Cytogenetics and Crop Improvement Studies in Pigeonpea [Cajanus cajan (L.) Millsp.]: A Review

Agricultural Reviews Pub Date : 2022-11-12 DOI:10.18805/ag.r-2552

S. Reddy, S. Verma, Shubham Kumawat, Satvinder Singh, Ajay Kumar

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Abstract

Pigeonpea has 2n= 2x= 22 chromosomes with length ranging from 5.73±1.15 μm to 10.92±2.69 μm. The largest long arm of chromosome pair (q) was 6.22±1.05 μm, while the shortest measured 3.37±0.83 μm. The longest short arm chromosome pair was 4.70±1.65 μm, while the shortest measured 2.37±0.43 μm. Metacentric and submetacentric chromosomal shapes exist in pigeonpea, but metacentric dominating. Pigeonpea’s karyotypic formula is 2n= 2x= 9m+2 sm. In pigeonpea, regardless of maturity groups, the main and foremost goal is to breed for higher yield/area/time. Resistance to diseases including wilt, sterility mosaic, phytophthora and alternaria blights, as well as insect pests like pod borers and pod flies, is being bred for. Resistance to abiotic stresses like drought tolerance can be achieved by osmotic adjustment (OA), dehydration tolerance and relative water content (RWC). Reduced Na and Cl translocation from root to stem, osmoprotectants and the optimal leaf area index (LAI) for salinity tolerance. Many outstanding varieties has been developed in pigeonpea through germplasm selection, pedigree breeding, mutation breeding and Heterosis breeding.

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鸽豆(Cajanus cajan (L.))细胞遗传学及作物改良研究Millsp。[英语泛读教程

鸽子豆有2n= 2x= 22条染色体，长度从5.73±1.15 μm到10.92±2.69 μm不等。最长的染色体长臂(q)为6.22±1.05 μm，最短的为3.37±0.83 μm。短臂染色体对最长为4.70±1.65 μm，最短为2.37±0.43 μm。鸽豆的染色体形态有偏心型和亚偏心型，但以偏心型为主。鸽豆核型公式为2n= 2x= 9m+ 2sm。在鸽豆中，无论成熟度群体如何，主要和最重要的目标是为更高的产量/面积/时间而繁殖。对包括枯萎病、不育花叶病、疫霉病和疫病的抗性，以及像荚螟和荚蝇这样的害虫，正在进行培育。对干旱等非生物胁迫的抗性可以通过渗透调节(OA)、脱水耐受性和相对含水量(RWC)来实现。降低Na和Cl从根到茎的转运、渗透保护剂和耐盐最佳叶面积指数(LAI)。通过种质选择、系谱选育、突变选育和杂种优势选育，培育出了许多优良品种。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Agricultural Reviews

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