Soil salinization is an essential environmental stressor, threatening agricultural yield and
ecological security worldwide. Saline soils accumulate excessive soluble salts which are …

Crop loss due to soil salinization is an increasing threat to agriculture worldwide. This review
provides an overview of cellular and physiological mechanisms in plant responses to salt …

As two coexisting abiotic stresses, salt stress and alkali stress have severely restricted the
development of global agriculture. Clarifying the plant resistance mechanism and …

Excess soil salinity affects large regions of land and is a major hindrance to crop production
worldwide. Therefore, understanding the molecular mechanisms of plant salt tolerance has …

It is a well accepted strategy to improve plant salt tolerance through inoculation with
beneficial microorganisms. However, its underlying mechanisms still remain unclear. In the …

Abscisic acid (ABA) is well-known phytohormone involved in the control of plant natural
developmental processes, as well as the stress response. Although in wheat (Triticum …

Abstract The phytohormone auxin (indole-3-acetic acid, IAA) is a small organic molecule that
coordinates many of the key processes in plant development and adaptive growth. Plants …

Soil salinization is an important worldwide environmental problem and the main reason to
reduce agricultural productivity. Recent findings suggested that histidine is a crucial residue …

Rhizobium is a plant growth-promoting bacteria, generally involved in nitrogen fixation and
promotes growth in plants under abiotic-stressed conditions such as salinity. The present …

Flavonols are important secondary metabolites that enable plants to resist environmental
stresses. Although MYB regulation of flavonol biosynthesis has been well studied, the long …