Modified atmosphere

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Modified atmosphere is a common technical definition that describes the practice of modifying the composition of the internal atmosphere of a package (commonly food packages, but this technique is also used for drugs) in order to improve the shelf life.

The modification process often tries to lower the amount of oxygen (O₂), moving it from 20% to 0%, In order to slow down the growth of aerobic lifeforms and the speed of oxidation reactions. The removed oxygen can be replaced with nitrogen (N₂), commonly acknowledged as an inert gas, or carbon dioxide (CO₂), which can lower the pH or inhibit the growth of bacteria.

Contents 1 Scientific terms 2 History 3 Products 4 Modified Atmosphere Packaging (MAP) 5 Equilibrium modified atmosphere packaging (EMAP) 6 Technology 7 Gases 8 Packaging Films 9 References and sources

[edit] Scientific terms

• MAP = Modified atmosphere packaging
• EMAP = Equilibrium modified atmosphere packaging

[edit] History

Controlled Atmosphere Storage (CAS) was used already In the 1930s when ships transporting fruits had high levels of CO₂ in their holding rooms, thus increasing the shelf-life of the product. In the 1970s MA packages reached the stores when bacon and fish were sold in retail packs in the UK. Since then the development has been stable and the interest into MAP has grown due consumer demand. This has led to advances for example in the design and manufacturing of polymeric films. New techniques are designed, like the use of anti-fogging layer to improve product visibility. From MAP a new packaging technique − EMAP has been developed. The growing popularity of EMAP vegetables and fruits can be explained with the behaviour of the modern consumer who demands fresh vegetables and fruits which have a long shelf-life without the use of preservatives.

[edit] Products

Under MA products like red meat, seafood, minimally processed fruits and vegetables, pasta, cheese, bakery goods, poultry, cooked and cured meats, ready meals and dried foods are packaged. The three major commodity types are fruits and vegetables, meat and meat products and seafood. It has been estimated that 25-40% of all fresh produce harvested will not reach the consumers table, due to spoilage and mishandling that occurs during distribution.

[edit] Modified Atmosphere Packaging (MAP)

Modified Atmosphere Packaging (MAP) is a technique used for prolonging the shelf-life period of fresh or minimally processed foods. In this preservation technique the air surrounding the food in the package is changed to another composition. This way the initial fresh state of the product may be prolonged. It is the shelf-life of perishable products like meat, fish, fruits and vegetables that will be prolonged with MAP since it slows the natural deterioration of the product. MAP is used with various types of products, where the mixture of gases In the package depends on the type of product, packaging materials and storage temperature. Meat and fish need very low gas permeability films so for non-respiring products (meat, fish, cheese etc.) high barrier films are used. The initial flushed gas-mixture will be maintained inside the MA package. But fruits and vegetables are respiring products where the interaction of the packaging material with the product is important. If the permeability (for O₂ and CO₂) of the packaging film is adapted to the products respiration, an equilibrium modified atmosphere will establish In the package and the shelf-life of the product will increase.

[edit] Equilibrium modified atmosphere packaging (EMAP)

Among fresh-cut produce Equilibrium Modified Atmosphere Packaging (EMAP) is the most commonly used packaging technology. When packaging vegetables and fruits the gas atmosphere of package is not air (O₂ 21%; CO₂ 0.038%; N₂ 78%) but consists usually of a lowered level of O₂ and a heightened level of CO₂. This kind of package slows down the normal respiration of the product and so to prolong the shelf-life of the product. Of course there are other factors like the size of the product, severity of preparation, maturity of the product and type of tissue that have an effect to the shelf-life of an EMA packaged produce.

[edit] Technology

There are two techniques used in the industry to pack vegetables namely gas-flushing and compensated vacuum. For its cheapness the gas-flushing is more widely used. In gas-flushing the package is flushed with a desired gas mixture, as in compensated vacuum the air is removed totally and the desired gas mixture then inserted. The label "packaged in a protective atmosphere" can refer to either of these; an example of a gas mixture used for non-vegetable packaged food (such as crisps) is 99.9% nitrogen gas, which is inert at the temperatures and pressures the packaging is subjected to.

[edit] Gases

The atmosphere in an MA package consists of N₂, O₂, CO₂. It is the altered ratio of these gases that makes a difference in the prolongation of shelf life. By reducing the O₂-level and increasing the CO₂-level, ripening of fruits and vegetables can be delayed, respiration and ethylene production rates can be reduced, softening can be retarded and various compositional changes associated with ripening can Be slowed down.

Oxygen is essential when packaging fresh fruits and vegetables as they continue to respire after harvesting. The absence of O₂ can lead to Anaerobic respiration In the package which accelerates senescence and spoilage. Too high levels of O₂ do not retard respiration significantly and it is around 12% of O₂ where the respiration rate starts to decrease. So oxygen is used in low levels (3-5%) for positive effect. When packaging meat and fish, the high CO₂-levels are effective bacterial and fungal growth inhibitors. In the case of vegetables and fruits, CO₂ is not a major factor since CO₂-levels above 10% are needed to suppress fungal growth significantly. Unfortunately higher levels than 10% of CO₂ are working phytotoxic for fresh produce. Nitrogen is used as a filler gas since it neither encourages or discourages bacterial growth.

[edit] Packaging Films

When selecting packaging films for EMAP of fruits and vegetables the main characteristics to consider are gas permeability, water vapour transmission rate, mechanical properties, transparency, type of package and sealing reliability. Traditionally used packaging films like LDPE (low density polyethylene), PVC (polyvinyl chloride), EVA (ethylene-vinyl acetate) and OPP (oriented polypropylene) are not permeable enough for highly respiring products like fresh-cut produces, mushrooms and broccoli. As fruits and vegetables are respiring products, there is a need to transmit gases from and to the package. Films designed with these properties are called permeable films. Other films, called barrier films, are designed to prevent the exchange of gases and are mainly used with non-respiring products like meat and fish.

[edit] References and sources

• Church, I.J. & Parsons, A.L.: (1995) Modified Atmosphere Packaging Technology: A Review, Journal Science Food Agriculture, 67, 143-152
• Day, B.P.F.: (1996) A perspective of modified atmosphere packaging of fresh produce In Western Europe, Food Science and Technology Today, 4,215-221
• Parry, R. T.: (1993) Principles and applications of MAP of foods, Blackie Academic & Professional, England, 1-132
• Phillips, C.A.: (1996) Review: Modified Atmosphere Packaging and its effects on the microbial quality and safety of produce, International Journal of Food Science and Tech, 31, 463-479
• Zagory, D. & Kader, A.A.: (1988) Modified atmosphere packaging of fresh produce, Food Technology., 42(9), 70-77