Morphological and antioxidant responses of Nopalea cochenillifera cv. Maya (edible Opuntia sp. Kasugai Saboten) to chilling acclimatization

To clarify the wintering ability of the cactus Nopalea cochenillifera cv. Maya (edible Opuntia sp., common name Kasugai Saboten), we investigated the effects of temperature and antioxidant capacity on chilling acclimatization. We analyzed the anatomy of cladode chlorenchyma tissue of plants exposed to light under chilling. We found that chilling acclimatization can be achieved by exposure to approximately 15 degrees C for 2 weeks and suggest that it is affected by whether or not antioxidant capacity can recover. The overwintering cacti had the thinnest cuticle but firm cuticular wax, which is important in the acquisition of low temperature tolerance under strong light. In cacti with severe chilling injury, round swollen nuclei with clumping chloroplasts were localized in the upper part (axial side) of the cell, as though pushed up by large vacuoles in the lower part. In overwintering cacti, chloroplasts were arranged on the lateral side of the cell as in control plants, but they formed pockets: invaginations with a thin layer of chloroplast stroma that surrounded mitochondria and peroxisomes. Specific cellular structural changes depended on the degree of chilling stress and provide useful insights linking chloroplast behavior and structural changes to the environmental stress response.

Automated summary

To clarify the wintering ability of the cactus Nopalea cochenillifera cv. Maya, researchers studied the effects of temperature and antioxidant capacity on chilling acclimatization. They found that exposure to approximately 15 degrees C for 2 weeks can achieve chilling acclimatization, which is influenced by the recovery of antioxidant capacity. The study also investigated cellular structural changes under chilling stress, providing insights into the connection between chloroplast behavior and environmental stress response.