Ethylene:Role in plants under environmental stress. M.A.Matilla-Vazquez,A.J.Matilla. Physiological Mechanisms and Adaptation Strategies in Plants under Changing Environment . 2014M.A. Matilla-Vazquez, A.J. Matilla, Ethylene: Role in plants under environmental stress, in: P. Ahmad, M.R. ...
resulting in detrimental and irreversible damage to plant growth, development, and yield. Ethylene,a gaseous phytohormone, playsacrucialrole in plant development andvariousstress responses. Recent studies haverevealed
Plants, as a sessile organism, rely on the endogenous regulators for the modulation of growth and development under severe stress conditions for their surv... Ryu,Cho,YG - 《Journal of Plant Biology》 被引量: 69发表: 2015年 The role of ethylene and ROS in salinity, heavy metal, and flood...
yield, and, in severe cases, survival. In response to waterlogging stress, plants exhibit a series of intricate physiologic, metabolic, and morphologic adaptations. Notably, the gaseous phytohormone ethylene is rapidly accumulated in the plant submerged tissues, assuming an important regulatory factor ...
This paper summarizes various adaptive ways that plants display when subjected to waterlogging of the soil or deeper submergence. On this basis, it reviews... HU Tian tian,SZ Kang - 福建农业大学学报 被引量: 92发表: 2005年 Ethylene Synthesis and a Role in Plant Responses to Different Stressor...
Another aging process in plants where ethylene plays a role is the falling of leaves in autumn.When a leaf falls from a tree, the breaking point is a layer near the base of the leaf’s stalk.A change in the balance of two hormones—ethylene and auxin—controls the falling of leaves. ...
Although ethylene is known to be involved in plant response to a number of biotic and abiotic stresses, relatively little is known concerning its role in nutritional stress arising from nutrient deficiency or mineral toxicity. There is clear evidence for involvement of ethylene in the symbiosis betwe...
Moreover, we suggest that ethylene could play an important role in the induction of autophagy, promote reactive oxygen species (ROS) amelioration and hereby contributes to enhanced survival during flooding, hypoxia and re﹐xygenation stress.
Step-by-Step Solution:1. Understanding Ethylene Formation: - Ethylene is a plant hormone, also known as a phytohormone, that plays a crucial role in various plant processes. It is a gaseous hormone that is p