Assessment of Drought Tolerance in various Cotton Genotypes under Simulated Osmotic settings

IF 1.6 Q2 AGRICULTURE, MULTIDISCIPLINARY

Asian Journal of Agriculture and Biology Pub Date : 2021-02-08 DOI:10.35495/AJAB.2020.08.437

M. R. Gondal

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引用次数: 5

Abstract

Pakistan’s agriculture, especially the cotton area is facing serious threat of water shortage, which is negatively affecting the sizeable foreign reserves. Besides other irrigation management practices, selection of drought tolerant varieties can support to tackle the issue. The current study was aimed at the assessment of drought tolerance potential of various Bt cultivars of Gossypium hirsutum L. Under the current study, sixteen cotton cultivars were placed for germination in petri dishes under distinct osmotic potentials with seven different concentrations of PEG-6000 (i.e., 0, 5, 10, 15, 20, 25 and 27 percent, having osmotic potential of 0.0, -0.05, -0.148, -0.295, -0.491, 0.735 and -0.846 MPa respectively). The results revealed significant differences among various traits of all genotypes. It was observed that seed germination and root length increased up to concentration level of 25% PEG-6000 (at -0.735 MPa) whereas increment in shoot length stopped further. Root/shoot ratio increased until PEG concentration of 20% and then ceased. NIBGE-8 was the best performer under all simulated osmotic adjustments with maximum mean germination percentage of 62.86 %. The growth parameters of NIBGE-8 recorded on 12 and 18 days after sowing were noted as root length (6.87 and 9.9) cm, shoot length (5.9 and 6.37) cm, root/shoot ratio (1.03 and 1.23), root length-index (597 and 843) and shoot-vigor index (539 and 576) respectively. The results of study revealed that the genotypes NIBGE-8, NIBGE9, BH-201 and RH-668 were found osmotic stress tolerant while Mubarak, CEMB-88 and DEEBEL were found highly sensitive to drought conditions.

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模拟渗透条件下不同基因型棉花抗旱性的评价

巴基斯坦的农业，特别是棉花地区，正面临严重的缺水威胁，这对可观的外汇储备产生了负面影响。除了其他灌溉管理实践外，选择耐旱品种也有助于解决这一问题。本研究旨在评估不同Bt品种陆地棉的耐旱潜力。在本研究中，将16个棉花品种置于培养皿中，在不同渗透势下用7种不同浓度的PEG-6000（即0、5、10、15、20、25和27%，渗透势分别为0.0、-0.05、-0.148、-0.295、-0.491、0.735和-0.846MPa）发芽。结果表明，所有基因型的各种性状之间存在显著差异。观察到种子发芽和根长增加到25%PEG-6000的浓度水平（在-0.735MPa下），而茎长的增加进一步停止。根/茎比率增加，直到PEG浓度达到20%，然后停止。NIBGE-8在所有模拟渗透调节下表现最好，最大平均发芽率为62.86%。NIBGE-8在播种后12天和18天记录的生长参数分别为根长（6.87和9.9）cm、地上长度（5.9和6.37）cm、根冠比（1.03和1.23）、根长指数（597和843）和地上活力指数（539和576）。研究结果表明，NIBGE-8、NIBGE9、BH-201和RH-668基因型对渗透胁迫具有耐受性，Mubarak、CEMB-88和DEEBEL基因型对干旱条件高度敏感。

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来源期刊

Asian Journal of Agriculture and Biology AGRICULTURE, MULTIDISCIPLINARY-

CiteScore

2.80

自引率

4.50%

发文量

审稿时长

6 weeks

期刊介绍： Asian Journal of Agriculture and Biology (AJAB) is a peer reviewed, open access, quarterly journal serving as a means for scientific information exchange in international and national fora. The scope encompasses all disciplines of agriculture and biology including animal, plant and environmental sciences. All manuscripts are evaluated for their scientific content and significance by the Editor-in-Chief &/or Managing Editor and at least two independent reviewers. All submitted manuscripts should contain unpublished original research which should not be under consideration for publication elsewhere. In order to avoid unnecessary delay in publication, authors are requested to comply the following guidelines; differing these, your submission will be returned for additional revision.