Quinoa biodiversity and sustainability for food security under climate change. A review

Ruiz, Karina B.; Biondi, Stefania; Oses, Rómulo; Acuña‐Rodríguez, Ian S.; Antognoni, Fabiana; Martinez-Mosqueira, Enrique A.; Coulibaly, Amadou; Canahua-Murillo, Alipio; Pinto, Milton; Zurita‐Silva, Andrés; Bazile, Didier; Jacobsen, Sven‐Erik; Molina‐Montenegro, Marco A.

doi:10.1007/s13593-013-0195-0

Cited by 282 publications

(227 citation statements)

References 55 publications

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“…Some of the crops that are more resilient to climate change are hitherto hardly used. For example, teff (Cheng et al 2015), amaranth (Alemayehu et al 2015), and quinoa (Ruiz et al 2014) can withstand some abiotic stresses such as high or low temperatures, or droughts. In addition, measures to increase agricultural productivity will be valuable in view of climate-induced yield losses, including nutrient management to close yield gaps ) and multiple cropping to close harvest gaps (Waha et al 2013;Wu et al 2014).…”

Section: Adaptive Farming Practicesmentioning

confidence: 99%

Mapping and linking supply- and demand-side measures in climate-smart agriculture. A review

Scherer

Verburg

2017

Agron. Sustain. Dev.

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Climate change and food security are two of humanity's greatest challenges and are highly interlinked. On the one hand, climate change puts pressure on food security. On the other hand, farming significantly contributes to anthropogenic greenhouse gas emissions. This calls for climate-smart agriculture-agriculture that helps to mitigate and adapt to climate change. Climate-smart agriculture measures are diverse and include emission reductions, sink enhancements, and fossil fuel offsets for mitigation. Adaptation measures include technological advancements, adaptive farming practices, and financial management. Here, we review the potentials and trade-offs of climate-smart agricultural measures by producers and consumers. Our two main findings are as follows: (1) The benefits of measures are often site-dependent and differ according to agricultural practices (e.g., fertilizer use), environmental conditions (e.g., carbon sequestration potential), or the production and consumption of specific products (e.g., rice and meat). (2) Climate-smart agricultural measures on the supply side are likely to be insufficient or ineffective if not accompanied by changes in consumer behavior, as climate-smart agriculture will affect the supply of agricultural commodities and require changes on the demand side in response. Such linkages between demand and supply require simultaneous policy and market incentives. It, therefore, requires interdisciplinary cooperation to meet the twin challenge of climate change and food security. The link to consumer behavior is often neglected in research but regarded as an essential component of climate-smart agriculture. We argue for not solely focusing research and implementation on one-sided measures but designing good, sitespecific combinations of both demand-and supply-side measures to use the potential of agriculture more effectively to mitigate and adapt to climate change.

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Section: Adaptive Farming Practicesmentioning

confidence: 99%

Mapping and linking supply- and demand-side measures in climate-smart agriculture. A review

Scherer

Verburg

2017

Agron. Sustain. Dev.

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“…Recently published scientific papers add to these debates, warning against the pressure stemming from the agricultural intensification in the fragile Andean highlands (Jacobsen, 2011;Bazile, 2014), their wild biodiversity (Small, 2013(Small, , 2014, up to and including the equity and cultural identity of their local societies (Jacobsen, 2011;Ruiz et al, 2013).…”

Section: Preamblementioning

confidence: 99%

“…For the economy and the image of Andean quinoa farms, the consequences of such a wrong appreciation could be quite detrimental. Consumers and decision makers in importing countries should be conscious that Andean peasant farmers are not just "guardians" of an ancestral folklore including the wealthy biodiversity of their native crop landraces (Ruiz et al, 2013). This simplistic concept of conservation of the agro-biodiversity cannot inspire a sustainable and economically viable agriculture.…”

Section: Generalizations and Anachronismsmentioning

confidence: 99%

Calling for a reappraisal of the impact of quinoa expansion on agricultural sustainability in the Andean highlands

Winkel¹,

Alvarez-Flores²,

Bertero

et al. 2014

Idesia

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The debate on the environmental and social sustentainability of quinoa in its area of major world production (southern highlands of Bolivia) revived with the acceptance by the United Nations of the Bolivian proposal to declare in 2013 as the Year of the Quinoa. Public debate focused on local impacts of quinoa expansion in the Southern highlands of Bolivia, denouncing several negative impacts of quinoa culture such as land degradation, socioeconomic disrupts and biodiversity loss. However, the global or at least the international implications of the expanding quinoa market were less debated and often in caricature, varying between culpability and ingenuity among consumers, while Andean producers were described as trapped by poverty or short sighted greed. If researchers are to make a relevant contribution to the debate on the impact of quinoa expansion on the social and environmental sustainability of the Andean agriculture, is it necessary to re-evaluate present knowledge and ignorance about local Andean production systems integrated with links at the global scales, taking into account local-global interactions.In the present paper are revisited some major ill-founded assertions commonly expressed in this debate and three lines of arguments are used to support the need for a more cautious and ethical approach to quinoa related issues. Key words: debate, biodiversity, socioecological. RESUMEN

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“…Further increase in temperature and variability are projected that will impact water supplies and crop yields (Bradley et al 2006;Valdivia et al 2010;Seiler et al 2013). Some local crops and varieties may be key assets for adaptation because of their stress tolerance (Sanabria and L'Homme 2013;Ruiz et al 2014); however, others may be vulnerable to the rapidly changing agroecological conditions (Velasquez-Milla et al 2011). The importance of crop diversity for resilience and adaptation of farm systems to climate change is highlighted by numerous studies, particularly for its critical roles in spreading risk of harvest loss and enabling long-term crop adaptation (Pusadee et al 2009;Jackson et al 2010;Zimmerer 2010;Vigouroux et al 2011;Mijatović et al 2013; Thomas et al 2015).…”

Section: Introductionmentioning

confidence: 99%

Climate change and crop diversity: farmers’ perceptions and adaptation on the Bolivian Altiplano

Meldrum

Mijatović²,

Rojas

et al. 2017

Environ Dev Sustain

Self Cite

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Crop diversity is central to traditional risk management practices on the Andean Altiplano and may find renewed importance in adapting to climate change. This study explored the role of crop diversity in farmers' adaptation actions in eight Aymara communities on the northern Bolivian Altiplano. Using a combination of quantitative and qualitative methods, including multifactor analysis and a community resilience selfassessment, we investigated how farmers' use of diversity in adaptation is related to their perceptions of crop and variety tolerances and other environmental, social, and economic factors. Few crops and varieties were perceived as tolerant to increasingly intense and unpredictable drought, frost, hail, and pest and disease outbreaks. Some local crops and varieties were perceived as vulnerable to emerging conditions (e.g. oca, papalisa, isaño), whereas bitter potatoes and wild relatives of quinoa and cañahua were perceived as highly stress tolerant and provide food in harsh periods. A total 19% of households surveyed (N = 193) had introduced new crops or varieties-often disease resistant or early maturing-as an adaptive action. Introduction of commercial crops was a common adaptation action, reflecting farmers' response to warming temperatures and changing economic opportunities, but greater sensitivity of the introduced crops may cause maladaptation. Despite intensification of cropping systems, households continue to maintain a median four potato varieties with different tolerance traits, yet this risk management practice was not perceived as adaptation. Strengthening resilience will require a combination of actions, including maintaining and expanding crop portfolios and restoring soil and ecosystem health, using both traditional and innovative approaches.

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Quinoa biodiversity and sustainability for food security under climate change. A review

Cited by 282 publications

References 55 publications

Mapping and linking supply- and demand-side measures in climate-smart agriculture. A review

Mapping and linking supply- and demand-side measures in climate-smart agriculture. A review

Calling for a reappraisal of the impact of quinoa expansion on agricultural sustainability in the Andean highlands

Climate change and crop diversity: farmers’ perceptions and adaptation on the Bolivian Altiplano

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