水稻(Oryza sativa)基因型非生物抗逆性的生理特性

V. N, S. T, R. V
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引用次数: 1

摘要

水稻的非生物胁迫限制了作物的生长和潜力,阻碍了产量和生产力。2019年哈里夫期间,在印度安得拉邦马鲁特鲁区域农业研究站对盐度和水分胁迫(1%和2%)进行了非生物抗逆性筛选。所选基因型的生理特性表明,在所有处理中,1%甘露醇处理、2%甘露醇处理和盐胁迫处理的种子发芽率、根长、茎长和幼苗活力指数均高于对照处理。条目IET 27773、IET 27750和IET 26861在中度水分胁迫(1%甘露醇和2%甘露醇诱导的胁迫)下表现良好,因此可以确定为相对耐受性。在盐度胁迫下,AC 1303表现较好,IET 27750、IET 27772和IET 27773表现较好。上述培养物可作为相应应激的生理供体。各胁迫处理下,IET 27773幼苗活力最高。IET 27750和IET 27773对盐度和水分胁迫均表现出耐受性。在田间试验中,IET 26961 (6230 kg/ha)、IET 27768 (6060 kg/ha)和IET 27773 (6050 kg/ha)的产量最高。在所有测试的基因型中,IET 27773被认为是表现较好的基因型,因为它在实验室条件下表现出对非生物胁迫的耐受性,在田间条件下取得了较高的产量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
 Physiological characterization for abiotic stress tolerance in rice (Oryza sativa) genotypes 
Abiotic stresses in rice restrict the growth and potential of the crop hampering the production and productivity. Screening for abiotic stress tolerance was conducted for salinity and water stress (1% and 2%) during Kharif 2019 at Regional Agricultural Research Station, Maruteru, Andhra Pradesh, India. The physiological characterization of selected genotypes showed that among all treatments, seed germination, root length, shoot length and seedling vigour index was greater under control followed by 1% mannitol, 2% mannitol and salinity stress. The entries IET 27773, IET 27750 and IET 26861 performed well under moderate water stress (1% mannitol and 2% mannitol induced stress) and hence can be identified as relatively tolerant. Under salinity stress AC 1303 followed by IET 27750, IET 27772 and IET 27773 performed well. The above cultures can be used as physiological donors for respective stresses. The seedling vigour was highest in IET 27773 under all the stress treatments. IET 27750 and IET 27773 showed tolerance to both salinity and water stress. In the field experiment, IET 26961 (6230 kg/ha), IET 27768 (6060 kg/ha) and IET 27773 (6050 kg/ha) recorded the highest grain yield. Among all the genotypes tested, IET 27773 was found to be a good performing genotype as it exhibited tolerance to abiotic stress in lab conditions and recorded higher yields under field conditions.
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