Abstract
BackgroundFlooding has negative impact on agriculture. The plant hormone ethylene is involved in plant growth and stress responses, which are important role in tolerance and adaptation regulatory mechanisms during submergence stress. Ethylene signaling crosstalk with gibberellin signaling enhances tolerance in lowland rice (Flood Resistant 13A) through a quiescence strategy or in deepwater rice through an escape strategy when rice is submerged. Information regarding ethylene-mediated priming in submergence stress tolerance in rice is scant. Here, we used 1-aminocyclopropane-1-carboxylic acid, an ethylene precursor, to evaluate the response in submerged rice seedlings.ResultsThe germination rate and mean germination times of rice seeds was higher in seedlings under submergence only when ethylene signaling was inhibited by supplemented with silver nitrate (AgNO3). Reduced leaf chlorophyll contents and induced senescence-associated genes in rice seedlings under submergence were relieved by pretreatment with an ethylene precursor. The ethylene-mediated priming by pretreatment with an ethylene precursor enhanced the survival rate and hydrogen peroxide (H2O2) and superoxide (O2−) anion accumulation and affected antioxidant response in rice seedlings.ConclusionsPretreatment with an ethylene precursor leads to reactive oxygen species generation, which in turn triggered the antioxidant response system, thus improving the tolerance of rice seedlings to complete submergence stress. Thus, H2O2 signaling may contribute to ethylene-mediated priming to submergence stress tolerance in rice seedlings.
Highlights
Submergence-induced germination inhibition was alleviated after ethylene signaling was blocked To evaluate the effect of ethylene signaling on rice seed germination during submergence, we pretreated rice seeds under normoxia (Nor), submergence (Sub), and submergence supplemented with silver nitrate (Sub + AgNO3) for 2 days, and we again placed the seeds under normal condition to calculate the seed germination rates and mean germination times (MGTs)
Submergence combined with the ethylene signaling inhibition reduced MGT
We demonstrated that the survival rate of rice seedlings can be improved under complete submergence stress through : 1-Aminocyclopropane-1-carboxylic acid (ACC) pretreatment (Fig. 2)
Summary
The plant hormone ethylene is involved in plant growth and stress responses, which are important role in tolerance and adaptation regulatory mechanisms during submergence stress. Ethylene signaling crosstalk with gibberellin signaling enhances tolerance in lowland rice (Flood Resistant 13A) through a quiescence strategy or in deepwater rice through an escape strategy when rice is submerged. Information regarding ethylene-mediated priming in submergence stress tolerance in rice is scant. Flooding affects agriculture causing outright crop yield losses. Unfavorable conditions activate phytohormonal signals in plants, in turn enhancing their tolerance to environmental stress. The gaseous plant hormone ethylene mediated developmental processes and stress tolerance, such as seed germination, senescence, and stress responses (Yu et al 2017; Xia et al 2015; El-Maarouf-Bouteau et al 2015). Ethylene signalinginduced mitogen-activated protein kinase (MAPK) cascades can be activated with the application of the
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