Changes in Texture of Green Peas during Freezing and Frozen Storage

The effects of freezing (still-air, air-blast, and Freon immersion freezing) and frozen storage (?5°, ?10° and ?15°C for 0 to 48 wk) on texture of cooked frozen peas were examined. Peas frozen by a Freon-12 immersion method with no appreciable damage to cell structure had firmer and more chewy sensory textural quality compared to those peas frozen by a slower freezing method. Sensory tenderness decreased initially and then increased with storage time to the maximum storage times of 6 wk in ?5°C storage, 16 wk in ?10°C storage, and 48 wk in ?15°C storage. Sensory chewiness increased initially, then remained constant with storage time except in ?15°C storage. Generally, the lower storage temperature resulted in less sensory chewiness. The correlation coefficients (r) between sensory and objective measurements for tenderness and chewiness were 0.76 and 0.88 (P < 0.05), respectively.     

Comparison of air freezing,liquid immersion freezing and pressure shift freezing on freezing time and quality of snakehead (Channa Argus) fillets

The objective of this study was to investigate the freezing time and quality differences in Snakehead fillets frozen by pressure shift freezing (PSF), conventional air freezing (AF) and liquid immersion freezing (LIF) at −20 °C, −40 °C and − 60 °C, respectively. The results showed that liquid immersion freezing at −60 °C maintained the quality best, with a freezing time of 3.62 min and the cross sectional area of 209.11 um². Air freezing at −20 °C had the longest freezing time (184.58 min) and the largest cross sectional area (4470.79 um²), and lowest hardness and springiness of the fillets. Pressure shift freezing did not demonstrate the well established advantages of maintaining better product quality found in similar technique with some other foods. The samples of pressure shift freezing also had higher thawing loss and free water ratio after thawing. Therefore, the liquid immersion freezing at lower temperatures was demonstrated to better maintain the quality of frozen products and held significant potential for commercial application.Industrial relevanceFreezing is a widely used method for extending the shelf life of aquatic products, but some freezing methods, especially the slower ones, often lead to the decrease in the quality and commercial value of frozen products during storage. This paper explored the comparison of industrially used freezing techniques (air freezing and liquid immersion freezing) with the novel pressure shift freezing technique. Liquid immersion freezing at −60 °C was found to be the preferred freezing method for Snakehead fillets, which maintained better frozen product quality, with a simple freezing process and low cost.     

Effects of Chilling Method on the Sensory, Chemical and Cooking Characteristics of Ground Beef Patties

Hot-boned beef (excised 90 min postmortem) was chilled either by mixing coarse ground beef with CO₂ snow or by immersing ground beef chub packs in a brine chiller (-2°C). Hamburger patties were prepared from both hot and cold-boned chub packed, coarse ground beef after 0, 7, 14, and 21 days of storage (0°C). Microbiological quality of the hot-boned ground beef was either superior or equal to that of the control. Purge present in all the chub packs after 21 days of storage was 1.0%. Patties prepared from CO₂ chilled ground beef were more tender than control patties. Patties prepared from brine-chilled ground beef had greater cooking losses than patties prepared from cold-boned ground beef.     

Determination of the effect of sodium lactate on the survival and heat resistance of Escherichia coli O157:H7 in two commercial beef patty formulations

The effect of 4% sodium lactate (NaL) in beefburger patty formulations on the survival and heat resistance of Escherichia coli O157:H7 was investigated. Fresh beef trimmings were inoculated with E. coli O157:H7 to a concentration of 6·0–7·0 log₁₀ cfu g⁻¹ and subjected to the processing stages of beefburger patty production. Two commercial beefburger patty formulations were produced: a ‘quality’ patty (100% beef) and an ‘economy’ patty (70% beef, 30% other ingredients, including onion, water, salt, seasoning, rusk and soya concentrate). Sodium lactate (4% w/v) was added to the beefburger patties during mincing and the formed patties were frozen and stored for 1 month. Beefburger patties without added NaL were used as controls. After frozen storage for 1 month, patties were examined for E. coli O157:H7 counts. There was a synergistic effect between freezing and NaL, which resulted in a small but significant reduction (P<0·05) (approximately 0·5 log₁₀ cfu g⁻¹) in E. coli O157:H7 numbers. The frozen beefburger patties were also heat-treated at 50, 55 and 60°C and the data analysed to derive D -values for E. coli O157:H7 cells. At each temperature treatment, theD -values of the quality and economy beefburger patties with 4% NaL were significantly lower (P<0·001) than the D -values of the patty formulations without NaL. The study demonstrates that the presence of 4% NaL in beefburger patty formulations can reduce the overall risks posed to consumers by the presence ofE. coli O157:H7 by, first; reducing pathogen survival during freezing and frozen storage of the uncooked product; and, second, by increasing the susceptibility of the pathogen to heat during normal cooking processes.     

Walleye Pollock (Theragra chalcogramma): Changes in Quality When Held in Ice, Slush-ice, Refrigerated Seawater, and CO2-Modified Refrigerated Seawater Then Stored as Blocks of Fillets at - 18°C

Walleye pollock were held in ice, slush-ice, refrigerated seawater (RSW) and CO₂-modified RSW (MRSW) for up to 8 days, filleted and stored as blocks of fillets at -18°C. Good quality fillets were obtained from pollock held for 4 days in all systems. Uptake of salt presented a problem for pollock held more than 4 days in RSW at 1°C. Flavor scores remained essentially unchanged during frozen storage but nearly all samples became slightly tougher and slightly drier at 6 months. Freshness at time of freezing did not affect frozen storage characteristics. Protein functionality was generally adversely affected when fish were held in RSW or MRSW.     

Effects of vacuum,modified atmospheres and storage temperature on the microbial flora of packaged beef

The flora growing on beef stored in vacuum and 100% CO₂at 2 or 6°C (experiment 1) and in vacuum and different mixtures of CO₂and N₂at −1 or 2°C (experiment 2) was determined in two separate experiments. Both a high concentration of CO₂and a low storage temperature inhibited bacterial growth, especially of the spoilage bacteria pseudomonads andBrochothrix thermosphacta. No packaging conditions gave growth of coliforms. High numbers (log₈5–6) of lactic acid bacteria after storage in vacuum or gas packs, inhibited growth of pseudomonads andB. thermosphactaduring subsequent storage under retail conditions. Samples of the lactic acid bacteria obtained in experiment 2 were identified by genus-specific rRNA probes. Leuconostocs dominated in vacuum and CO₂packs at both temperatures, whereas carnobacteria dominated in N₂at −1°C.     

Structure of northern snakehead (Channa argus) meat: Effects of freezing method and frozen storage

This study was conducted to investigate the potential of cryogenic freezing with liquid nitrogen in the shelf-life extension of northern snakehead (Channa argus) and clarify the effects of temperature fluctuations after freezing on the quality attributes and tissue microstructure during frozen storage. The fish fillets were frozen by three methods including freezing using an ultra-low-temperature freezer (?80°C) to the core temperature of ?60°C (T1) or ?18°C (T2), or liquid nitrogen (T3) followed by storage at ?20°C for five months. Cryogenic freezing with liquid nitrogen postponed the decrease in pH and protein extractability. Temperature fluctuations after freezing might promote the accretion of ice crystals and resulted in the loss of tissue integrity and disorganization of myofibrils. The microstructural changes contributed greatly to the increased thawing loss and decreased resilience, as indicated by the enlarged extracellular spacing and the flakiness of myofibrils. Cryogenic freezing with liquid nitrogen showed no superiority in maintaining the microstructure of northern snakehead fillets, which was supposedly attributed to the cracking in tissue during freezing and the accretion of ice crystals during frozen storage.     

Residual peroxidase activity as influenced by blanching,SO2 treatment and freezing of cauliflowers

The influence of blanching time and SO₂ treatment on the residual peroxidase activity and its implication for the sensory quality of frozen cauliflowers were assessed after storage for up to one year at ?18°C. The treated cauliflowers, sealed in polythene bags, were placed in waxed paperboard cartons and frozen in a contact plate freezer at ?35°C. The sensory quality of frozen stored cauliflowers related well to their residual peroxidase activity, which was sensitive to the SO₂ treatment. Blanched cauliflowers following a brief dip in a metabisulphite solution prior to freezing gave a significantly (P<0.05) superior product even when stored for one year. The residual peroxidase activity, which ranged from 1 to 5.5% in the blanched samples, was below 1 % in the SO ₂-treated samples, and the SO₂ content of50 ppm found in these stored samples disappeared after 3 min cooking in boiling water.     

Changes in some quality factors of frozen ginger as affected by the freezing storage conditions

The effects of types of ginger root, the freezing storage temperature and time on quality factors associated with color, off‐odor and acceptability of frozen ginger were evaluated to establish the freezing storage conditions of ginger roots. Whole and ground ginger was packed in Nylon/polyethylene (PE) bags and stored at ?5, ?20 and ?40 °C. The quality of the ginger was determined at the following times and storage temperatures: the ginger stored at ?5 °C, ?20 °C, and ?40 °C was sampled at 30‐day intervals for 4 months, at 90‐day intervals for 12 months, and at 120‐day intervals for 16 months, respectively. The content of free sugars, free amino acids (FAAs), unsaturated fatty acids (FUFAs) and volatile compounds noticeably decreased during the storage period, while the total color difference (ΔE) increased, and the temperature effect was significant. The changes in these compounds were generally less in the whole ginger samples. The overall preference of ginger roots stored at ?5, ?20 and ?40 °C was significantly different after 2–3, 9 and 16 months of storage, respectively. The increase of ΔE with decreases of free sugars, FAAs and sensory color indicated the discoloration of frozen ginger was due to the browning reaction. The sensory off‐odor scores were closely associated with the decrease of FUFAs, suggesting that the oxidation of FUFAs caused the development of off‐odor in the frozen ginger. Multiple regression analysis between the overall preference scores and other determined quality factors indicated that FAAs, FUFAs and volatile compounds significantly affected the overall preference scores of ground ginger samples stored at ?5 °C or ?20 °C. The sensory off‐odor and overall preference scores showed that whole ginger could be stored for 2 or 9 months at ?5 or ?20 °C, respectively, maintaining a good overall quality. Copyright © 2006 Society of Chemical Industry     

Effects of four multi-compound freezing medium on the quality of red drum (Sciaenops ocellatus) during frozen storage

Taking air freezing (AF) as the reference, the effects of four types of multi-compound freezing medium for cryogenic liquid quick-freezing (immersion freezing, IF) on the freezing rate, quality and myofibrillar protein (MP) denaturation of red drum (Sciaenops ocellatus) fillets during frozen storage (−18°C) from days 0 to 90 were studied. Samples were gathered on days 0, 15, 30, 45, 60 and 90 for analysis. The results showed that IF groups (IF-1: 20% ethanol, 30% propylene glycol, 10% sodium chloride aqueous solution; IF-2: 20% ethanol, 20% propylene glycol, 10% glycerol, 10% sodium chloride aqueous solution; IF-3: 20% ethanol, 20% propylene glycol, 10% polyethylene glycol, 10% sodium chloride aqueous solution; IF-4: 20% ethanol, 20% propylene glycol, 5% glycerol, 5% polyethylene glycol, 10% sodium chloride aqueous solution) significantly shortened the time to cross the formation zone of maximum ice crystals while the freezing rate was 6.13 times higher than the AF group after adding 30% propylene glycol as the freezing medium. Furthermore, compared with the AF group, the IF groups significantly reduced losses in the water-holding capacity, the myofibrillar fragmentation index, microstructure damage, texture characteristics, drip loss and water migration (P < 0.05). In addition, the MP of IF groups had higher maximum transition temperatures (T_max1 and T_max2), total sulfhydryl content, Ca²⁺-ATPase activity and relative α-helix content compared with the AF group. In conclusion, IF could significantly increase the freezing rate of red drum fillets, and slow down quality deterioration and denaturation of MP during frozen storage for 90 days (−18°C). In particular, IF-2 (20% ethanol, 20% propylene glycol, 10% glycerol, 10% sodium chloride aqueous solution) was found to be more suitable for the immersion freezing of marine fish among the four multi-compound freezing medium.     

The effect of modified atmospheres on the saw-toothed grain beetle Oryzaephilus surinamensis (L.)(Coleoptera: Silvanidae) and the quality of semi-dried dates

The saw-toothed grain beetle Oryzaephilus surinamensis plays a major role in reducing the quality and volume of dried fruits. The aim of this study was to evaluate the effect of modified atmospheres (MAs) enriched in CO₂ or N₂ at 25 °C and 35 °C on the adult and larval stages of O. surinamensis and dried date quality. The tested MAs containing 20%, 30%, 40%, and 50% CO₂ and the MAs containing 97% and 98% N₂, with different exposure periods were performed in the laboratory at 25 °C or 35 °C ± 2 °C, 65% ± 5% r.h and photoperiod of 16 Light:8 Dark. The adults and larvae were found to be more susceptible to CO₂ or N₂ at 35 °C than those at 25 °C. Both adults and larvae reached 100% mortality after 4–6 days exposure to 20%–50% CO₂ at 25 °C and 3–5 days exposure to the same concentrations at 35 °C. The mortality reached 100% after 2–3 days when adults were exposed to 97% or 98% N₂ at 35 °C, but the larvae reached the complete mortality after 5 and 4 days exposure to 97% and 98% N₂, respectively, at 35 °C. The adult stage was more susceptible than the larval stage to MAs enriched in CO₂ or N₂. Also, the results showed that an MA containing 50% CO₂ and another containing 98% N₂ led to increased total carbohydrates, protein, fat, and ash in treated dates compared to control dates. MAs at high temperatures may be recommended to control O. surinamensis populations in dried date stores due to the advantage of a short duration treatment capable of killing larvae and adult stages of this insect, with positive effects on dried fruit quality.     

Pressure-shift freezing and its influence on texture,colour, microstructure and rehydration behaviour of potato cubes

Temperature changes during pressure-shift freezing (400 MPa) of potato cubes and its effects on the drip loss (weight and conductivity), texture (shear and compression tests), colour (L, a, b values), drying behaviour, rehydration properties (water uptake, texture after rehydration) and visible cell damage after thawing (micrographs) were investigated and compared with conventional freezing (0.1 MPa, -30 °C), subsequent frozen storage (-18 °C) or pressure treatment (400 MPa) at +15 :C. Pressure-shift freezing resulted in increased crystallization rates compared to conventional freezing at -30 °C. Crystallization and cooling to ?8 =C took 2.5 min during and after pressure release versus 17 min at atmospheric pressure. Drip loss was reduced from 12.0 to 10.8g/100g. Water uptake during 10 min of rehydration (93.9g/100g compared to 77.4g/100g and incomplete rehydration) and texture values were improved. Browning after thawing or after fluidized bed drying was reduced (increased a value, lower L value), suggesting partial enzyme inactivation during pressure treatment. Differences in colour and texture to the untreated controls were smaller after pressure-shift freezing than after conventional freezing. Cooling to ?30 °C after pressure-shift freezing did not significantly affect the results, whereas subsequent frozen storage at ?18 °C resulted in quality deterioration, as observed after frozen storage of conventionally frozen samples. The improved preservation of cell structure was demonstrated using scanning electron microscopy.     

Chilled (5°C) and Frozen (−18°C) Storage Stability of the Purple-Hinge Rock Scallop, Hinnites multirugosus Gale

Purple-hinge rock scallops (Hinnites multirugosus), native to northeast Pacific Coast waters and under evaluation for commercial aquaculture, were harvested wild and analyzed for storage stability. Over 2 wk of chilled storage at 5°C or 5 months of frozen storage at ?18°C, scallops showed no appreciable lipid oxidation, proteolytic change, and ammonia development. Hypoxanthine fluctuated throughout fresh storage. Bacterial numbers were unchanged at ?18°C but sharply increased during the second week at 5°C. Odor of raw scallops deteriorated somewhat at week 2 of chilled storage and month 4 of frozen storage. However, when cooked, scallops showed no significant differences for most sensory characteristics or for acceptability. Cooking losses were variable. Textural shear parameters changed with weight and frozen storage.     

Binding of Meat Pieces: Influence of Some Processing Factors on Binding Strength and Cooking Losses

Evacuation of the chamber of the press used to form flaked beef into a restructured meat product (patty) did not affect the binding strength of the cooked patty but under some conditions decreased the cooking loss. In studies using patty mixes containing 0–1.0% added sodium chloride, meat binding strength increased with decrease in the temperature of the mix when formed into patties over the temperature range - 1° to -5°C. The largest effect generally occurred between - 1° and -2°C. However, the effect was only noted in patties that were frozen (-30°C) before being cooked for assessment. With decrease below - 1°C of the temperature of patties when pressed, cooking losses increased for the patties without added salt but decreased for those with added salt (0.5% or 1%). Change in the pressure applied to form the patty (in the range 1.4–13.7 MPa) can affect binding strength.     

Effect of cold pre‐treatment duration before freezing on frozen bread dough quality

The effect of cold pre‐treatment (CT) duration prior to freezing on the quality of a standard bread dough was investigated. Doughs held at 0 °C or 10 °C for 1 h or 3 h before air‐blast freezing were compared with standard dough frozen after 0.5 h at 0 °C (0 °C/0.5 h) and fresh (unfrozen) dough. Cumulative gas production measured in a risograph was used to quantify the dough quality after storage at ?18 ± 0.1 °C for 1, 7 or 17 days. Relative to fresh dough, gas production significantly reduced after freezing for all treatments. The doughs with CT at 0 °C for 1 or 3 h or 10 °C for 1 h had significantly higher gas production after freezing and less rapid decline in gas production during frozen storage than the doughs with the 0 °C/0.5 h CT. The 10 °C/3 h CT gave no gas production benefit after freezing and had the most rapid decline in gas production during frozen storage.     

Rheological and microstructural changes in gels made from high and low quality sardine mince with added egg white during frozen storage

 This paper examines the influence of freezing temperature (–40°C or –18°C) and frozen storage temperature (–18°C or –12°C) on gels made from two different sardine minces (M1, high functional quality; M2, low functional quality), with the addition of egg white as a gel enhancing ingredient. To characterize the washed mince, proximate analyses and protein functionality were determined. Freezing at either –40°C or –18°C caused no drastic changes in gel structure. Throughout the course of frozen storage of all samples, a decrease in the water holding capacity (WHC) was detected, along with an increase in the amount of protein soluble in 8 M urea. At 90 days the gels frozen at –40°C exhibited numerous ice micro-crystals; however, they did not affect the external appearance of the gel and had hardly any effect on gel strength, shear strength, hardness, cohesiveness or elasticity. On the other hand, at 90 days the gels frozen at –18°C and stored at either temperature exhibited large, macroscopically visible ice crystals. In these samples, gel strength and shear strength increased while hardness decreased. No definite changes attributable to mince quality were detected during frozen storage. Received: 23 June 1997     

Assessment of cell damage in high-pressure-shift frozen broccoli: comparison with market samples

Pressure-shift freezing (PSF) is one of the most promising methods for obtaining high-quality frozen products. The aim of this work was to analyse the differences between broccoli that was frozen using two different PSF processes. In one of the processes, all the freezing was done inside the high-pressure vessel tempered at −20.5 °C. In the other process, the sample was taken out of the vessel after expansion, and freezing was completed using liquid N₂. Colour, texture, electrical conductivity, microstructure and drip losses after centrifugation were analysed and a sensory test was performed. The results were compared with those for conventionally frozen broccoli purchased at the market. PSF broccoli presented less cell damage, lower drip losses and better texture than the market samples. The two different PSF processes assayed produced no significant differences in the final quality of the samples.     

EFFECT OF VACUUM-PACKING AND STORAGE IN NITROGEN AND CARBON DIOXIDE ATMOSPHERES ON THE QUALITY OF FRESH RABBIT MEAT

In order to evaluate the effects of vacuum-packing and storage in CO₂ (100%), and N₂ (100%) atmospheres on the quality of fresh rabbit meat, rabbit carcasses were stored in the dark at 0°C and 3°C for 50 days. Every 5 days, psychrotrophic bacteria and lactobacilli counts were obtained, and pH, water retention, texture, and color measured. Storage in CO₂ maintained good microbiological quality, but caused a decrease in water retention capacity, which led to discoloration and toughening of the meat. On the other hand, storage under N₂ atmosphere improved water retention and consequently organoleptic properties, but this advantage was nullified by lower microbiological quality. Due to the loss of water from the tissues, vacuum-packing resulted in changes of the organoleptic quality of the meat, similar to those observed by storage in a CO₂ atmosphere. At refrigerated temperatures, a variation of 3 °C had a larger effect on bacteriological counts and tenderness than the outer quality parameters. Thus, a mixture of gases (CO₂ and N₂) having both the bacteriostatic properties of one and the organoleptic advantages of the other might be a better choice to optimize the shelf-life of rabbit meat.     

Effects of Freezing Rate, Frozen Storage Temperature and Storage Time on Tenderness Values of Beef Patties

All-beef and soy-extended patties were frozen to ?18°C in either 24, 48, 72 or 96 hr and stored at ?23°, ?18° or ?7°C for 6, 9, 12, 18 or 24 months. Freezing produced considerable reductions in both sensory and instrumental measures of tenderness with the effects being greater for the slower freezing rates. Thus, just after freezing, and prior to storage, tenderness was found to be higher in patties subjected to faster freezing compared to slower rates of freezing. Storage at ?7°C reduced sensory scores for tenderness and increased stress in relation to strain during shearing. Extending patties with soy reduced the effects of freezing rate, storage temperature and storage time on tenderness.     

Role of Acetaldehyde Production in the Removal of Astringency from Persimmon Fruits under Various Modified Atmospheres

Astringency of persimmons was removed by enclosing the fruits in polyethylene bags under vacuum or by replacing air with N₂ or CO₂. Acetaldehyde produced by the fruit under these conditions accumulated at different rates. The rate of the deastringency process was directly proportional to the level of acetaldehyde accumulation. Thus, the fruit held at 20°C in CO₂ was the first to lose its astringency, but showed internal browning after 1 wk. Fruits under vacuum or N₂, where less volatiles accumulated, maintained their high quality and firmness for 2 wk at 20°C or 3 months at ? 1°C. However, fruit held under vacuum began to show internal browning when acetaldehyde accumulated above a certain level.