University of California

Fruit English

Apple, Golden Delicious

Recommendations for Maintaining Postharvest Quality

Apple, Golden Delicious; Manzana, Golden Delicious; Pomme, Golden Delicious
Elizabeth J. Mitcham, Carlos H. Crisosto and Adel A. Kader

Department of Plant Sciences, University of California, Davis

Maturity & Quality

Maturity Indices

Color change from dark green to light green or yellowish-green. Firmness of 17 pounds-force, 20 to 40% of cortex clear of starch. Generally about 135 to 150 days from full bloom.

Quality Indices
  • Firmness, crispness, lack of mealiness
  • Flavor, including soluble solids, titratable acidity and flavor volatiles
  • Freedom from defects such as bruising, decay, stem or blossom-end cracks, bitter pit, scald, internal browning, or shrivel

Maturity & Quality Photos

Apple, Golden Delicious, Malus domestica by  Kader, Adel A, Professor Emeritus and CE Specialist, Emeritus Department of Plant Sciences
Apple, Golden Delicious, Malus domestica by Kader, Adel A, Professor Emeritus and CE Specialist, Emeritus Department of Plant Sciences

Title: Skin Color Chart

Photo Credit: Adel Kader, UC, Davis

Temperature & Controlled Atmosphere

Optimum Temperature

0°C ± 1°C (32°F ± 2°F); Freezing temperature: -1.7°C (29°F)

Optimum Relative Humidity

90-95% RH

Rates of Respiration1
Temperature 0°C (32°F) 5°C (41°F) 10°C (50°F) 20°C (68°F)
ml CO2/kg·hr 3-6 4-8 7-12 15-30

To calculate heat production multiply ml CO2/kg·hr by 440 to get Btu/ton/day or by 122 to get kcal/metric ton/day.
1 Higher rates for riper apples.

Rates of Ethylene Production2
Temperature 0°C (32°F) 5°C (41°F) 10°C (50°F) 20°C (68°F)
µl/kg·hr 1-10 2-25  5-60 20-150

2Higher rates for riper apples.

Responses to Ethylene

Ethylene stimulates ripening. Mixed results on the benefits of scrubbing ethylene from storage rooms, depending on harvest maturity, and duration and type of storage (air or CA).

Responses to Temperature & Controlled Atmosphere (CA)

Fruit to be stored longer than one month benefit from CA storage in terms of retention of flesh firmness, acidity, and skin color. CA storage potential is up to 10 months (vs. 6 months in air).

Recommended atmospheres: 1 to 3% O2 + 1.5 to 3% CO2

Temperature & Controlled Atmosphere Photos

apple_gol-del_tempvrip700x448

Title: Temperature vs. Ripening

Photo Credit: Don Edwards, UC, Davis

Disorders

Physiological and Physical Disorders

Shrivel. Golden Delicious apples are particularly susceptible to water loss. Weight loss can be as high as 3 to 6%. Rapid cooling, storage of fruit with plastic bin liners, and well-designed refrigeration equipment will reduce water loss.

Bruising. Can be excessive, especially for Golden Delicious where bruises are more visible. Gentle handling is important.

Bitter Pit. Sunken brown spots on the skin, especially at the calyx end, related to low calcium concentrations in the apple. Best controlled by calcium sprays prior to harvest and calcium dips prior to cold storage. Apply field sprays under rapid drying conditions to avoid russeting. Reduced incidence with controlled atmosphere storage.

Superficial Scald. Browning of the skin which develops in cold storage. Susceptibility of Golden Delicious is low. Controlled atmosphere storage delays onset. Diphenylamine used infrequently; follow label rates.

Controlled Atmosphere Damage. Oxygen levels below 1% and CO2 above 15% may induce off-flavors due to fermentative metabolism. Other symptoms of CO2 injury include partially sunken brown lesions on skin or internal browning and cavities.

Pathological Disorders

Moldy Core. Caused by several fungi including Alternaria sp., Fusarium sp., Aspergillus and Penicillium. Golden Delicious apples are particularly susceptible because of the open or deep sinus cavity. Drenching can increase the incidence of moldy core.

Blue Mold, Gray Mold. The two most important postharvest diseases of Golden Delicious apples are caused by Penicillium expansum and Botrytis cinerea. Both fungi are wound pathogens. Sanitation is critical to control of these diseases. Drenching can spread spores of Penicillium and Botrytis to wounds from harvest operations. Use of fungicides during drenching may reduce decay.

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

Disorders Photos

apple_gol-del-bruise700x467

Title: Bruising

Photo Credit: Don Edwards, UC, Davis

apple_gol-del_compression_bruises730x497

Title: Compression Bruising

Photo Credit: Don Edwards, UC, Davis

apple_gol-del_freeze700x466

Title: Freezing Injury

Photo Credit: Don Edwards, UC, Davis

apple_gol-del_shrivel700x499

Title: Shrivel

Photo Credit: Don Edwards, UC, Davis

apple_gol-del_Aspergil678x450

Title: Aspergillus Mold

Photo Credit: Don Edwards, UC, Davis

apple_gol-del_bluemold700x471

Title: Blue Mold

Photo Credit: Don Edwards, UC, Davis 

apple_gol-del_graymold2_678x450

Title: Gray Mold

Photo Credit: Don Edwards, UC, Davis 

apple_gol-del_mucrorot1500x1009

Title: Mucor Rot

Photo Credit: Don Edwards, UC, Davis 

apple_gol-del_mucorrot2

Title: Mucor Rot (2)

Photo Credit: Don Edwards, UC, Davis 

apple_gol-del_rhizo700x464

Title: Rhizopus mold

Photo Credit: Don Edwards, UC, Davis 

Date

August 1999

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
 
Department of Plant Sciences

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