BLBS102-c29 BLBS102-Simpson March 21, 2012 13:27 Trim: 276mm X 219mm Printer Name: Yet to Come
574 Part 5: Fruits, Vegetables, and Cereals
occur when harvesting is done before or after the peak qual-
ity stage. The time of harvesting vegetables is very important to
the quality of the raw produce and the manner of harvesting and
handling is critical economically. A study on sweet corn showed
that 26% of total sugars were lost in just 24 hours by storing
the harvested corn at room temperature. Even when stored at
low temperature, the sugar loss could reach 22% in 4 days.
Peas and lima beans can lose up to 50% of their sugars in just
1 day. Losses are slower under refrigeration but the reduction in
sweetness and freshness of the produce is an irreversible process.
It is assumed that a part of the sugars is used for respiration and
starch formation in commodities such as corn, whereas the sug-
ars are converted to cellulose, hemicellulose, and lignin in the
case of asparagus. Each type of vegetable has its optimum cold
storage temperature, which may vary between 0◦C and 10◦C.
Water loss is another problem, which reduces the quality of the
produce. Continued water loss due to transpiration and drying
of cut surfaces results in wilting of leafy vegetables. Hermetic
packaging (anaerobic packaging) does not prevent water loss,
but instead creates conditions that prevent deterioration due to
an increase in the level of carbon dioxide and a decrease in
the oxygen level. In order to keep consistent produce quality,
many processors monitor the growing practices so that harvest
and processing are programmed according to the capacity of the
processing plant.
Preprocessing Operations
Vegetables can be processed in different ways including canning,
freezing, freeze-drying, pickling, and dehydration. The opera-
tions involved in the processing depend on the type of vegetable
and the method to be used. After harvest, the processing steps
involved in canning are washing, sorting and grading, peeling,
cutting and sizing, blanching, filling and brining (brining is very
important for filling weight and heat transfer), exhausting (help
maintaining high vacuum; exhaust temperature in the center
of the can should be about 71◦C), sealing, processing (heating
cycle), cooling, labeling, and storage.
Harvesting
Decision to harvest should be based on experience and on ob-
jective testing method. It is recommended that the vegetables
be harvested at the optimum maturity and processed promptly
(Luh and Kean 1988, Woodroof 1988).
Sorting and Grading
This operation is done using roller grader, air blower, rod shaker,
or any mechanical device, followed by sorting on conveyor belts.
Electronic sorting is commonly used recently to remove vegeta-
bles affected by diseases and insects.
Washing
Vegetables are washed to remove not only field soil and surface
microorganisms, but also fungicides, insecticides, and other pes-
ticides. There are laws specifying the types and maximum levels
of contaminants that are permitted. In order to remove dirt,
insects, and small debris, vegetables are rinsed with water or
with detergent in some cases. Mechanically harvested tomatoes,
potatoes, red beets, and leafy vegetables are washed with fruit
grade detergents. The choice of washing equipment depends on
the size, shape, and fragility of the particular type of vegetable.
Flotation cleaners can be used for peas and other small veg-
etables, whereas fragile vegetables such as asparagus may be
washed by gentle spraying belt.
Peeling
Several methods are used to remove skins from vegetables in-
cluding lye, steam, and direct flame. Lye peeling of mechanically
harvested tomatoes and potatoes is a common practice. Vegeta-
bles with loosened skins are jet washed with water to remove
skins and residual sodium hydroxide. Steam is used to peel
vegetables with thick skin such as red beets and sweet potatoes,
whereas for onions and pepper direct flame or hot gases in rotary
tube flame peelers are used.
Cutting and Trimming
Cutting, stemming, pitting, or coring depends on the type of
vegetable. Asparagus spears are cut to precise lengths. The most
fibrous part is used for soup and other heated products where heat
tenderizes them. Green beans are cut by machine into several dif-
ferent shapes along the length of the vegetable. Brussels sprouts
are trimmed by hand by pressing the base against a rapidly ro-
tating knife. Olives are pitted by aligning them in small cups,
and mechanically pushing the plungers through the olives.
Blanching
The purpose of blanching is to inactivate the enzymes present
in the vegetables. Since many vegetables do not receive a high-
temperature heat treatment, heating to a minimal temperature
before processing or storing inactivates the enzymes responsible
for changes in texture, color, flavor and nutritional quality of the
produce. Several enzymes are responsible for the loss of quality
in vegetables. The deterioration of the cell membrane caused
by the action of phospholipase D and lipoxygenases account
for the flavor development in vegetables (Pinhero et al. 2003,
Oke et al. 2003). Proteases and chlorophyllases contribute to the
destruction of chloroplast and chlorophyll. Changes in texture
occur due to the activity of pectic enzymes and cellulases. Color
deterioration occurs due to the activity of polyphenol oxidase,
chlorophyllase, and peroxidase (Robinson 1991). Changes in
nutritional quality can occur by the activity of enzymes that
destroy the vitamins. Ascorbic acid oxidase can cause a decline
in the level of vitamin C.
The blanching process also reduces the microbial load of veg-
etables and renders packaging into containers easier. To evaluate
the effectiveness of blanching, indicator enzymes such as cata-
lase and peroxidase are traditionally used. The reason for using
indicators is that blanching is not a process of indiscriminate