Cold stress is an environmental factor that seriously restricts the growth, production and survival of plants, and has received extensive attention in recent years. Hydrogen sulfide (H2S) is an ubiquitous gas signaling molecule, and its role in alleviating plant cold stress has become a research focus in recent years. This paper reviews for the first time the significant effect of H2S on improving plant cold resistance, which makes up for the gaps in the existing literature. In general, H2S improves plant tolerance to cold stress by activating antioxidant reaction and promoting the accumulation of metabolic substances such as chlorophyll, flavonoids, proline, sucrose and total soluble sugar in plants. Interestingly, H2S also interacts with nitric oxide (NO), auxin, jasmonic acid (JA), salicylic acid (SA), and ethylene (ETH) to alleviate cold stress. More importantly, in the process of alleviating cold stress with H2S, gene expression related to H2S synthesis, cold response and antioxidant is up-regulated or down-regulated, leading to the improvement of plant cold resistance. This paper also points out the problems existing in the current research and the potential of H2S in agricultural practice, and provides relevant theoretical references for future research in this field.
Keywords: Cold stress; Genes; Hydrogen sulfide; Interaction; Regulatory pathways.
© 2024. The Author(s), under exclusive licence to Springer Nature B.V.