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35 Edible Coatings and Films from Agricultural and Marine Food Wastes
like shells, skins, and muscle wastes. Among all the sea living varieties, crustaceans
contribute a lot of waste by-products, nearly 75% of its total weight [7]. Huge
mountain of agri- and marine-based food-related wastage has been generated by
industries in the process of production of valuable products. It was discarded as a
waste, even though most part of it has the potential to be utilized in some other
manner [7]. Agricultural and marine waste can be used for recovering biopolymers
which can be used for making biodegradable packaging.
Biopolymers like hydrocolloids (proteins, carbohydrates, and lipids) are obtained
from agri-biowastes such as husk, fruit peels, seeds and stalks, grain wastes, and
so on [2]. Some of these wastes are rich in bioactive compounds which are bene-
ficial for many purposes. So, the scientific research on the utilization of bio-based
material is on the top of interest. The antimicrobial and antioxidant properties will
influence the quality and shelf life of the food items. The marine-based by-products
include chitosan and gelatin [8]. The best compound that can be extracted from the
sea waste is chitosan which can be obtained by deacetylation of chitin. It can be
utilized as biopolymer and has antimicrobial and antioxidant properties, and it can
be used as the bioactive film for food preservation [9]. However, the main motive
of edible packaging is to isolate food from the surrounding environment, limiting
exposure to spoilage variables (microbial, mechanical damage, and physical), thus
expanding the food shelf life [3]. These edible films also provide antimicrobial and
antioxidation protection [2]. The global market size of commercial edible film and
coating valued at US $697 million in 2016 and expected to reach US $1097 million
by the end of 2023 [10]. Plasticizers are used to reduce the film’s brittleness and
improve the flexibility and pliability [1]. The functional properties of edible pack-
aging material vary depending on the nature of the raw material used as biopoly-
mer. Protein- and carbohydrate-based film shows good mechanical properties but
lacks the moisture barrier due to their hydrophilic nature [6]. The inferior proper-
ties of mechanical barrier can be enhanced by adding reinforcing agents such as
fibers and cross-linking agents [11]. The degree of biodegradable kinetics depends
on the nature of the biopolymer and filler used to improve the properties. Applica-
tion and utilization of food by-products for the production of polymers and bioactive
compounds will provide a new way of developing packaging material which will be
feasible alternative to the plastic polymers and also offers an advantage of reduction
of food waste composts and safeguard the environment [5].
35.2
Sources of Food Waste
The materials used in the film/coating preparation of food material can be obtained
from renewable resources extracted from the agricultural wastes which mainly
include the fruit, vegetable, grain, and marine wastes, and their by-products. It
should be Generally Recognized As Safe (GRAS) to consider as an eatable [12]
and should be utilized as per the directions and guidelines of the Food and Drug
Administration (FDA), United States of America and other relevant regulatory
bodies’s guidelines. The main components in the formation of edible coatings and
films are biopolymers and additive.