Mangoes are among the world’s most popular tropical fruits, valued for their sweet flavor and rich nutritional content. But once harvested, mangoes continue to ripen quickly, making them highly vulnerable to softening, moisture loss, and spoilage during storage and transport.
Now, researchers from Hainan University have uncovered why storing mangoes at 12°C (54°F) dramatically extends freshness without causing cold damage. Their study, published in Tropical Plants, found that the cooler temperature slows ripening, preserves fruit structure, and activates the mango’s natural antioxidant defenses.
The findings could help improve cold-chain transportation for tropical fruits while reducing waste and extending shelf life.
How Temperature Changes Mango Ripening
In many tropical regions, mangoes are commonly transported at temperatures between 26°C (79°F) and 30°C (86°F). While convenient, these warmer conditions speed up respiration and ripening, causing fruit to soften and deteriorate more rapidly.
Scientists have long known that colder storage can slow this process. However, tropical fruits such as mangoes are sensitive to chilling injury when temperatures become too low. Earlier observations suggested that 12°C worked well for preserving ‘Tainong No.1’ mangoes, but researchers did not fully understand the biological reasons behind its effectiveness.
To investigate, the research team compared mangoes stored at 12°C with fruit stored at 30°C over a 24 day period.
What Researchers Measured
The scientists used a wide range of tests to track how storage temperature affected mango quality. They monitored fruit color, firmness, weight loss, sugar content, acidity, respiration rate, and levels of reactive oxygen species (ROS), which are unstable molecules linked to cellular damage.
The study also examined antioxidant compounds such as vitamin C, phenolics, and flavonoids. Researchers measured the activity of protective enzymes including APX, SOD, PAL, and POD, while also analyzing gene expression linked to antioxidant defense systems.
Microscopic imaging allowed the team to examine changes inside mango pulp cells over time.
Cooler Storage Preserved Mango Quality
During the first 12 days, mangoes stored at 12°C and 30°C looked fairly similar. After day 16, however, major differences began to appear.
Fruit stored at 30°C yellowed rapidly, while mangoes kept at 12°C maintained their color longer because chlorophyll breakdown slowed significantly. Sugar levels increased quickly in the warmer fruit before declining, while mangoes stored at 12°C showed a slower and steadier rise.
Acidity also disappeared much faster at 30°C. Meanwhile, mangoes kept at 12°C retained significantly more acidity, helping preserve flavor balance.
The physical condition of the fruit showed even larger contrasts. Mangoes stored at 30°C lost more than 17% of their weight, while fruit stored at 12°C lost less than 4%. Firmness also declined far more slowly under cooler storage conditions.
Researchers observed major structural differences at the cellular level. Mangoes kept at 12°C retained intact cell walls and starch granules even after 24 days. By comparison, fruit stored at 30°C showed early thinning of cell walls, starch depletion, and eventual cell collapse.
Antioxidant Defenses Help Mangoes Resist Spoilage
The study found that 12°C storage reduced the buildup of malondialdehyde (MDA) and reactive oxygen species, both associated with oxidative stress and cellular deterioration.
At the same time, cooler temperatures helped preserve higher levels of vitamin C, phenolics, and flavonoids. Protective antioxidant enzymes remained more active for longer periods in mangoes stored at 12°C.
Gene analysis revealed increased activity in antioxidant-related genes including MiAPX1, MiAPX2, MiSOD1, and MiSOD2. According to the researchers, these genes help strengthen the fruit’s natural defense systems and maintain redox balance, reducing cellular damage during storage.
Correlation analysis further showed that higher ROS and MDA levels were linked to greater softening and water loss. In contrast, stronger antioxidant activity was associated with lower oxidative stress and better fruit preservation.
Implications for Mango Shipping and Storage
The findings provide practical guidance for the mango industry and cold-chain logistics systems. Maintaining storage temperatures near 12°C may allow mangoes to be harvested earlier, transported over longer distances, and ripened closer to their final markets while minimizing spoilage and quality loss.
The research was funded by the Hainan Province Agricultural Reclamation Team Joint Innovation Project (Grant No. HKKJ202432), the National Key Research and Development Program Project (Grant No. 2023YFD2300803-7), and Hainan University Mango Industry Technology System Construction Project.
