Adaptation of Azospirillum to stress conditions: A review

A. Al-Tawaha
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引用次数: 1

Abstract

Microorganisms has a vital role in agriculture in order to promote the exchange of plant nutrients and reduce the application of chemical fertilizers. The crucial factor controlling the growth and nitrogen fixation of Azospirillum in the soil is drought, i.e. high temperature and low moisture and salinity. Nevertheless, the crops are highly adapted to drought and saline soils. So, the crop is also to be inoculated with the organism of stress-tolerant nature to establish strong colonization and effective Rhizobiocoenosis.The survival of the inoculated strains at such stress conditions is also very important. Influence of osmotic stress conditions such as salinity and drought on the Azospirillum - plant root association and on the various mechanisms conferring crop response by Azospirillum are unknown. Therefore, a large screening development of stress tolerance in Azospirillum strain with all potential for agricultural crops grown in semiarid regions is highly necessary.
偶氮螺旋藻对胁迫条件的适应性研究进展
微生物在农业中起着至关重要的作用,可以促进植物养分的交换,减少化肥的施用。控制固氮螺旋藻在土壤中生长和固氮的关键因素是干旱,即高温、低水盐。然而,这些作物对干旱和盐碱地的适应性很强。因此,还应接种具有抗逆性的生物,以建立强定植和有效的根瘤菌共生。接种菌株在这种胁迫条件下的存活也非常重要。渗透胁迫条件(如盐度和干旱)对氮螺旋体与植物根系的关联以及氮螺旋体对作物响应的各种机制的影响尚不清楚。因此,对具有抗逆性的氮螺旋菌进行大规模的筛选开发是十分必要的。
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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