Polyploidy and its relevance in crop improvement

E. A. Omere, C.N.C. Nwaoguala, T. Emede
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Abstract

Many areas of research in crop production have been geared towards crop improvement and increased yield. Crop improvement include but not  restricted to; plant introduction and acclimatization, domestication, ploidy manipulation (polyploidization), recombinant DNA technology, crossing for  superior selection (cultivar development), molecular genetics, etc. Polyploidy is a condition where the genome of an organism has more than the usual  number of complete sets of chromosomes and the product of this phenomenon is called a Polyploid. Polyploidy occurs naturally, and can be induced  chemically using antimitotic agents or physically using protoplast fusion and temperature shock. It is mostly artificially induced through a process called  polyploidization. Polyploids are more advantageous in important plant attributes than the regular diploid. Relative success has been reported in the  application of polyploidization for crop improvement which resulted chiefly in increased amount of beneficial secondary metabolites (phytochemicals),   larger stomata and leaves,improved adaptation to stress and unfavourable conditions, to mention but a few. Therefore, it is imperative to state that  polyploidy is an area of research that has been and will continually be deployed in crop improvement .
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多倍体及其在作物改良中的意义
作物生产的许多研究领域都着眼于作物改良和增产。作物改良包括但不限于:植物引种与驯化、驯化、倍性操作(多倍体化)、重组DNA技术、优种杂交(品种培育)、分子遗传学等。多倍体是一种生物体的基因组拥有比通常数量更多的完整染色体的情况,这种现象的产物被称为多倍体。多倍体是自然发生的,可以用抗有丝分裂剂化学诱导,也可以用原生质体融合和温度冲击物理诱导。它主要是通过一种称为多倍体化的过程人工诱导的。多倍体在重要的植物属性上比常规的二倍体更有优势。据报道,利用多倍体改良作物取得了相对的成功,其主要结果是增加了有益的次生代谢物(植物化学物质)的数量,扩大了气孔和叶片,提高了对逆境和不利条件的适应能力,等等。因此,必须指出,多倍体是一个研究领域,已经并将继续应用于作物改良。
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