Saha Supradip, Singh Gyanendra, Mahajan V, Gupta H S
Vivekananda Institute of Hill Agriculture, Almora, Uttarakhand, India.
Plant Foods Hum Nutr. 2009 Jun;64(2):174-80. doi: 10.1007/s11130-009-0121-4. Epub 2009 May 22.
Screening of natural biodiversity for the better quality traits are of prime importance for quality breeding programs. The objective of this investigation was to select candidate accession of bean having high concentrations of protein as well as macro and micro minerals with good cooking quality for use as parents in breeding programme for these compounds. Thirty-five accessions of bean (Phaseolus vulgaris L) were field grown and their seeds were analyzed for their cooking quality and nutritional composition. Wide variations were observed in most of the measurements e.g. protein (18.7-26.2%), iron (79.4-137.6 ppm) and hardness after cooking (4.65-9.88 Kg) suggesting that there are considerable levels of genetic diversity. Across all accessions the concentration of potassium was negatively correlated with protein (r = -0.43, P < 0.05). Concentrations of protein was significantly greater in accessions VIII, XIII and XIX compared to other accessions analyzed. Iron concentrations were greatest (137 ppm) in XIX and lowest (79 ppm) in XXVII. Lines with less cooking time were line III, X, XXVI, XXX and XXXI. Bean line XIX contains high protein (24.9%) with high zinc (33.3 ppm) and highest iron (137.6 ppm), but it has high hardness after cooking (7.32 kg). Four clusters were computed by cluster analysis that explained quite a good variation in the traits. The great variability for these attributes suggests that these selected accessions may be useful as parents in hybridization programs to produce bean with value-added traits. This information was also potentially useful for pulse breeders working on the development of new varieties.
筛选具有优良品质性状的天然生物多样性对于优质育种计划至关重要。本研究的目的是选择蛋白质、常量和微量矿物质含量高且烹饪品质良好的菜豆候选种质,用作这些化合物育种计划的亲本。35份菜豆(Phaseolus vulgaris L)种质在田间种植,并对其种子的烹饪品质和营养成分进行分析。在大多数测定中观察到广泛的变异,例如蛋白质(18.7 - 26.2%)、铁(79.4 - 137.6 ppm)和烹饪后的硬度(4.65 - 9.88 Kg),这表明存在相当水平的遗传多样性。在所有种质中,钾的浓度与蛋白质呈负相关(r = -0.43,P < 0.05)。与其他分析的种质相比,VIII、XIII和XIX号种质的蛋白质浓度显著更高。XIX号种质的铁浓度最高(137 ppm),XXVII号种质最低(79 ppm)。烹饪时间较短的品系是III、X、XXVI、XXX和XXXI号。菜豆品系XIX含有高蛋白(24.9%)、高锌(33.3 ppm)和最高铁(137.6 ppm),但烹饪后硬度较高(7.32 kg)。通过聚类分析计算出四个聚类,这些聚类很好地解释了性状的变异。这些性状的巨大变异性表明,这些选定的种质可作为杂交计划的亲本,用于培育具有附加值性状的菜豆。这些信息对于致力于培育新品种的豆类育种者也可能具有潜在的用途。
