University of California

Fruit English

Banana, Specialty

Recommendations for Maintaining Postharvest Quality

Banana, Specialty; Bananas; Bananes Sp├ęciales

Keri L. Morrelli and Adel A. Kader

Department of Plant Sciences, University of California, Davis

Maturity & Quality

Maturity Indices

Degree of fullness of the fingers, i.e. disappearance of angularity in a cross section. Specialty bananas are harvested mature-green and are ripened upon arrival at destination markets.

Quality Indices
  • Maturity (the more mature the better the quality when ripe)
  • Finger length (dependent on cultivar)
  • Freedom from defects, such as insect injury, physical damage, scars and decay
  • As specialty bananas ripen, their starch content is converted into sugars (increased sweetness)
  • Other constituents that influence flavor include acids and volatiles

Maturity & Quality Photos

banana_speciality_petite_ripeness_chart

Title: Petite Ripeness Chart

Photo Credit: Don Edwards, UC Davis

banana_speciality_Red_Macabu_Chart

Title: Red Macabu Ripeness Chart

Photo Credit: Don Edwards, UC Davis

banana_speciality_yagambi_chart

Title: Yagambi Ripeness Chart

Photo Credit: Don Edwards, UC Davis

Temperature & Controlled Atmosphere

Optimum Temperature

Varies among cultivars:

‘Petite’ and ‘Yangambi’ 11°C (52°F) for up to 7 days
‘Red Macabu’ 10°C (50°F) for up to 7 days
‘Petite’ and other cultivars 12.5-14°C (54.5-57.2°F) for longer than 7 days
Optimum Relative Humidity

90-95%

Rates of Respiration Production
Temperature 10°C (50°F) 12.5°C (54.5°F) 14°C (57.2°F) 20°C (68°F)
mlCO2/kg·hr1,2 12-17 22-45 24-53 79-170

1Low end for mature-green bananas and high end for ripening bananas.

2To calculate heat production multiply ml CO2/kg·h by 440 to get Btu/ton/day or by 122 to get kcal/metric ton/day.

Rates of Ethylene Production

`Petite' Cultivar:

Temperature 10°C (50°F) 12.5°C (54.5°F) 14°C (57.2°F) 20°C (68°F)
ul C2H4/kg·hr1 0.09-0.16 0.2-0.9 0.2-0.7 1.1-2.0

1Low end for mature-green bananas and high end for ripening bananas.

Responses to Ethylene

Most commercial cultivars of bananas require exposure to 100-150 ppm ethylene for 24-48 hours at 15-20°C (59-68°F) and 90-95% relative humidity to induce uniform ripening. Carbon dioxide concentration should be kept below 1% to avoid its effect on delaying ethylene action. Use of a forced-air system in ripening rooms assures more uniform cooling or warming of bananas as needed and more uniform ethylene concentration throughout the ripening room.

Responses to Controlled Atmospheres (CA)
  • Optimum CA: 2% O2 and 5-10% CO2 (dependent on cultivar)
  • CA delays ripening, reduces respiration and ethylene production rates

Temperature & Controlled Atmosphere Photos

banana_speciality_ethylene_effects

Title: Ethylene Effects

Photo Credit: Don Edwards, UC Davis

Disorders

Physiological and Physical Disorders

Chilling injury. Symptoms include peel browning, dull or smokey peel coloration, subepidermal vascular browning, abnormal ripening and in severe cases failure to ripen. Chilling sensitivity varies among cultivars. Chilling injury results from exposure of ‘Petite’ bananas to temperatures lower than or equal to 10°C (50°F) for 7 or more days of storage or below 12.5°C (54.5°F) for 21 days of storage. ‘Yangambi’ bananas are subject to chilling injury when stored at temperates less than or equal to 10°C (50°F) for 7 days. ‘Red Macabu’ bananas are subject to chilling injury when stored for 5 days at temperatures below 10°C (50°F). Chilled fruit are more sensitive to mechanical damage and postharvest decay.

Skin abrasions. Abrasions result from skin scuffing against other fruit, surfaces of handling equipment, or shipping boxes. When exposed to low (<90%) relative humidity conditions, water loss from scuffed areas is accelerated and peel color turns brown and in severe cases black. This symptom is similar to severe peel browning associated with chilling injury.

Impact bruising. Dropping of bananas may induce browning of the flesh with or without damage to the skin. In some cases, damaged areas may become infected with fungal growth.

Pathological Disorders

Crown rot. This disease is caused by one or more of the following fungi: Thielaviopsis paradoxa, Lasiodiplodia theobromae, Colletotrichum musae, Deightonialla torulosa, and Fusarium roseum – which attack the cut surface of the hands. From the rotting hand tissue the fungi grow into the finger neck and with time, down into the fruit.

Anthracnose. Caused by Colletotrichum musae, becomes evident as the bananas ripen, especially in wounds and skin splits.

Stem-end rot. Caused by Lasiodiplodia theobromae and/or Thielaviopsis paradoxa, which enter through the cut stem or hand. The invaded flesh becomes soft and water-soaked.

Cigar-end rot. Caused by Verticillium theobromae and/or Trachysphaera fructigena. The rotted portion of the banana finger is dry and tends to adhere to fruits (appears similar to the ash of a cigar).

Control Strategies

Minimizing bruising; prompt cooling to 14°C (57°F); proper sanitation of handling facilities; hot water treatments [such as 5 minutes in 50°C (122°F) water] and/or fungicide (such as Imazalil) treatment to control crown rot.

[For more information, see our publication "Fruit Ripening and Ethylene Management", available for purchase using our Publication order form.]

Disorders Photos

banana_speciality_petite_chilling

Title: Petite Chilling Injury

Photo Credit: Don Edwards, UC Davis

Date

October 2002

Use of Materials

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How to Cite

Author(s) names. Initial publication or update date (located at the top). Title. Link to the specific Produce Fact Sheet webpage (Accessed date)

Example: Cantwell, M. and T. Suslow. 2002. Lettuce, Crisphead: Recommendations for Maintaining Postharvest Quality. 

http://ucanr.edu/sites/Postharvest_Technology_Center_/Commodity_Resources/Fact_Sheets/Datastores/Vegetables_English/?uid=19&ds=799 (Accessed January 18, 2014).

College of Agricultural & Environmental Sciences
Postharvest Technology Center
Department of Plant Sciences

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