Rapeseed Morpho-Physio-Biochemical Responses to Drought Stress Induced by PEG-6000

Rapeseed is a valuable oil crop due to its high nutritious value and ample oil content. The current study provides a comparative analysis of 24 cultivars to better understand the performance and predict the adaptative mechanisms of drought-tolerant and drought-sensitive cultivars based on germination and morphophysiological traits during the early seedling stage using PEG-6000 simulated drought conditions. JYZ 158 and FY 520 (tolerant cultivars) and YG 2009 and NZ 1838 (sensitive cultivars) were selected to further explore the role of osmolytes and enzymatic activity in improving drought tolerance. This investigation illustrated that drought stress negatively influenced all studied cultivars; however, the degree of influence was different for each cultivar, suggesting their different potential for drought tolerance. Moreover, enzymatic and osmoregulatory mechanisms were highly efficient in tolerant cultivars compared to sensitive cultivars. Additionally, tolerant cultivars showed higher chlorophyll and lower malondialdehyde (MDA) contents versus sensitive cultivars under drought stress conditions. Higher drought tolerance coincided with higher enzymatic activity and osmolyte content. This work showed that JYZ 158 and FY 520 cultivars had higher drought tolerance, and might be a significant germplasm resource for breeding programs developing drought-tolerant rapeseed.

Automated summary

This study provides a comparative analysis of 24 rapeseed cultivars under drought conditions, revealing their potential for drought tolerance and the mechanisms involved. It was found that tolerant cultivars exhibited higher efficiency in enzymatic and osmoregulatory mechanisms compared to sensitive cultivars. Results also showed that JYZ 158 and FY 520 cultivars had higher drought tolerance and could be important germplasm resources for breeding drought-tolerant rapeseed.