From Model Plants to Staple Crops: Molecular Mechanisms of Plant Saline–Alkali Tolerance
Delong Fan, Jing Ruan, Qinan Xu, Jiezheng Ying, Yifeng Wang, Xiaohong Tong, Zhiyong Li, Yu Cheng, Dawei Xue, Jian Zhang, Jie Huang

TL;DR
This paper reviews how plants, including staple crops, tolerate salty and alkaline soils, highlighting shared and unique molecular strategies for survival.
Contribution
The paper compares molecular mechanisms of saline-alkali tolerance across model and staple crops, identifying species-specific adaptations and future breeding strategies.
Findings
Plants use conserved mechanisms like the SOS pathway and ROS scavenging to tolerate saline-alkali stress.
Rice uses root barriers and ion filters, while maize relies on C4 photosynthesis and osmotic adjustment.
Wheat detoxifies ions via TaHKT alleles and vacuolar sequestration.
Abstract
Soil salinization, as a key constraint to global agricultural sustainable development, has threatened over one billion hectares of farmland, posing severe challenges to staple crop production. Therefore, this review summarizes important advances in the molecular mechanisms of salt–alkali tolerance from the model plant Arabidopsis thaliana to staple crops (rice, maize, and wheat) and compares the commonalities and differences in physiological structure and molecular regulatory networks among these species. Studies have shown that plants respond to saline–alkali stress mainly through conserved mechanisms, including salt overly sensitive (SOS) signaling pathway-mediated ion homeostasis, accumulation of osmoprotectants, reactive oxygen species (ROS) scavenging, and coordination of multiple hormone signals. However, different species have evolved unique adaptive strategies: Arabidopsis has…
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Taxonomy
TopicsPlant Stress Responses and Tolerance · Aluminum toxicity and tolerance in plants and animals · Plant responses to water stress
