Evaluation of Common Bean (Phaseolus vulgaris L.) Genotypes for Adaptation to Low Phosphorus

ISRN Agronomy Pub Date : 2012-07-05 DOI:10.5402/2012/309614

S. Mourice, G. Tryphone

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引用次数: 49

Abstract

Common bean production in Tanzania is constrained by soil phosphorus which is mainly due to inherently low phosphorus content, soil erosion, and fixation by oxides in acidic soils. A study was conducted to evaluate bean genotypes in a screen house pot experiment for their ability to thrive and produce on low phosphorus soil. Assessment of shoot biomass, root biomass, shoot P concentration, P uptake, and yield components was done using three phosphorus levels and seven bean genotypes. Phosphorus levels, namely, control (P0), medium P (40 mg P/kg), and high P (160 mg P/kg), were the main plot factor, while the genotypes were the subplot in split plot structure, arranged in a completely randomized design. Shoot and root biomass as well as P uptake increased significantly with increase in phosphorus levels. There was varying response of genotypes in performance in terms of shoot biomass P uptake, and yield in a treatment without P addition. Genotypes MILENIO, BAT477, and A785 were outstanding in terms of root and shoot biomass, P uptake and grain yield under low P treatment. Therefore, those genotypes can be recommended for use in low-phosphorus environment as well as breeding materials.

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菜豆(Phaseolus vulgaris L.)评价适应低磷的基因型

坦桑尼亚的普通豆生产受到土壤磷的限制，这主要是由于土壤本身的低磷含量、土壤侵蚀和酸性土壤中氧化物的固定作用。通过筛房盆栽试验，研究了大豆基因型在低磷土壤上的生长和生产能力。采用3种磷水平和7种大豆基因型对地上部生物量、根部生物量、地上部磷浓度、磷吸收量和产量组成进行了评价。磷水平，即对照(P0)、中磷(40 mg P/kg)和高磷(160 mg P/kg)为主图因子，基因型为分块图结构的次图，采用完全随机设计。随着磷水平的增加，地上部和根系生物量以及磷吸收量显著增加。在不添加磷的处理下，不同基因型对地上部生物量磷吸收和产量的影响不同。在低磷处理下，MILENIO、BAT477和A785基因型在根、地上部生物量、吸磷量和籽粒产量方面表现突出。因此，这些基因型可以推荐用于低磷环境，也可以作为育种材料。

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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ISRN Agronomy

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