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Introduction
Pre-cooling is the key component in the preservation of
quality for perishable fresh produce in post-harvest systems. Pre-cooling is
also very closely linked to the other operations such as handling and storage.
The practice of pre-cooling fruits and vegetables after harvest has existed for
many years. In that time, several methods and techniques of pre-cooling were
developed, primarily to meet requirements of the large producers and markets in
the United States and Europe.
Factors contributing to spoilage
Different types of fruits and vegetables spoil naturally at different rates.
Table I shows the length of time fresh produce (not rapidly pre-cooled) will
last in a refrigerator at 4 degrees centigrade.
Rapid pre-cooling and storage at a stable temperature will extend this shelf
life for most produce subject to rapid spoilage. For higher storage
temperatures, it is a generally accepted rule of thumb that "deterioration
of fresh produce doubles for every 10 degrees centigrade above the optimum storage
temperature." Types of produce with high spoilage rates are often of
higher value than those with low spoilage rates. This aspect makes control of
spoilage an especially important factor for them.
Produce such as onions, potatoes and winter squash spoil rapidly if not cured
as soon as possible after harvest. Curing at an elevated temperature heals cuts
and bruises and forms a tight outer skin that resists further deterioration.
Atmospheres in storages also affect the spoilage rate. Excess carbon dioxide
and insufficient oxygen result in rapid deterioration and off flavours.
Ethylene produced by some fruits accelerates the ripening of many fruits. It is
therefore important to consider the gases that will be associated with the cold
storage.
Table 1. Shelf-life of Fruits and Vegetables Refrigerated at 4°C for Best Flavour and Nutrition
# |
Product |
Shelf-life |
# |
Product |
Shelf-life |
1 |
Asparagus |
2 days |
19 |
Peas |
less than 1 day |
2 |
Beans (green,wax) |
5 days |
20 |
Peppers |
7 days |
3 |
Beets |
21 - 28 days |
21 |
Potatoes (mature) |
9 months (7 - 10°C) |
4 |
Broccoli |
3 days |
22 |
Potatoes (new) |
7 days |
5 |
Brussel sprouts |
5 days |
23 |
Pumpkins |
-no data - |
6 |
Cabbage |
14 days |
24 |
Radishes |
- no data - |
7 |
Carrots (mature) |
several weeks |
25 |
Raspberries |
2 days |
8 |
Carrots (young) |
14 days |
26 |
Rhubarb |
3 days |
9 |
Cauliflower |
10 days |
27 |
Rutabagas |
several weeks |
10 |
Celery |
14 days |
28 |
Saskatoons |
- no data - |
11 |
Chinese Vegetables |
- no data - |
29 |
Spinach |
4 days |
12 |
Cucumbers |
10 days |
30 |
Squash (summer) |
7 days |
13 |
Kohlrabi |
- no data - |
31 |
Squash (winter) |
several months |
14 |
Leafy Greens |
- no data - |
32 |
Strawberries |
2 days |
15 |
Leeks |
- no data - |
33 |
Sweet Corn |
less than 1 day |
16 |
Lettuce |
7 days |
34 |
Swiss Chard |
- no data - |
17 |
Onions |
28 days |
35 |
Tomatoes |
7 days |
18 |
Parsnips |
28 days |
36 |
Zucchini |
- no data - |
(Adapted from Publication 1695, Agriculture Canada).
Significant moisture loss affects the appearance and firmness of produce. Table
2 shows the maximum amount of moisture the produce may lose before losing its
appearance and firmness. Room cooling, forced air cooling and vacuum cooling
all remove some moisture from produce during pre-cooling. The amount of
moisture lost will depend on design and operation of the system. More moisture
will be lost if the produce is held for extended periods before cooling.
Water used in direct contact with the produce can affect produce quality as
well. Rapid deterioration and off flavours can be triggered by water containing
iron, high levels of minerals, bacteria and other organic material.
Contaminated water used on fresh produce can also mean that people who consume
it become ill. The cleanliness, quality and sanitation of water used in produce
facilities is therefore very important.
Table 2. Percentage of Weight (Moisture) Loss from Fruits and Vegetable that
Affects Produce Quality after Harvest
# |
Product |
Weight Loss (%) |
# |
Product |
Weight Loss |
1 |
Asparagus |
8.0 |
19 |
Peas |
5 |
2 |
Beans (broad, runner, snap) |
6.0, 5.0, 41.0 |
20 |
Peppers |
7.0 |
3 |
Beets |
7.0 |
21 |
Potatoes (mature) |
7.0 |
4 |
Broccoli |
4.0 |
22 |
Potatoes (new) |
7.0 |
5 |
Brussel sprouts |
8.0 |
23 |
Pumpkins |
- no data - |
6 |
Cabbage |
8.0 |
24 |
Radishes |
- no data - |
7 |
Carrots (mature) |
8.0 |
25 |
Raspberries |
6.0 |
8 |
Carrots (young) |
4.0 |
26 |
Rhubarb |
5 |
9 |
Cauliflower |
7.0 |
27 |
Rutabagas |
- no data - |
10 |
Celery |
10.0 |
28 |
Saskatoons |
- no data - |
11 |
Chinese Vegetables |
- no data - |
29 |
Spinach |
3.0 |
12 |
Cucumbers |
5 |
30 |
Squash (summer) |
23.9 |
13 |
Kohlrabi |
- no data - |
31 |
Squash (winter) |
- no data - |
14 |
Leafy Greens |
- no data - |
32 |
Strawberries |
- no data - |
15 |
Leeks |
7.0 |
33 |
Sweet Corn |
7.0 |
16 |
Lettuce |
3.7 |
34 |
Swiss Chard |
- no data - |
17 |
Onions |
10.0 |
35 |
Tomatoes |
7.0 |
18 |
Parsnips |
7.0 |
36 |
Zucchini |
- no data - |
(Adapted from Postharvest Physiology of
Perishable Plant Products by Kays, S.J., 1991).
In preparing fresh produce for long term storage, remove free surface moisture
on the product. This moisture can support the growth of spoilage bacteria. This
situation is particularly true in bruised and cut areas of produce such as root
crops. If mechanical damage is minimized and the tops are removed with a clean
cut, the removal of free moisture is easier.
The spoilage rate of produce and its contributing factors are the most
important considerations when selecting the type of pre-cooling and handling
system to be used.