Time-course analysis and transcriptomic identification of key response strategies to complete submergence in Nelumbo nucifera.

Water submergence is an environmental stress with detrimental effects on plant growth and survival. As a wetland plant species, lotus (Nelumbo nucifera) is widely cultivated in flood-prone lowlands throughout Asian countries, but little is known about its endurance and acclimation mechanisms to complete submergence. Here, we combined a time-course submergence experiment and an RNA-sequencing transcriptome analysis on two lotus varieties of "Qiuxing" and "China Antique". Both varieties showed a low submergence tolerance, with a median lethal time of around 10 days. Differentially expressed gene (DEG) analysis and weighted gene co-expression network analysis (WGCNA) identified a number of key genes putatively involved in lotus submergence responses. Lotus plants under complete submergence developed thinned leaves and elongated petioles containing high density of aerenchyma. All four lotus submergence responsive ERF-VII genes and gene sets corresponding to the low oxygen "escape" strategy (LOES) were elevated. In addition, a number of lotus innate immunity genes were rapidly induced by submergence, likely to confer resistance to possible pathogen infections. Our data also reveals the likely involvement of jasmonic acid in modulating lotus submergence responses, but to a lesser extent than the gaseous ethylene hormone. These results suggest that lotus plants primarily take the LOES strategy in coping with submergence-induced complex stresses, and will be valuable for people understanding the molecular basis underlying the plant submergence acclimations.