Effect of Closure, Packaging and Storage Conditions on Impact Odorants of Wine

3-alkyl-2-methoxypyrazines (MPs) represent an important and potent class of odor-active compounds associated with wine quality. 30 ng/l each of 3-isobutyl-2-methoxypyrazine, 3-isopropyl-2-methoxypyrazine and 3-secbutyl-2-methoxypyrazine were added to a Riesling and Cabernet Franc wine and monitored with HS-SPME-GC-MS over 18 months to investigate the effects of various closure and packaging options as well as light and storage temperature on MPs. Other impact odorants were monitored using SPE-GC-FID. Changes in MP concentrations during bottle aging varied with closure/packaging option, with the greatest decrease evident in Tetrapak® cartons. We observed similar changes in other impact odorants to previous studies, with synthetic corks displaying an increased capacity for sorption compared to natural corks and screwcaps. MPs did not vary consistently over time with light or temperature conditions. Acetate esters decreased, regardless of light or temperature conditions, while phenethyl acetate and isoamyl acetate decreased at a greater rate in ambient temperature conditions compared with 12°C. Free and bound SO<sub>2</sub> retention was higher in light-excluded conditions and influenced by bottle hue.

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California Almond Shelf Life: Changes in Moisture Content and Textural Quality During Storage

Transactions of the ASABE ◽

10.13031/trans.12709 ◽

2019 ◽

Vol 62 (3) ◽

pp. 661-671 ◽

Cited By ~ 1

Author(s):

Jia Wu ◽

Xiangyang Lin ◽

Shengnan Lin ◽

Paul Chen ◽

Guangwei Huang ◽

...

Keyword(s):

Relative Humidity ◽

Moisture Content ◽

Storage Temperature ◽

Initial Moisture Content ◽

Textural Properties ◽

Storage Conditions ◽

Temperature And Humidity ◽

Lower Temperature ◽

And Storage ◽

Over Time

Abstract. The effects of packaging and storage conditions on the moisture content and instrumental and sensory textural properties of raw and salty light roasted (SLR) California almonds were studied under different storage conditions. The controlled combinations included low, medium, and high temperatures and low and high relative humidity (RH). Almond samples were packaged in cartons or polyethylene (PE) bags with and without vacuum. Both absorption and desorption of moisture by almonds were observed during storage and were dependent on the packaging and storage conditions. In general, gradual changes were observed for samples with PE and vacuum PE packaging in most of the storage conditions, while the samples packed in cartons showed more dramatic changes because these unprotected samples were more vulnerable to seasonal changes in humidity. The SLR almonds showed consistent moisture gains, while the raw almonds tended to lose moisture content in most of the storage conditions. This may be attributed to the low initial moisture content of the SLR samples. All raw samples packed in cartons became softer over time. The softening tended to be enhanced by high storage humidity and temperature. The raw almonds packaged in PE bags were firmer than those packed in cartons but also became softer over time. The firmness of the SLR samples was generally lower than that of raw samples, probably because roasting reduced the density and mechanical strength of the kernels. The firmness of PE packaged SLR samples increased in uncontrolled storage conditions and in higher storage temperature and humidity conditions but decreased slightly in lower temperature and humidity conditions. Vacuum packaging did not affect the firmness much. Using PE packaging and maintaining the RH below 50% and the temperature below 25°C are effective in stabilizing both raw and processed almonds. Keywords: Almond, Firmness, Nonpareil, Packaging, Relative humidity, Sensory, Storage, Temperature, Texture.

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Bottle Aging and Storage of Wines: A Review

Molecules ◽

10.3390/molecules26030713 ◽

2021 ◽

Vol 26 (3) ◽

pp. 713

Author(s):

Javier Echave ◽

Marta Barral ◽

Maria Fraga-Corral ◽

Miguel A. Prieto ◽

Jesus Simal-Gandara

Keyword(s):

Storage Time ◽

Alcoholic Fermentation ◽

Alcoholic Beverage ◽

Storage Conditions ◽

Sulfur Oxide ◽

Wine Quality ◽

Complex Chemical ◽

Stable Conditions ◽

Bottle Aging ◽

And Storage

Wine is perhaps the most ancient and popular alcoholic beverage worldwide. Winemaking practices involve careful vineyard management alongside controlled alcoholic fermentation and potential aging of the wine in barrels. Afterwards, the wine is placed in bottles and stored or distributed in retail. Yet, it is considered that wine achieves its optimum properties after a certain storage time in the bottle. The main outcome of bottle storage is a decrease of astringency and bitterness, improvement of aroma and a lighter and more stable color. This is due to a series of complex chemical changes of its components revolving around the minimized and controlled passage of oxygen into the bottle. For this matter, antioxidants like sulfur oxide are added to avoid excessive oxidation and consequent degradation of the wine. In the same sense, bottles must be closed with appropriate stoppers and stored in adequate, stable conditions, as the wine may develop unappealing color, aromas and flavors otherwise. In this review, features of bottle aging, relevance of stoppers, involved chemical reactions and storage conditions affecting wine quality will be addressed.

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Impact of Storage Conditions on the Methanogenic Activity of Anaerobic Digestion Inocula

Water ◽

10.3390/w12051321 ◽

2020 ◽

Vol 12 (5) ◽

pp. 1321 ◽

Cited By ~ 3

Author(s):

Sergi Astals ◽

Konrad Koch ◽

Sören Weinrich ◽

Sasha D. Hafner ◽

Stephan Tait ◽

...

Keyword(s):

Anaerobic Digestion ◽

Room Temperature ◽

Storage Time ◽

Storage Temperature ◽

Storage Conditions ◽

Methanogenic Activity ◽

Specific Methanogenic Activity ◽

The Impact ◽

And Storage ◽

Over Time

The impact of storage temperature (4, 22 and 37 °C) and storage time (7, 14 and 21 days) on anaerobic digestion inocula was investigated through specific methanogenic activity assays. Experimental results showed that methanogenic activity decreased over time with storage, regardless of storage temperature. However, the rate at which the methanogenic activity decreased was two and five times slower at 4 °C than at 22 and 37 °C, respectively. The inoculum stored at 4 °C and room temperature (22 °C) maintained methanogenic activity close to that of fresh inoculum for 14 days (<10% difference). However, a storage temperature of 4 °C is preferred because of the slower decrease in activity with lengthier storage time. From this research, it was concluded that inoculum storage time should generally be kept to a minimum, but that storage at 4 °C could help maintain methanogenic activity for longer.

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Changes of Physicochemical Properties of Starch Syrups Recommended for Winter Feeding of Honeybees during Storage

Agriculture ◽

10.3390/agriculture11040374 ◽

2021 ◽

Vol 11 (4) ◽

pp. 374

Author(s):

Teresa Szczęsna ◽

Ewa Waś ◽

Piotr Semkiw ◽

Piotr Skubida ◽

Katarzyna Jaśkiewicz ◽

...

Keyword(s):

Chemical Composition ◽

Physicochemical Properties ◽

Physicochemical Parameters ◽

Storage Temperature ◽

Storage Conditions ◽

Different Temperatures ◽

And Storage ◽

Bee Colonies ◽

Temperature Time ◽

Winter Feeding

The aim of this study was to determine the influence of storage temperature and time on physicochemical parameters of starch syrups recommended for the winter feeding of bee colonies. The studies included commercially available three starch syrups and an inverted saccharose syrup that were stored at different temperatures: ca. 20 °C, 10–14 °C, and ca. 4 °C. Physicochemical parameters of fresh syrups (immediately after purchase) and syrups after 3, 6, 9, 12, 15, 18, 21, and 24 months of storage at the abovementioned temperatures were measured. It was observed that the rate of unfavorable changes in chemical composition of starch syrups and the inverted saccharose syrup, mainly the changes in the 5-hydroxymethylfurfural (HMF) content, depended on the type of a syrup and storage conditions (temperature, time). Properties of tested starch syrups intended for winter feeding of bees stored at ca. 20 °C maintained unchanged for up to 6 months, whereas the same syrups stored at lower temperatures (10–14 °C) maintained unchanged physicochemical parameters for about 12 months. In higher temperatures, the HMF content increased. To date, the influence of this compound on bees has not been thoroughly investigated.

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Influence of Different Filling, Cooling, and Storage Conditions on the Growth of Alicyclobacillus acidoterrestris CRA7152 in Orange Juice

Applied and Environmental Microbiology ◽

10.1128/aem.01400-09 ◽

2009 ◽

Vol 75 (23) ◽

pp. 7409-7416 ◽

Cited By ~ 33

Author(s):

Ana Cláudia N. F. Spinelli ◽

Anderson S. Sant'Ana ◽

Salatir Rodrigues-Junior ◽

Pilar R. Massaguer

Keyword(s):

Orange Juice ◽

Storage Temperature ◽

Growth Parameters ◽

Storage Conditions ◽

Inoculum Level ◽

Alicyclobacillus Acidoterrestris ◽

Time Required ◽

Cold Point ◽

And Storage ◽

A Current

ABSTRACT The prevention of spoilage by Alicyclobacillus acidoterrestris is a current challenge for fruit juice and beverage industries worldwide due to the bacterium's acidothermophilic growth capability, heat resistance, and spoilage potential. This study examined the effect of storage temperature on A. acidoterrestris growth in hot-filled orange juice. The evolution of the A. acidoterrestris population was monitored under six different storage conditions after pasteurization (at 92°C for 10 s), maintenance at 85°C for 150 s, and cooling with water spray to 35°C in about 30 min and using two inoculum levels: <101 and 101 spores/ml. Final cooling and storage conditions were as follows: treatment 1, 30°C for the bottle cold point and storage at 35°C; treatment 2, 30°C for 48 h and storage at 35°C; treatment 3, 25°C for the bottle cold point and storage at 35°C; treatment 4, 25°C for 48 h and storage at 35°C; treatment 5, storage at 20°C (control); and treatment 6, filling and storage at 25°C. It was found that only in treatment 5 did the population remain inhibited during the 6 months of orange juice shelf life. By examining treatments 1 to 4, it was observed that A. acidoterrestris predicted growth parameters were significantly influenced (P < 0.05) either by inoculum level or cooling and storage conditions. The time required to reach a 104 CFU/ml population of A. acidoterrestris was considered to be an adequate parameter to indicate orange juice spoilage by A. acidoterrestris. Therefore, hot-filled orange juice should be stored at or below 20°C to avoid spoilage by this microorganism. This procedure can be considered a safe and inexpensive alternative to other treatments proposed earlier.

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Effect of centre of production, maturity and storage treatment of seed tubers on the growth of early potatoes: I. Sprout development in storage

The Journal of Agricultural Science ◽

10.1017/s0021859600014337 ◽

1969 ◽

Vol 73 (2) ◽

pp. 161-166 ◽

Cited By ~ 10

Author(s):

P. B. Goodwin ◽

A. Brown ◽

J. H. Lennard ◽

F. L. Milthorpe

Keyword(s):

Storage Conditions ◽

Southern Region ◽

Post Harvest ◽

Long Period ◽

Temperature Conditions ◽

Seed Tubers ◽

Storage Treatment ◽

Sprout Length ◽

Duration Of Storage ◽

And Storage

SUMMARYThe effect of three centres of production, two times of lifting and two post-harvest treatments of apparently virus-free seed tubers on sprout development at planting was studied over two seasons. Sprout length and degree of development were determined mainly by the light and temperature conditions during storage. Under similar storage conditions tubers from the most southern region, lifted early and allowed to sprout from lifting produced longer sprouts than those from the more northerly regions, lifted late and sprouted from midwinter. At planting all tubers had sprouts longer than 2·5 cm. Desprouted tubers from the more southern regions had the highest number of sprouts at planting and tubers 'greened' immediately on lifting had the least.An index of sprout development at planting was defined. The conditions and duration of storage had most influence on the degree of development as measured by this index; sprouts were most developed on tubers sprouted over a long period and on those sprouted in a heated glasshouse. The effects of varying centres of production and times of lifting on sprout development at planting were small compared with those readily produced by varying the storage conditions.

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Study on Surface Dot Piting of Lingwu Long Jujubes

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.971-973.262 ◽

2014 ◽

Vol 971-973 ◽

pp. 262-265

Author(s):

Lan Chen ◽

Wei Dong Su ◽

Xiao Bo Zhang ◽

Xi Hong Li ◽

Qi Li ◽

...

Keyword(s):

Storage Disease ◽

Storage Temperature ◽

Significant Negative Correlation ◽

Storage Conditions ◽

Lesion Site ◽

Epidermal Tissue ◽

Crack Band ◽

Flesh Browning ◽

Lower Temperature ◽

And Storage

The experiment was carried to study a new storage disease of Lingwu long jujubes —surface dot piting and its incidence regularity .There was no abnormal fruit at room temperature ,while fruits storage at lower temperature started to appear concave spots on the seventh to tenth day. The size and distribution of spots are irregular ,and flesh browning and ligneous occurred at the lesion site. SEM results showed that relatived to the peel of the healthy fruit, the microstructure of the epidermal tissue of the lesion site was uneven and rough ,which showed large areas of uniform crack band, and the flesh tissue is messy, with varying degrees of wrinkles, looser organization, or seriously damaged. There was significant negative correlation between this new storage disease and storage temperature, whereas no correlation with gas composition, humidity or other storage conditions.

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Effects of Storage Conditions on Physical Properties of Cut Tobacco

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.347-353.3041 ◽

2011 ◽

Vol 347-353 ◽

pp. 3041-3045

Author(s):

Hua Liu ◽

Rong He ◽

Qi Zhong Tan ◽

Zhi Huang ◽

Yan Peng Qi ◽

...

Keyword(s):

Physical Properties ◽

Process Parameters ◽

Storage Temperature ◽

Design Method ◽

Uniform Design ◽

Storage Conditions ◽

Regression Equations ◽

Storage Process ◽

Cut Tobacco ◽

And Storage

In order to research effects of storage conditions on physical properties of cut tobacco, storage temperature, storage humidity and storage time were studied by uniform design method in this paper. Intuitive analysis results showed that the best store process parameters such as storage temperature, humidity and time were 26°C, 61% and 32h respectively. Stepwise regression analysis results indicated storage process parameters affected physical properties of cut tobacco such as moisture content, filling power, proportion of long strands and its conversion extremely. And the regression equations were significant effective. But there was no efficacious regression equation between proportion of small strands of cut tobacco and storage process parameters.

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Postharvest Handling and Storage of Fresh Cranberries

HortTechnology ◽

10.21273/horttech.13.2.0267 ◽

2003 ◽

Vol 13 (2) ◽

pp. 267-272 ◽

Cited By ~ 4

Author(s):

Charles F. Forney

Keyword(s):

Cultural Practices ◽

Storage Temperature ◽

Mechanical Damage ◽

Storage Conditions ◽

Storage Life ◽

Fruit Storage ◽

Storage Losses ◽

Postharvest Handling ◽

Bog Water ◽

And Storage

High-quality cranberry (Vaccinium macrocarpon) fruit are required to fulfil the growing markets for fresh fruit. Storage losses of fresh cranberries are primarily the result of decay and physiological breakdown. Maximizing quality and storage life of fresh cranberries starts in the field with good cultural practices. Proper fertility, pest management, pruning, and sanitation all contribute to the quality and longevity of the fruit. Mechanical damage in the form of bruising must be minimized during harvesting and postharvest handling, including storage, grading, and packaging. In addition, water-harvested fruit should be removed promptly from the bog water. Following harvest, fruit should be cooled quickly to an optimum storage temperature of between 2 and 5 °C (35.6 and 41.0 °F). The development of improved handling, refined storage conditions, and new postharvest treatments hold promise to extend the storage life of fresh cranberries.

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676 Effects of Volatiles on Postharvest Shelf Life and Quality

HortScience ◽

10.21273/hortsci.35.3.515c ◽

2000 ◽

Vol 35 (3) ◽

pp. 515C-515

Author(s):

Charles F. Forney

Keyword(s):

Storage Temperature ◽

Storage Conditions ◽

Volatile Composition ◽

Pigment Formation ◽

Ethyl Hexanoate ◽

Aroma Volatiles ◽

Fruit Maturity ◽

Methyl Butanoate ◽

Wild Blueberries ◽

And Storage

Volatile compounds make a significant contribution to the quality and storage life of fresh strawberries, blueberries, and raspberries. Strawberry aroma is composed predominately of esters, although alcohols, ketones, and aldehydes are also present in smaller quantities. The major volatiles contributing to aroma include ethyl butanoate, 2,5-dimethyl-4-hydroxy-3(2H)-furanone, ethyl hexanoate, methyl butanoate, linalool, and methyl hexanoate. In lowbush (wild) blueberries, aroma is predominated by esters and alcohols including ethyl and methyl methylbutanoates, methyl butanoate, 2-ethyl-1-hexanol, and 3-buteneol, while highbush blueberry aroma is dominated by aromatic compounds, esters, terpenes and long chain alcohols. The aroma of raspberries is composed of a mixture of ketones and terpenes, including damascenone, ionone, geraniol, and linalool. The composition and concentration of these aroma compounds are affected by fruit maturity and storage conditions. As fruit ripen, the concentration of aroma volatiles rapidly increases. This increase in volatile synthesis closely follows pigment formation both on and off the plant. In strawberry fruit, volatile concentration increases about 4-fold in the 24-h period required for fruit to ripen from 50% red to fully red on the plant. In storage, volatile composition is affected by storage temperature, duration, and atmosphere. Postharvest holding temperature and concentrations of O2 and CO2 can alter the quantity and composition of aroma volatiles. The effects of postharvest environments on volatile composition will be discussed.

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