Biofortification: High zinc wheat programme – The potential agricultural options for alleviating malnutrition in Pakistan

Q. Baloch, M. I. Makhdum, M. Y. Mujahid, S. Noreen
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Abstract

The deficiency of micronutrients (zinc, iron, iodine and vitamin A) is persistently afflicting millions of people living across Africa, Southern Americas, Asia and Pakistan. Among these, the zinc deficiency syndrome is occurring by 47.6, 41.3, and 39.2% in pregnant, non-pregnant and children under 5 years, respectively in Pakistan. The reason being that majority of the people subsists on cereal-based diets, i.e., wheat. The commercially grown wheat varieties contain zinc about 25 mg/g, whereas about 40 mg/g zinc is required in daily diet. The potential risk of zinc deficiency could be mitigated through certain interventions i.e., mineral drugs, food supplements, diversity in diets, production of fortified foods, and genetic biofortification of staple food crops. Among these, quantum increase in zinc content in wheat grains through genetic manipulation would be basics to alleviate zinc deficiency in the malnourished communities. The objective of the programme is to enhance the concentration of zinc nutrient from 25 to 40 mg/g in wheat grains through conventional plant breeding techniques. Pakistan Agricultural Research Council, Islamabad in collaboration with Consultative Group on International Agricultural Research (CGIAR) and International Maize & Wheat Improvement Center (CIMMYT) and HarvestPlus, Pakistan started R&D works to develop biofortified high zinc wheat varieties containing around 40 mg/g in the year 2009. The biofortified wheat crop is developed through conventional plant breeding techniques. The germplasm inherited with high zinc nutrient are crossed with high yielding and adopted to ecological conditions. The varieties are high yielding, and inheriting zinc around 40 mg/g in the grains under both irrigated and rainfed production environments. The Government of Punjab has also given high priority to develop and consume biofortified high zinc wheat in its multi-sectoral Nutrition Strategy Plan 2015, as potential agricultural option to address malnutrition in the Punjab province.
生物强化:高锌小麦项目——缓解巴基斯坦营养不良的潜在农业选择
微量营养素(锌、铁、碘和维生素A)的缺乏一直困扰着生活在非洲、南美、亚洲和巴基斯坦各地的数百万人。其中,在巴基斯坦,锌缺乏症在孕妇、非孕妇和5岁以下儿童中的发生率分别为47.6%、41.3%和39.2%。原因是大多数人的饮食以谷物为主,即小麦。商业种植的小麦品种含锌约为25毫克/克,而日常饮食中所需锌约为40毫克/克。锌缺乏症的潜在风险可以通过某些干预措施得到缓解,即矿物药物、食品补充剂、饮食多样性、生产强化食品和主要粮食作物的基因生物强化。其中,通过基因调控提高小麦籽粒锌含量将是缓解营养不良社区锌缺乏的基础。该方案的目标是通过传统的植物育种技术,将小麦籽粒中营养锌的浓度从每克25毫克提高到40毫克。巴基斯坦农业研究理事会与国际农业研究磋商小组(CGIAR)、国际玉米和小麦改良中心(CIMMYT)以及HarvestPlus合作,巴基斯坦于2009年开始研发生物强化高锌小麦品种,每克锌含量约为40毫克。生物强化小麦作物是通过传统的植物育种技术培育出来的。将遗传的高锌养分种质进行高产杂交,应用于生态环境。该品种产量高,在灌溉和雨养生产环境下,籽粒锌继承量均在40 mg/g左右。旁遮普省政府还在其2015年多部门营养战略计划中高度优先考虑开发和消费生物强化高锌小麦,作为解决旁遮普省营养不良问题的潜在农业选择。
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