NaCl salinity affects germination, growth, physiology, and biochemistry of bambara groundnut

Jane Gayalwa Ambede, G. Netondo, G. Mwai, D. Musyimi
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引用次数: 65

Abstract

The effects of NaCl salinity on seed germination, growth, physiology, and biochemistry of two bambara groundnut landraces (Vigna subterranea (L.) Verdc), Kakamega (white seed coat) and Mumias (red seed coat), were investigated with the aim of establishing traits, which can provide a basis for breeding to salt tolerance in groundnuts. A study was conducted under laboratorial and greenhouse conditions. Bambara groundnut seeds and plants were subjected to five concentrations of NaCl solutions with several electrical conductivities: 0 (control), 6.96, 12.93, 19.89, and 25.86 dS m-1. Germination percentage, growth, chlorophyll fluorescence, and leaf chlorophyll content were determined. Sodium chloride salinity (p 0.05) differences in the Fv/Fm values for Mumias' landrace, as compared to the Control. Overall, Mumias' landrace seeds seemed to be more salt-tolerant at higher salinity levels compared to Kakamega. A greater reduction in growth in Mumias than in Kakamega is a possible indicator for salt tolerance. The chlorophyll fluorescence parameters may not be used to identify salt sensitivity between the two landraces. The results indicated that leaf area and seed germination were suitable parameters for screening the two bambara landraces for salt tolerance.
NaCl盐度对竹花生萌发、生长、生理生化的影响
NaCl盐度对两种地方竹花生种子萌发、生长、生理生化的影响以Verdc、Kakamega(白色种皮)和Mumias(红色种皮)为研究对象,建立花生耐盐性性状,为选育花生耐盐性提供依据。在实验室和温室条件下进行了研究。用5种不同电导率的NaCl溶液处理班巴拉花生种子和植株,分别为0(对照)、6.96、12.93、19.89和25.86 dS m-1。测定发芽率、生长、叶绿素荧光和叶片叶绿素含量。与对照相比,地方品种的Fv/Fm值的氯化钠盐度差异(p 0.05)。总的来说,与Kakamega相比,Mumias的地方品种种子在更高的盐度水平下似乎更耐盐。Mumias比Kakamega的生长减少幅度更大,这可能是耐盐性的一个指标。叶绿素荧光参数不能用于鉴定两种地方品种的盐敏感性。结果表明,叶面积和种子发芽率是两种地方竹品种耐盐性筛选的适宜参数。
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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