Mechanisms of plant responses to salinity stress

Aiymbay, M.Zh.; Zhanassova, K.Ye.; Akbassova, A.Zh.; Zhangazin, S.B.; Auganova, D.N.; Beissekova, M.K.; Kurmanbayeva, A.B.

dc.contributor.author	Aiymbay, M.Zh.
dc.contributor.author	Zhanassova, K.Ye.
dc.contributor.author	Akbassova, A.Zh.
dc.contributor.author	Zhangazin, S.B.
dc.contributor.author	Auganova, D.N.
dc.contributor.author	Beissekova, M.K.
dc.contributor.author	Kurmanbayeva, A.B.
dc.date.accessioned	2023-05-30T06:46:57Z
dc.date.available	2023-05-30T06:46:57Z
dc.date.issued	2022
dc.identifier.issn	2616-7034
dc.identifier.uri	http://rep.enu.kz/handle/enu/1144
dc.description.abstract	Environmental stress is a major area of scientific interest because it limits the productivity of both plants and crops. Anthropogenic activities have exacerbated the issue even more. As a result, salt stress appears to be a significant barrier to plant and crop productivity. Salinity has a variety of effects on plants, including osmotic effects and ion-specific toxicity, as well as proline accumulation and sulphur assimilation. Plants known as halophytes have a high salt tolerance, allowing them to survive and thrive in extremely saline conditions. The study of halophytes aids our comprehension of important adaptations required for survival in high salinity environments. Therefore, enhancing plant salt tolerance as well as increasing agricultural yield and quality of crops in saline lands is of vital importance. Here, we look at what we know about how salinity affects plant metabolism and how plants deal with it.	ru
dc.language.iso	en	ru
dc.publisher	L.N.Gumilyov Eurasian National University	ru
dc.subject	salt stress	ru
dc.subject	Salicornia and Sarcocornia Plants	ru
dc.subject	sulfur assimilation	ru
dc.subject	proline accumulation	ru
dc.subject	reactive oxygen species (ROS)	ru
dc.subject	halophyte plants	ru
dc.title	Mechanisms of plant responses to salinity stress	ru
dc.type	Article	ru