Enhancing the Productivity of Wheat (Triticum spp.) Via Genetic and Environmental Variability: A Review

Muhammad Ashar Abdullah, Mahnoor, Jalal Khan, Malaika, Muhammad Awais, Abdullah, Humara, Adnan Shoukat
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Abstract

Significant advances in our understanding of the biological underpinnings of plant production have created fresh opportunities for innovative breeding approaches as compared to the 1950s. Although the enormous and intricate genomes of hexaploid wheat and diploid barley constitute a significant challenge, they also provide a substantial gene pool that may be used for breeding. We provide an overview of current biology's identification or characterization of productivity-related genes and/or mutations in wheat and barley. Because extreme weather events seriously impair agricultural productivity, climate change-induced variations in weather patterns will have an influence on agriculture's future environmental effects and the impending danger to yield sustainability. In order to fulfil the demands of an expanding population, future practical techniques will investigate and understand genotype, environment, phenological characteristics, GWAS, and QTL mapping in order to boost agricultural yield. Since the world's population is growing and requires food in the face of changing climate conditions and shrinking farmed lands, breeding and genetic modification are crucial methods for enhancing wheat yield under environmental stresses. It was claimed that the amount of yield might be measured by weighing a thousand grains or in kilogrammes per hectare.
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通过遗传和环境变异提高小麦(Triticum spp:综述
与二十世纪五十年代相比,我们对植物生产的生物学基础的认识取得了重大进展,为创新育种方法创造了新的机遇。尽管六倍体小麦和二倍体大麦庞大而复杂的基因组是一项重大挑战,但它们也提供了一个可用于育种的巨大基因库。我们概述了当前生物学对小麦和大麦中与生产力相关的基因和/或突变的鉴定或表征。由于极端天气事件严重损害农业生产力,气候变化引起的天气模式变化将对农业未来的环境效应产生影响,并对产量的可持续性造成迫在眉睫的危险。为了满足不断扩大的人口需求,未来的实用技术将研究和了解基因型、环境、表型特征、GWAS 和 QTL 图谱,以提高农业产量。由于世界人口在不断增长,面对不断变化的气候条件和不断缩小的耕地,人们需要粮食,因此育种和转基因是在环境压力下提高小麦产量的关键方法。据称,产量可以用千粒重或每公顷千克来衡量。
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