咸水胁迫对豇豆养分吸收和生长的影响

P. Patel, S. Kajal, V. Patel, V. J. Patel, Sunil M. Khristi
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引用次数: 34

摘要

土壤盐碱化是世界上许多地区农作物生产的主要限制因素。本文报道了盐胁迫对三种豇豆种子萌发、植株生长参数和叶片离子积累的影响。Walp印度品种:Akshay102, Gomti vu-89和Pusa Falguni。土壤电导率(EC)为0.75 dS m−1,NaCl处理使其提高到2、4、6、8和10 dS m−1。播种10 d后记录发芽率,45 d后测定茎部和根的干重。测定叶片离子浓度Na+、K+、Ca2+、Cl−和脯氨酸含量。结果表明,在2 ~ 10 dS m−1的盐度范围内,所有品种的种子发芽率均受盐度影响较大。另一方面,各品种的株高和株重受盐胁迫的影响较小。只有在10 dS m−1 EC时,3个品种的株高和根长均显著降低。盐度显著增加了Na+、Cl−和脯氨酸浓度,降低了叶片中K+和Ca2+的积累。此外,在K+/Na+比值和脯氨酸含量的测定中,品种间的耐盐性差异在最低盐胁迫水平下表现得更好。总之,本研究确定了Akshay102是最耐盐的品种,并确定了发芽能力、K+/Na+比率和脯氨酸积累作为耐盐品种选择和/或开发计划的重要特征,从而使废盐水的利用和热带世界受盐影响的广大地区的种植成为可能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of saline water stress on nutrient uptake and growth of cowpea
Soil salinity is a major limitation to crops production in many areas of the world. The present study reports the impact of salt stress on seeds germination, plant growth parameters and leaf ions accumulation in three cowpea Vigna unguiculata (L.) Walp Indian cultivars: Akshay102, Gomti vu-89 and Pusa Falguni. The electrical conductivity (EC) of the soil was 0.75 dS m−1 and the NaCl treatments increased it to 2, 4, 6, 8 and 10 dS m−1. Germination percentage was recorded 10 days after sowing, while shoot and root dry weights were measured in 45 days old plants. Leaf ion concentrations for Na+, K+, Ca2+, Cl− and proline content were determined. The results showed that the germination percentage of seeds was highly affected by salinity in all cultivars in all salinity levels from 2 to 10 dS m−1. On the other hand, height and weight of all cultivars were less affected by the salt stress. Only at 10 dS m−1 EC, significant reduction in plant height and root length could be found for all three cultivars. Salinity induced a significant increase in Na+, Cl− and proline concentrations, while reduced the accumulation of K+ and Ca2+ in leaves of all the cultivars. Moreover, the tolerance difference between the cultivars was better observed at the lowest levels of salt stress, as reveled in the measurements of K+/Na+ ratio and proline content. In conclusion, this study characterizes Akshay102 as the most tolerant cultivar and establishes the measurements of germination capacity, K+/Na+ ratio and proline accumulation as an important features to be explored in programs for selection and/or development of tolerant cultivars which make possible the utilization of waste saline water as well as the cultivation of vast areas of the tropical world affected by salinity.
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