CAJ | 학술논문

近年来土壤盐渍化已成为现代农业面临的主要问题之一，盐胁迫影响植物的生长发育。根系是摄取养分与水分的主要载体，直接与土壤接触，最先受到盐胁迫等逆境的影响，进而引起地上部生长发育受抑制。但由于根系生长环境的特殊性和自身遗传的复杂性，根系改良的难度较大。本文综述了盐胁迫对根系形态和生理的影响以及通过基因工程改良盐胁迫下根系性状的相关进展，以期为作物根部耐盐机制的解析和盐胁迫下作物根系的改良提供参考。
근년래토양염지화이성위현대농업면림적주요문제지일，염협박영향식물적생장발육。근계시섭취양분여수분적주요재체，직접여토양접촉，최선수도염협박등역경적영향，진이인기지상부생장발육수억제。단유우근계생장배경적특수성화자신유전적복잡성，근계개량적난도교대。본문종술료염협박대근계형태화생리적영향이급통과기인공정개량염협박하근계성상적상관진전，이기위작물근부내염궤제적해석화염협박하작물근계적개량제공삼고。
Salinity is one of the major abiotic stresses in plant agriculture wordwide, and an excess amount of salt in the soil adversely affects plant growth, development, and crop productivity. A plant's root system is the site of water and nutrient uptake from the soil, a sensor of abiotic and biotic stresses, and a structural anchor to support the shoot. The root system communicates with the shoot, and the shoot in turn sends signals to the roots. Root first“feel”the salt stress when plants exposed to exceesive salt, and then it resulting in growth inhibition. This article reviews the influence of salt stress on the root morphology and physiology, and the strategies of root improvement under salt stress. In order to elucidate the salt tolerance mechanism of crop root and provide some information for improving crop salt tolerance through root.