Your search keyword '"Hanrahan, Ines"' showing total 3 results

1. Effects of 1-methylcyclopropene and gaseous ozone on Listeria innocua survival and fruit quality of Granny Smith apples during long-term commercial cold storage.

Author

Sheng L, Shen X, Su Y, Xue Y, Gao H, Mendoza M, Green T, Hanrahan I, and Zhu MJ

Subjects

Cyclopropanes pharmacology, Food Storage, Fruit microbiology, Listeria, Malus microbiology, Ozone pharmacology

Abstract

This study evaluated the impact of 1-methylcyclopropene (1-MCP), an ethylene synthesis inhibitor, followed by long-term commercial cold storage with low-dose gaseous ozone on the microbiological safety and quality of fresh apples. Granny Smith apples were inoculated with or without Listeria innocua, treated with or without 1.0 mg/L 1-MCP for 24 h, then subjected to commercial cold storage conditions including refrigerated air (RA, 0.6 °C, control), controlled atmosphere (CA, 2% O 2 , 1% CO 2, 0.6 °C), and CA with 51-87 μg/L ozone gas for up to 36 weeks. RA storage reduced L. innocua on apples by up to 3.6 log 10  CFU/apple. CA had no advantage over RA in controlling Listeria. Continuous ozone gas application resulted in an additional ∼2.0 log 10  CFU/apple reduction of L. innocua (total reduction up to 5.7 log 10  CFU/apple) and suppressed native bacteria and fungi. Treatment with 1-MCP had a minor impact on survival of L. innocua or background microbiota on apples, while it significantly delayed fruit ripening and reduced the incidence of superficial scald and internal browning. In summary, 1-MCP treatment followed by CA storage with low-dose continuous ozone gas can effectively control Listeria on fresh apples and delay fruit ripening., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2022

2. Survival of Listeria innocua on Fuji apples under commercial cold storage with or without low dose continuous ozone gaseous.

Author

Sheng L, Hanrahan I, Sun X, Taylor MH, Mendoza M, and Zhu MJ

Subjects

Cold Temperature, Colony Count, Microbial, Consumer Product Safety, Food Microbiology methods, Food Preservation methods, Malus drug effects, Food Storage methods, Listeria drug effects, Malus microbiology, Microbial Viability drug effects, Oxidants, Photochemical pharmacology, Ozone pharmacology

Abstract

This study evaluated the fate of Listeria innocua, a non-pathogenic species closely related to Listeria monocytogenes, on Fuji apple fruit surfaces during commercial cold storage with and without continuous low doses of gaseous ozone. Unwaxed Fuji apples of commercially acceptable maturity were inoculated with 6.0-7.0 Log 10  CFU L. innocua/apple, and subjected to refrigerated air (RA, 33 °F), controlled atmosphere (CA, 33 °F, 2% O 2 , 1% CO 2 ), or CA with low doses of ozone gas (50.0 -87.0 ppb ) storage in a commercial facility for 30 weeks. A set of uninoculated apples was simultaneously subjected to the above storage conditions for total plate count and yeasts and molds enumeration. L. innocua survival under RA and CA storage was similar, which led to 2.5-3.0 Log 10  CFU/apple reduction during storage. Continuous gaseous ozone application decreased L. innocua population on Fuji apples to ∼1.0 Log 10  CFU/apple after 30-week storage, and suppressed apple native flora. CA storage delayed apple fruit ripening through reduction of apple firmness and titratable acidity loss, and low dose gaseous ozone application had no negative influence on apple visual quality, including both external and internal disorders. In summary, L. innocua decreased on Fuji apple surfaces during commercial long-term RA and CA storage. Ozone gas has the potential to be used as a supplemental intervention method to control Listeria spp. and to ensure fresh apple safety., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

3. Effectiveness of Low-Dose Continuous Gaseous Ozone in Controlling Listeria innocua on Red Delicious Apples During 9-Month Commercial Cold Storage.

Author

Shen, Xiaoye, Su, Yuan, Hua, Zi, Sheng, Lina, Mendoza, Manoella, He, Yang, Green, Tonia, Hanrahan, Ines, Blakey, Rob, and Zhu, Mei-Jun

Subjects

LISTERIA innocua, COLD storage, OZONE, 1-Methylcyclopropene, VACCINATION, ORCHARDS, CARDIAC amyloidosis

Abstract

This study aimed to investigate the effects of low-dose continuous ozone gas in controlling Listeria innocua and quality attributes and disorders of Red Delicious apples during long-term commercial cold storage. Red Delicious apples were inoculated with a three-strain L. innocua cocktail at ∼6.2 log10 CFU/apple, treated with or without 1-methylcyclopropene, and then subjected to controlled atmosphere (CA) storage with or without continuous gaseous ozone in a commercial facility for 36 weeks. Uninoculated Red Delicious apples subjected to the above storage conditions were used for yeast/mold counts and quality attributes evaluation. The 36 weeks of refrigerated air (RA) or CA storage caused ∼2.2 log10 CFU/apple reduction of L. innocua. Ozone gas application caused an additional > 3 log10 CFU/apple reduction of L. innocua compared to RA and CA storage alone. During the 36-week CA storage, low-dose continuous gaseous ozone application significantly retarded the growth of yeast/mold, delayed apple firmness loss, and had no negative influence on ozone burn, lenticel decay, russet, CO2 damage, superficial scald, and soft scald of Red Delicious apples compared to CA-alone storage. In summary, the application of continuous low-dose gaseous ozone has the potential to control Listeria on Red Delicious apples without negatively influencing apple quality attributes. [ABSTRACT FROM AUTHOR]

Published

2021