Understanding micronutrients provision in a changing global food system

了解不断变化的全球粮食系统中微量营养素的供应

• 批准号: 2870455
• 金额: --
• 依托单位: University of Edinburgh
• 依托单位国家: 英国
• 项目类别: Studentship
• 财政年份: 2023
• 资助国家: 英国
• 起止时间: 2023 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=studentship-2870455
• 关键词: Understanding; micronutrients; provision; changing; global

Micronutrient deficiency, or 'hidden hunger', affects between a half and a third of the global population, with four nutrients in chronically short supply; iron, zinc, iodine and vitamin A. Climate change is expected to reduce the concentration of micronutrients in crops across the globe, as well as impact crop yields. A link between micronutrient deficiency and obesity has also been suggested; the 'hunger-obesity' paradox implies reductions in plant quality could exacerbate obesity rates. The food system is under pressure due to changes beyond climate, including population demography, dietary transitions, and land-based climate change mitigation measures.To date, the food security policy and research has been predominantly on providing sufficient calories. While this has been successful in reducing undernutrition, with some set-backs due to the COVID pandemic, the burden of hidden hunger has been increasing. Within this complex picture it is challenging to understand current flows of micronutrient availability in our food or to project how this would change under future scenarios. While the impact of climate change on crop micronutrient concentration has been studied and some global food system studies exist, the malnutrition effects of reduced micronutrient availability at the country level, considering trade and economics, has not been researched. In this PhD research you will describe the current state of micronutrient supply from farm to fork for the countries of the globe, highlighting inequalities in food security and health outcomes between countries. Key research questions:- Quantify how micronutrients are produced, supplied (including via international trade) and consumed in the food system today, and how this varies regionally.- Integrate understanding of crop micronutrient responses to climate change into global food system projections, and to explore the consequences for human nutrition and land use. - Understand the impact of achieving nutritional food security on global land use, and how this is affected by climate change. - Investigate how interventions (like alternative dietary trajectories, food/crop fortification) can meet nutritional and micronutrient needs under future global change without compromising natural capital. The methodology will be a combination of accounting and global food system modelling. You will run scenarios looking at how nutritional food security is impacted by climate change and other social-political changes. The research will improve understanding of how micronutrients are produced, supplied and consumed in the food system, and the role future global changes will have in worsening or improving associated deficiencies.

营养素缺乏症或“隐性饥饿”影响着全球一半到三分之一的人口，其中四种营养素长期短缺：铁、锌、碘和维生素A。预计气候变化将降低地球仪作物中微量营养素的浓度，并影响作物产量。微量营养素缺乏和肥胖之间的联系也被提出;“饥饿-肥胖”悖论意味着植物质量的下降可能会加剧肥胖率。由于气候以外的变化，包括人口结构、饮食结构的转变和基于陆地的气候变化减缓措施，粮食系统正面临压力。迄今为止，粮食安全政策和研究主要是提供足够的热量。虽然这在减少营养不良方面取得了成功，但由于COVID大流行而出现了一些挫折，隐性饥饿的负担一直在增加。在这一复杂的情况下，了解我们食物中微量营养素供应的当前流动或预测在未来情景下这将如何变化是具有挑战性的。虽然已经研究了气候变化对作物微量营养素浓度的影响，而且也有一些全球粮食系统研究，但考虑到贸易和经济，尚未研究国家一级微量营养素供应减少对营养不良的影响。在这项博士研究中，您将描述地球仪国家从农场到餐桌的微量营养素供应现状，突出国家之间粮食安全和健康结果的不平等。关键研究问题：-量化微量营养素是如何生产的，供应（包括通过国际贸易）和消费在今天的粮食系统，以及如何在地区之间变化。将对作物微量营养素对气候变化的反应的理解纳入全球粮食系统预测，并探讨对人类营养和土地使用的影响。- 了解实现营养食品安全对全球土地利用的影响，以及气候变化对这一影响的影响。- 调查干预措施（如替代饮食轨迹，食品/作物强化）如何满足未来全球变化下的营养和微量营养素需求，而不损害自然资本。该方法将结合核算和全球粮食系统建模。您将运行情景，看看营养食品安全如何受到气候变化和其他社会政治变化的影响。这项研究将提高对微量营养素在食物系统中如何生产、供应和消费的理解，以及未来全球变化在恶化或改善相关缺陷方面的作用。