divided societies.
    Publication
  • Index insurance and climate risk management: addressing social equity
    (Wiley, 2019) Fisher, E.; Hellin, J.; Greatrex, H.; Jensen, N.
    Fair distribution of benefits from index insurance matters. Lack of attention to social equity can reinforce inequalities and undermine the potential index insurance holds as a tool for climate risk management that is also pro‐poor. The aims of this article are to: (a) examine social equity concerns raised by index insurance in the context of climate risk management, (b) consider how greater attention can be paid to social equity in index insurance initiatives, and (c) reflect on the policy challenges raised by taking social equity into account as a mechanism for climate risk reduction. The article draws on learning from the CGIAR's Research Program on Climate Change, Agriculture and Food Security (CCAFS) and presents the cases of the Index Based Livelihoods Insurance (IBLI) and Agriculture and Climate Risk Enterprise Ltd. (ACRE) in East Africa. It proposes a framework for unpacking social equity related to equitable access, procedures, representation and distribution within index insurance schemes. The framework facilitates identification of opportunities for building outcomes that are more equitable, with greater potential for inclusion and fairer distribution of benefits related to index insurance. The article argues that systematically addressing social equity raises hard policy choices for index insurance initiatives without straightforward solutions. Attention to how benefits and burdens of index insurance are distributed, suggests the unpalatable truth for development policy that the poorest members of rural society can be excluded. Nevertheless, a focus on social equity—facilitated by the framework—opens up opportunities to ensure index insurance is linked to more socially just climate risk management. At the very least, it may prevent index insurance from generating greater inequality. Taking social equity into account, thus, shifts the focus from agricultural systems in transition per se to systems with potential to incorporate societal transformation through distributive justice.
    Publication
  • Soil and water conservation on Central American hillsides: if more technologies is the answer, what is the question?
    (AIMS Press, 2016) Hellin, J.; Lopez-Ridaura, S.
    Climate change is likely to lead to increased water scarcity in the coming decades and to changes in patterns of precipitation. The result will be more short-term crop failures and long-term production declines. Improved soil management is key to climate change adaptation and mitigation efforts. There is growing interest in the promotion of climate smart agricultural practices. Many of these are the same practices that were promoted in the 1980s and 1990s under the guise of soil and water conservation. Farmer non-adoption of soil conservation technologies was rife and suggests that different approaches are needed today. Much can be learnt from these past endeavors to ensure that current efforts are better designed and implemented. We use the example of Central America to highlight some of these lessons and suggest alternative ways forward. Technology per se is not the limiting factor; many suitable technologies and practices are extant. What is required is a more nuanced approach to soil conservation efforts. There is a need to focus less on capturing soil once it has been eroded, via the use of cross-slope soil conservation practices, and more on improving soil quality of the soil that remains through improved soil cover. It is also critical to understand farming systems as a whole i.e. the full range of interlinked activities and the multiplicity of goals that farm households pursue. Furthermore, it is important to engage farmers as active players in conservation efforts rather than passive adopters of technologies, and to adopt a board value chain approach and engage a plethora of value chain actors (researchers, extension agents, equipment manufacturers, input suppliers, farmers, traders, and processors) in an agricultural innovation system.
    Publication
  • Adapting maize production to climate change in sub-Saharan Africa
    (Springer Verlag, 2013) Cairns, J.E.; Hellin, J.; Sonder, K.; Araus, J.L.; MacRobert, J.; Thierfelder, C.; Prasanna, B.M.
    Given the accumulating evidence of climate change in sub-Saharan Africa, there is an urgent need to develop more climate resilient maize systems. Adaptation strategies to climate change in maize systems in sub-Saharan Africa are likely to include improved germplasm with tolerance to drought and heat stress and improved management practices. Adapting maize systems to future climates requires the ability to accurately predict future climate scenarios in order to determine agricultural responses to climate change and set priorities for adaptation strategies. Here we review the projected climate change scenarios for Africa?s maize growing regions using the outputs of 19 global climate models. By 2050, air temperatures are expected to increase throughout maize mega- environments within sub-Saharan Africa by an average of 2.1°C. Rainfall changes during the maize growing season varied with location. Given the time lag between the development of improved cultivars until the seed is in the hands of farmers and adoption of new management practices, there is an urgent need to prioritise research strategies on climate change resilient germplasm development to offset the predicted yield declines.
    Publication
  • Crops that feed the world 6. Past successes and future challenges to the role played by maize in global food security
    (Springer Verlag, 2011) Shiferaw, B.; Prasanna, B.M.; Hellin, J.; Banziger, M.
    Maize is one of the most important food crops in the world and, together with rice and wheat, provides at least 30% of the food calories to more than 4.5 billion people in 94 developing countries. In parts of Africa and Mesoamerica, maize alone contributes over 20% of food calories. Maize is also a key ingredient in animal feed and is used extensively in industrial products, including the production of biofuels. Increasing demand and production shortfalls in global maize supplies have worsened market volatility and contributed to surging global maize prices. Climatic variability and change, and the consequent rise in abiotic and biotic stresses, further confound the problem. Unless concerted and vigorous measures are taken to address these challenges and accelerate yield growth, the outcome will be hunger and food insecurity for millions of poor consumers. We review the research challenges of ensuring global food security in maize, particularly in the context of climate change. The paper summarizes the importance of maize for food, nutrition and livelihood security and details the historical productivity of maize, consumption patterns and future trends. We show how crop breeding to overcome biotic and abiotic stresses will play a key role in meeting future maize demand. Attention needs to be directed at the generation of high yielding, stress-tolerant and widely-adapted maize varieties through judicious combination of conventional and molecular breeding approaches. The use of improved germplasm per se will not, however, be enough to raise yields and enhance adaptation to climate change, and will need to be complemented by improved crop and agronomic practices. Faced with emasculated state extension provision and imperfect markets, new extension approaches and institutional innovations are required that enhance farmers' access to information, seeds, other inputs, finance and output markets. Over the long-term, large public and private sector investment and sustained political commitment and policy support for technology generation and delivery are needed to overcome hunger, raise the incomes of smallholder farmers and meet the challenges of growing demand for maize at the global level.
    Publication