Different Approaches for Developing of Salt Tolerant Sugarcane (Saccharum officinarum)

Journal of Biotechnology & Bioinformatics Research Pub Date : 2021-06-30 DOI:10.47363/jbbr/2021(3)130

M. Ishfaq, Fatima Zahra

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Abstract

Sugarcane is a very important crop mostly cultivated in many regions of the world. Sugarcane is an important crop in tropical areas of the world, often being uncovered to environments with high salinity, but little is recognized of genetic variant in salt tolerance. The purpose of this work was once to examine the performance of two genetically various cultivars of sugarcane underneath specific concentrations of salinity (0, 40, eighty and a hundred and sixty mM NaCl) over a period of 30 days. SP 81–3250 was extra salt-tolerant and maintained its charge of biomass production, photosynthesis and leaf place up to one hundred sixty mM NaCl, whereas IAC 87–3396 was a sensitive to 80 mM NaCl. SP 81–3250 maintained very low concentrations of Na+ in both leaves and roots with increasing time and salinity, whereas in IAC 87–3396 the Na+ concentrations had been 2–5 instances higher. This suggests that the tolerance of SP 81–3250 to excessive salinity was due to its ability to leave out Na+ whilst taking up water from the soil, and that measurements of Na+ awareness in leaves should be used to pick out salt-tolerant genotypes for saline areas.

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耐盐甘蔗的不同选育途径

甘蔗是世界上许多地区主要种植的一种重要作物。甘蔗是世界热带地区的重要作物，经常在高盐环境中生长，但对耐盐基因变异的认识很少。本研究的目的是在30天的特定盐度(0、40、80和160 mM NaCl)下，研究两个遗传不同的甘蔗品种的表现。在160 mM NaCl下，SP 81-3250具有较强的耐盐性，生物量产量、光合作用和叶片位置保持稳定，而IAC 87-3396对80 mM NaCl敏感。随着时间和盐度的增加，SP 81-3250叶片和根部的Na+浓度都保持在很低的水平，而IAC 87-3396的Na+浓度则高出2-5倍。这表明SP 81-3250对高盐的耐受性是由于它在从土壤中吸收水分的同时能够排除Na+，并且应该使用叶片对Na+感知的测量来挑选盐分地区的耐盐基因型。

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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Journal of Biotechnology & Bioinformatics Research

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