Performance of salt-tolerant forage genotypes of millet Pennisetum glaucum (L.) R. Br.] in Eastern Mediterranean conditions

Lebanese Science Journal Pub Date : 2022-06-28 DOI:10.22453/lsj-023.1.033-047

T. Atallah, A. Fadel, Mohamed Bahmad, Rayan El-Zein, Hoda Khatoun, I. Jomaa, Janat Mousaddak, Hyam Youssef, T. Darwish

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Abstract

In this study the aim was to evaluate alternative crops able to tolerate thefuture rise in salinity, likely to occur in the East Mediterranean coastal areas. For this, two genotypes of pearl millet (Tall and IP13) were submitted to saline conditions (4, 8, 12 dS.m-1 and 2 dS.m-1 as control) in a field trial. Water consumption using neutron probe technique, physiological response and the production were studied. The neutron probe technique showed that 96% of consumed water originated in the upper 0.45 m. As salinity increased, water consumption became shallower, suggesting a different root distribution. Physiological aspects related to plant height, foliar potassium and uptake of nitrogen were investigated. Tallest plants were found in 4 dS.m-1 in Tall, and in 2 dS.m-1 in IP13. Foliar potassium was similar in Tall variety, while IP13 excluded the potassium, in order to reduce cellular ions. In Tall the 15N technique showed that 40-50% of plant N originated from the fertilizers, irrespective of saline conditions. Fresh weight was not different between 4 and 8 dS.m-1, in three cuts out of five in 2016 and 2017. Tall produced higher dry matter, especially under saline conditions. Best water use efficiency was in 4 dS.m-1 (10.4 kg.m-3 in Tall; 8.8 kg.m-3 in IP13). The plotting of dry matter production against salinity gave quadratic equations, with a peak at 5.6 dS.m-1 for IP13 and 7.1 dS.m-1 for Tall. Tall can be used for phytoremediation of soils in coastal areas, and as a forage crop.

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谷子(Pennisetum glaucum)耐盐饲料基因型的性能研究r . Br。]在东地中海条件下

在这项研究中，目的是评估能够承受未来盐度上升的替代作物，这种情况可能发生在地中海东部沿海地区。为此，将两个基因型珍珠粟(Tall和IP13)置于盐水条件下(4、8、12 d)。m-1和2ds。M-1作为对照)。利用中子探针技术对水耗、生理反应和产量进行了研究。中子探测技术表明，96%的消耗水来源于0.45 m以上。随着盐度的增加，水分消耗变得更浅，这表明根系分布不同。研究了与株高、叶面钾和氮吸收有关的生理因素。最高的植物发现于4 d。m-1在Tall和2d中。m-1, IP13。高品种叶面钾含量相近，但IP13排除了钾含量，以减少细胞离子。在Tall, 15N技术表明，无论盐碱条件如何，植物40-50%的N来自肥料。鲜重在4 d和8 d之间没有差异。在2016年和2017年的五次减产中，有三次是M-1。Tall产生了更多的干物质，特别是在盐水条件下。水分利用效率最高的是4 d。M-1(10.4公斤)m-3高;8.8公斤。m-3 (IP13)。干物质产量随盐度变化曲线呈二次方程，峰值在5.6 dS处。m-1适用于IP13和7.1 dS。m-1代表高。高可用于沿海地区土壤的植物修复，也可作为饲料作物。

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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来源期刊

Lebanese Science Journal

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0.00%

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审稿时长

30 weeks