Cole Crops, Summaries of Marketing

Today cole crops, means the stem brassicas. It is assumed that the cabbage and kales originated in western Europe and that cauliflower and broccoli came from ...

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Cole Crops
VEGETABLE CROPS PRODUCTION GUIDE
FOR THE ATLANTIC PROVINCES
Prepared by the ADVISORY COMMITTEE ON VEGETABLE CROPS
Published by authority of the ATLANTIC PROVINCES AGRICULTURE
SERVICES CO-ORDINATING COMMITTEE
Introduction
Cole crops are members of the cruciferae (mustard family).
Cole Crops include:
Cabbage - Brassica olerace var Capitata
Cauliflower - Brassica oleracea var Botrytis
Broccoli - Brassica oleracea var Italica
Brussels Sprouts - Brassica oleracea var Gemmifera
Kale - Brassica oleracea var Acephala
Kohlrabi - Brassica oleracea var Gongylodes
Cole crops originated from the word caulis (Latin) meaning stem or stalk of a plant. Today cole
crops, means the stem brassicas.
It is assumed that the cabbage and kales originated in western Europe and that cauliflower and
broccoli came from the Mediterranean region. Cabbages and kales were the first to be
domesticated. Prior to cultivation and use as food, they were used mainly for medicinal purposes.
The first description of cauliflower appeared in 1544. Brussels sprouts, named after the city in
Belgium, did not occur until the beginning of the 19th century. The sprouting broccoli of today
originated in the Mediterranean area. Cole crops are biennials but are generally grown as annuals.
At the seedling stage, these different crops are hard to distinguish. Except for certain strains of
cabbage, broccoli and tropical type cauliflower a cold period is necessary for flowering.
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Cole Crops

VEGETABLE CROPS PRODUCTION GUIDE

FOR THE ATLANTIC PROVINCES

Prepared by the ADVISORY COMMITTEE ON VEGETABLE CROPS

Published by authority of the ATLANTIC PROVINCES AGRICULTURE

SERVICES CO-ORDINATING COMMITTEE

Introduction

Cole crops are members of the cruciferae (mustard family).

Cole Crops include:

Cabbage - Brassica olerace var Capitata

Cauliflower - Brassica oleracea var Botrytis

Broccoli - Brassica oleracea var Italica

Brussels Sprouts - Brassica oleracea var Gemmifera

Kale - Brassica oleracea var Acephala

Kohlrabi - Brassica oleracea var Gongylodes

Cole crops originated from the word caulis (Latin) meaning stem or stalk of a plant. Today cole crops, means the stem brassicas.

It is assumed that the cabbage and kales originated in western Europe and that cauliflower and broccoli came from the Mediterranean region. Cabbages and kales were the first to be domesticated. Prior to cultivation and use as food, they were used mainly for medicinal purposes. The first description of cauliflower appeared in 1544. Brussels sprouts, named after the city in Belgium, did not occur until the beginning of the 19th century. The sprouting broccoli of today originated in the Mediterranean area. Cole crops are biennials but are generally grown as annuals. At the seedling stage, these different crops are hard to distinguish. Except for certain strains of cabbage, broccoli and tropical type cauliflower a cold period is necessary for flowering.

The brassica family are well adapted to cool season production. These plants are quite cold resistant. Young hardened cabbage plants can withstand -10 for a short time, older plants are less hardy. The growth rate of cabbage stops at 0C and is quickest at 15C to 20C. Above 25C growth stops. Cole crops require a regular water supply of 25 mm per week during the growing season. Shortage of water is detrimental for head development. The minimum temperature for seed germination is 5C with an optimum germination temperature of 27C, an optimum range of 7 to 27C and a maximum germination temperature of 37C. Cauliflower and broccoli will not stand temperatures as high or low as cabbage. High temperatures delay maturity and increase vegetative growth (number of leaves) and cool temperatures hasten maturity and may induce "bolting''. Young hardened plants can withstand -5 to -10C. An optimum growth rate occurs at 15C to 22C and growth stops above 30C. Fluctuating temperatures may induce some cauliflower cultivars which are heading to revert back to the vegetative phase which results in poor quality curds (bract formation). Kale is the hardiest of all cole crops. It can withstand temperatures of - to -15 C. Kohlrabi is sensitive to cold temperatures. A week at 10C will cause the plant to bolt.

Cole crops require soils that can provide continuous water throughout the season. Well drained, sandy loam soils are suited to early varieties, loamy and clay loam soils are suited to late ones. Late cultivars are somewhat tolerant of poor drainage. Well drained soils can be rotated closely since clubroot is easier to control.

Early cabbage is usually transplanted in late April or early May and maturity is usually in early July. With the use of plastics and earlier transplanting, cabbage can be matured in late June. Cabbage can then be in continuous supply until March of the following year. Some cabbage, especially for the cole slaw market, may be stored until June in the best refrigerated storage. Yields are low for early cabbage and highest for kraut and cole slaw cabbage. Marketable yields range from 20,000 to 40,000 kg per hectare.

With tunnel house production early cauliflower cultivars may produce in late June. Early field production does not start until early July. During the summer, cauliflower is generally available and with refrigerated storage is marketed until early December. Yields vary with the field and growing conditions from 800 to 2000 dozen per hectare.

Broccoli production and earliness depends on the degree of bolting but with the use of tunnel houses the first crop could be harvested in early June. Field production would begin in early July and continue until the end of October. With a short storage period the crop marketings are usually completed by late November. Due to head rot and bolting, yields are variable from 750 to 1500 dozen per hectare.

Brussels Sprouts are grown for fresh and processing markets and are harvested in late September, October and November. On the fresh market they may be sold early in September and the marketing period extended by refrigerated storage into December. Yields for both markets are 7000 to 9000 kg per hectare.

Kale and kohlrabi are grown only in small quantities for specialty markets.

Plants for late crops may be planted in module trays, field seed beds, greenhouse seedbed, or direct seeded. (Space seedbed rows 25 to 30 cm apart and seed 20 seeds per 25 cm of row with a scatter shoe seeder.) When direct seeding, 550 to 850 grams per hectare are required since seed is generally planted at twice the final spacing. Direct seed two to three weeks earlier than transplanting for the same harvest date. Seed 0.6 to 1.2 cm deep. Most cole crops should not be direct seeded after mid to late June.

Planting Space Distance Between Rows (cm) Distance Between Plants (cm)

Cabbage, early 60-75 30-

Cabbage, late 75-90 30-

Cauliflower 60-90 35-

Broccoli 60-90 30-

Brussels Sprouts 75-90 30-

The newer compact hybrids may be grown at closer spacings than the older traditional cultivars. With Brussels sprouts grown for a once over harvesting and especially where smaller sprouts are required for freezing, uniformity of the sprouts up the stem can be improved by growing the plants at a closer spacing, eg. 60 x 60 cm. For broccoli crops to be harvested during the hot humid weather of August, plant spacings should be increased to the wider end of the range recommended to help reduce head rot. For bed culture of broccoli, cauliflower and cabbage rows may be spaced closer together and plants spaced further apart. This spacing depends on the crop, the cultivar, the fertility program, the size of the crop desired for market and the desired maturity date.

Crop Management

Cabbage splitting - It is mainly a problem with early cabbage. A problem can develop when moisture stress is followed by heavy rain. The rapid growth rate associated with rain, high temperatures and high fertility cause the splitting. Proper irrigation may help prevent splitting and there are significant differences between cultivars in their susceptibility to this problem. Splitting may also be partially avoided by deep cultivation to break some of the plant roots.

Cauliflower and Broccoli buttoning - Buttoning is the premature formation of a head and because the head forms early in the plant's life, the leaves are not large enough to nourish the curd to a marketable size. Buttoning may occur shortly after planting in the field, when normal plants of the same age should be growing vegetatively. Losses are usually most severe in the early planted crop during cold, wet seasons, when vegetative growth is checked by: (1) too much hardening of greenhouse plants (2) too little hardening of greenhouse plants (3) low soil nitrogen (4) low soil moisture (5) continued cold weather (4 to 10C for 10 days or more) (6) Other - disease, insects, micronutrient deficiency, etc. Some cultivars, particularly early ones, are more susceptible to buttoning than others.

Lack of heads in broccoli and cauliflower - During periods of extremely warm weather (days over 30C and nights 25C) broccoli and cauliflower can remain vegetative (does not head) since they do not receive enough cold for head formation. This can cause a problem in scheduling the marketing of even volumes of crop.

Tipburn of cauliflower and cabbage - This problem can cause severe economic losses. Tipburn is a breakdown of plant tissue inside the head of cabbage and on the inner wrapper leaves of cauliflower. It is a physiological disorder which is associated with an inadequate supply of calcium in the affected leaves causing a collapse of the tissue and death of the cells.

Calcium deficiency may occur where the soil calcium is low or where there is an imbalance of nutrients in the soil along with certain weather conditions. (High humidity, low soil moisture, high potash and high nitrogen aggravate calcium availability).

Secondary rot caused by bacteria can follow tipburn and heads of cauliflower can be severely affected. Some cultivars are relatively free of tipburn problems.

Hollow stem in broccoli and cauliflower - This condition starts with gaps that develop in the tissues. These gradually enlarge to create a hollow stem. Ordinarily, there is no discoloration of the surface of these openings at harvest but both discoloration and tissue breakdown may develop soon after harvest. Some cultivars of hybrid cauliflower may have openings from the stem into the head. Both plant spacing and the rate of nitrogen affect the incidence of hollow stem. As the plant spacing increases hollow stem increases. As the rate of nitrogen increases then the rate of hollow stem increases. The incidence of hollow stem can be greatly reduced by increasing the plant population.

Cauliflower blanching - The market demands cauliflower which is pure white or pale cream in color. Heads exposed to sunlight develop a yellow and/or red pigment. The usual method to exclude light is to tie the outer leaves when the curd is 8 cm in diameter. Leaves may also be broken over the curd to prevent yellowing. In hot weather blanching may take 3 to 4 days, but in cool weather, 8 to 12 days or more may be required. Some cultivars give better natural curd protection by having inner wrapper leaves, (without tieing) especially those cultivars which have been bred in Europe. Cauliflower fields scheduled to mature in cool weather (September and October) that are well supplied with water and planted with "self-blanching'' cultivars will not need tieing.

Irrigation - The availability of water can be critical to successful production. Steady even growth of these crops are necessary for high quality and yields. Irrigation may also be used to cool plants during periods of high temperature. Fertilizer could also be applied through an irrigation system. Irrigation at the wrong time can cause problems such as head rot of broccoli and cauliflower.

Nutrition

ALL ADDITIONS OF LIME AND FERTILIZER OR MANURES SHOULD BE BASED ON

RECOMMENDATIONS FROM A SOIL TEST.

Molybdenum - Deficiency causes whiptail in cauliflower, broccoli and Brussels sprouts. Molybdenum may be supplied as a seed treatment, as a foliar spray to transplants before field setting, in the transplant water or as a foliar spray. Apply 30 to 45 g of Sodium Molybdate per 100 L of transplant water or 280 g of Sodium molybdate as a spray in 1100 L of water per hectare. (Sodium molybdate is approximately 40% molybdenum). Excessive molybdenum is toxic to plants and animals - use with care. It will carry over in the soil.

Liming to a pH of over 6 is usually sufficient for cabbage but cauliflower and broccoli may show deficiency even when the soil pH is 7.

Manganese - Deficiencies may occur on sandy, over limed soils. Foliar sprays of manganese sulfate may be necessary to correct a deficiency.

Application Method - (1) Usually N, P & K are broadcast before planting and incorporated into the soil (2) N and P may be banded and the K harrowed into the soil before planting. (10 cm below and 10 cm to the side of the row (3) Where high rates of fertilizer are used half may be banded and half may be broadcast.

Sidedressings of nitrogen up to 112 kg of actual N may be applied through the growing season. Foliar sprays of urea may also be used (10 kg of urea per hectare).

Pests and Pest Control

Weeds

Perennial weeds should be controlled prior to planting. Herbicides recommended for use on cole crops will not provide complete control of weeds, therefore it is important to grow cole crops on soil where the weed seed population is low. The weed seed reservoir in the soil can be reduced by crop rotation, summer fallow and stale seedbed technique. Care must be taken to avoid fields where residual herbicides from previous years persist in the soil as crop injury may occur.

Diseases

Clubroot (fungus)

Characteristics: Clubroot is a soil borne disease which affects turnips and rutabagas, as well as cabbage, broccoli, Brussels sprouts, cauliflower and radish. The signs of disease vary from swellings on roots to severe malformation of the root, accompanied in many cases by wilting, and frequently death of the plant. Throughout the Atlantic Provinces, it is a major problem where poor management practices are followed.

The fungus ( Plasmodiophora brassicae Wor .) causing this disease is usually present in areas where rutabagas and cole crops have been grown for many years. Once land becomes infested, it will remain so for at least 7 years. Any producer intending to grow cruciferous plants must appreciate this fact. Infected plants are stunted and usually take on a bluish tinge at first, later

turning yellow. (Root maggot infested plants may also show the same signs). Wilting is most common on warm sunny days; plants may show little wilting early in the morning or late at night. Small to large spindle-like or slug-shaped swellings develop on the roots of cabbage and other cole crops, large out-growths and misshapen roots occur on turnip and rutabagas (root rot can occur with a severe infection).

The clubroot fungus enters the plant through the many fine hairs on the roots. The extent of the disease is affected by many factors. Moist, cool soils usually produce more diseased plants than dry, warm soil. The disease also thrives best in acid soils; that is, when the pH is below 7.2.

When clubbed plants rot and break down in the fall, the fungus spores are released into the soil, where they may live for many years, ready to infect any rutabaga or cole crop subsequently planted. Since the fungus spores are in the soil, movement of the soil by any means (boots, tools, wheels or wind and water, etc.) also spreads the disease.

Control : 1) One of the most important controls is to ISOLATE (if possible) or avoid use of infested fields for crucifer crops for about 7 years. The disease affects only the crucifer crops so any other crop may be planted as long as cruciferous weeds are not present.

  1. Cattle fed infected plant material can pass the fungus spores in manure. Therefore, DO NOT APPLY CLUBROOT INFESTED MANURE on land to be used to grow crucifers. Put manure back on the field that contained the infected roots to prevent spreading disease to other fields or spread on permanent pasture land that will not be used for any susceptible crop and where run-off will not carry the disease to clean fields.

  2. Practice a ROTATION. Do not grow a susceptible crop within a 5 to 7 year period to avoid infestation.

  3. ALL EQUIPMENT used on infested land must be washed down and preferably steam cleaned or disinfected to prevent carrying the disease to clean fields. Live steam delivered at 690 kPa pressure for 5 minutes is the best method to disinfect equipment. For disinfectants see the Atlantic Provinces Vegetable Crops Guide to Pest Management.

  4. Every effort to CONTROL SUSCEPTIBLE WEEDS should be made. Weeds of the mustard family will maintain or increase the level of infestation of clubroot in a field. Examples of susceptible weeds that occur in the Atlantic area are as follows: wild radish, wild mustard, field penny cress (stinkweed), pepper grass, shepherd's purse, false flax, hare's ear mustard, worm seed mustard and yellow rocket.

  5. As clubroot seems to thrive best in moist, acid soils it is advisable to APPLY LIME to raise the pH of the soil to at least pH 7.2. Wet, poorly drained land should be avoided or drainage improved. In Atlantic Canada this means a calcium level of 5000 to 6000 kg per hectare and a magnesium level of over 800 kg per hectare using the current testing method.

  6. Use CLUBROOT-FREE TRANSPLANTS - The only way to ensure clean transplants is to use

plants 10-15 cm tall. The stem above and below the soil line darkens, and the outer cortex tissue decays and sloughs off in sharply defined area encircling the stem. The stem is thin and wiry at the lesion but remains erect. The plant may survive but will perform poorly. Some cauliflower cultivars are extremely susceptible to wirestem while others are more hardy.

Head rot of cabbage occurs during wet weather when the fungus attacks the bases of wrapper leaves causing them to drop off. The fungus may spread over the entire head and several layers deep. The head remains upright, dark and becomes studded with small, hard, brown fungal structures. The decay is initially firm, but soft-rotting bacteria may invade turning infected tissues soft and odorous.

Control: For damping-off and wirestem in seedbeds, only sterilized soil or soil that has not previously had crucifers for several years should be used. Seeds should be hot-water treated and also treated with a suitable fungicide. Plant density should permit adequate light and air penetration. Factors such as deep planting, reduced seed vigor and excessively cold, hot, moist or saline soils that delay seed emergence should be avoided. Deficiencies of calcium, potassium and nitrogen or excessive nitrogen may promote disease. A field rotation with noncruciferous crops should be practised for at least three years. Avoid mounding of soil onto lower leaves when cultivating.

Blackleg (fungus) and Black Rot (bacterium)

Characteristics: Early signs of blackleg appear as small spots on leaves of young plants. On stems the spots are more linear and often surrounded by purplish borders. Stem lesions at the soil line usually extend to the root system causing dark cankers. The fibrous root system may be destroyed although new roots sent out above the lesion may keep the plant alive. Many plants wilt abruptly and die.

Black rot lesions first appear at margins of leaves. The tissue turns yellow and the lesion progresses toward the center of the leaf, usually in a V-shaped area with the base of the V toward the midrib. The veins become dark and discoloration frequently extends to the main stem and proceeds upward and downward.

Control: These organisms are seed borne and are capable of surviving in the soil for long periods without another cole crop (blackleg 3 years, black rot l year). Use only hot-water-treated seed and seed treated with antibiotic. Practice a 4-year rotation. Destroy cruciferous weeds as they may harbour the black rot organism.

Broccoli Head Rot (bacterium)

Characteristics: Head rot is caused by the soil borne bacterium Pseudomonas marginalis. Symptoms appear after periods of rain when heads remain wet for several days. The bacteria are splashed up from the soil to the head. When heads are colonized by the bacteria some areas appear water-soaked (because a biosurfactant is released by the bacteria) in contrast to unaffected areas where the waxy surface of the florets cause water to form in beads. Small black lesions may

develop in these water-soaked florets. During long periods of wetness, decay spreads rapidly, resulting in a sunken area on the head. Head rot develops most rapidly at high temperatures (28C).

Control: Avoid high levels of nitrogen and avoid applying pesticides during head formation as most pesticides contain surfactants which enhance rot during wet periods. For this reason, try to control insects prior to heading. The cultivars 'Shogun' and 'Arcadia' show good head rot resistance but only 'Arcadia' possesses good horticultural traits for the Maritimes. 'Green Valiant' and 'Patriot' possess moderate levels of resistance while 'Paragon', 'Emperor', 'Packman', 'Premium Crop' and 'Green Comet' are susceptible.

Insects

Cabbage Maggot

Characteristics: The adult is a two-winged, ash-grey fly with black stripes on the mid-section. It is half the size of a housefly, but has longer legs. Larvae are white, legless maggots. The pupae are 6 mm long, oval, hard shelled and dark brown. There are two to three generations a year. Pupae overwinter in the soil near the roots of the host plant. Adult flies emerge in the spring at about the time that Amelanchier and yellow rocket come into bloom. Adults fly close to the ground near host plants and lay elliptical white eggs on the stems or in nearby crevices in the soil. Eggs hatch in three to seven days. Maggots enter the roots and feed by rasping the plant tissue with a pair of hook-like mouthparts. They mature in three to four weeks and pupate. Flies emerge in two to three weeks. Larvae (maggots) feed by tunnelling in the roots. Young plants may be stunted or killed. Feeding damage by the cabbage maggot causes roots to be misshapen and allows the entry of decay organisms and other species of maggots. The presence of adult flies can be determined by looking for eggs which are laid at the base of plants.

Control: Apply insecticides as listed in the Guide to Pest Management, or when eggs are first detected. A number of monitoring systems have been developed.

Cabbage Caterpillars: Imported Cabbageworm, Cabbage Looper, Diamondback Moth Caterpillar, Purplebacked Cabbageworm

Characteristics: Generally identified as green caterpillars, either large and velvety-green or small and active. These larvae eat holes in leaves and heads. Heavy infestations will virtually destroy the crop.

The adult of the Imported Cabbageworm is a white butterfly, easily seen going from plant to plant laying eggs during the summer. The eggs hatch into velvety-green larvae with one thin yellow stripe down the centre of its back. The cabbageworm larvae do not loop when they walk. They are generally the most prevalent of the caterpillars found on cole crops.

The cabbage looper gets its name from the way it forms a loop as it walks. It is a smooth green larvae with two white stripes along the back and two along the sides. The cabbage looper is

Characteristics: Fleabeetles are small shiny black beetles, about 2 mm in length. They chew small pinholes through the leaves of cole crops. They are very active early in the growing season, especially during periods of dry sunny weather. Fleabeetles can seriously damage seedlings and transplants. Fleabeetle damage is usually less serious to larger plants. There is one generation per year. The larvae live in the soil and feed on roots.

Control: Young plants can be protected by spraying with one of the insecticides listed in the Guide to Pest Management.

Cutworms

Characteristics: Cutworms are greyish, fleshy caterpillars up to 5 cm long, which curl up when disturbed. Plants may be chewed off above or below ground level and may be damaged higher up by climbing cutworms. Most of the cutworm damage is to newly set plants in the field, but they are often found attacking seedlings in plant beds and greenhouses. Late infestation of variegated cutworm occasionally occurs.

Control: Apply insecticides when early cutworm injury is detected.

Tarnished Plant Bug

Characteristics: Adult tarnished plant bugs are light brown to reddish brown in colour and about 5-6 mm in length. They occur throughout the season. They are very active and quick moving. They can damage cauliflower by feeding on the curd. They cause brown blemishes which reduces the marketability of the head.

Control: Keep plantings and adjacent areas weed free. Avoid planting adjacent to legumes. Insecticide controls for worms may also control this pest.

Slugs

Characteristics: Slugs exist in various sizes up to 10 cm. They eat holes in the leaves and leave a trail of mucus, which makes plants unsightly. The control of slug populations has been a continuing problem in the cole crop industry. They are especially troublesome in Brussels sprouts.

Control: Slugs prefer areas which are cool, moist and high in organic matter. Sod crops, weedy fence lines and hedgerows fulfil these conditions. Since slugs can overwinter fairly easily, cultural practices aimed at controlling them should begin at least one year before the susceptible crop is put in. If possible, sod crops should not be followed by cole crops. A cultivated strip around the crop has been shown to reduce the number of slugs migrating from weedy field borders. If urea (4 kg/ha) is sprayed on this cultivated strip, slug movement may be further impeded. The salt irritates the slugs as they move over it. Repeated applications are necessary as rainfall washes it into the soil.

Slugs are usually more numerous in heavy, moist soils; sandy soils usually have fewer slug problems.

Non-parasitic Disorders

Cole crops show various non-parasitic disorders which cause tissues to die off. In some cases, these deviations have been shown to depend mainly on heritable characters; whereas in other cases external factors had at least marked effect.

Internal Browning

Characteristics: In Brussels sprouts, the symptoms are a yellowing of the distal ends of the leaves within the sprout, generally on a line through the center region of the sprout and midway between its growing point and exterior surface. From a practical aspect, "internal browning" is especially troublesome because it cannot usually be detected from external examination of the sprouts, yet quite a small number of affected sprouts may taint a large sample - especially when they are blanched for quick-freezing.

Factors which have contributed to internal browning have done so by bringing about a temporary localized calcium deficiency in the sprouts. Rapid growth, low soil moisture and high relative humidity, which inhibits transpiration are commonly implicated. The actual soil calcium levels have very little influence unless they are extremely low.

Control: Ensuring the soil moisture is close to field capacity can reduce the risk of internal browning. Excessive nitrogen fertilizer should be avoided. Foliar sprays of calcium nitrate may prevent the onset of internal browning if applied before the onset of adverse growing conditions.

SPECIFIC CHEMICAL CONTROLS FOR THE VARIOUS CROP PESTS DISCUSSED MAY

BE FOUND IN THE ATLANTIC PROVINCES VEGETABLE CROPS "GUIDE TO PEST

MANAGEMENT".

Harvesting and Handling

Cabbage

Heads of cabbage can withstand some frost, although fairly large differences in frost hardiness occur between the varieties. Frozen tissues generally have a water soaked appearance, but if not damaged the tissues will look normal again after thawing. On the other hand, damaged tissues often show brown discolorations. The youngest leaves are particularly sensitive to frost, so that the center of the head may be damaged by frost and turn brown, while outwardly the head looks healthy. These disorders also occur in the buttons of Brussels sprouts.

Brussels sprouts

a) Topping: Topping checks stalk elongation and promotes the development of the individual

foliage as possible should be cut away.

Broccoli

It is vitally important that broccoli should be harvested at the correct time: the heads must be picked before the buds open and when the bud-clusters are still compact. Yellow buds and loose clusters spoil the product.

The terminal heads mature first. By removing the main head the growth of the lateral heads is promoted. As the lateral heads develop unevenly, they cannot all be harvested at one time; indeed, in warm weather harvesting is done at least twice a week.

The heads are usually harvested with about 15 cm of the stem attached. After they have been cut off, part of the foliage is removed from the harvested shoots. The heads are from 5 to 25 cm in diameter and weigh from 100 to 800 g each. Side-shoots are from 5 to 10 cm in diameter and weigh from 100 to 500 g each. Broccoli intended for fresh consumption is often sold in bunches weighing about 450 to 600 g. As the quality of harvested heads soon declines, they should be marketed immediately. Rapid precooling and refrigeration is important.

Storage and Conditioning

Cabbage is most satisfactorily stored at about 0C and 98% to 100% relative humidity. In these conditions, cabbages may be stored for as long as eight months. Cabbages that are destined for storage are trimmed of their outer leaves, while careful handling is of importance to prevent injuring the wrapper leaves. Controlled atmospheres of 2.5% to 5% oxygen and 2.5% to 5% carbon dioxide may extend the storage life by several months. Avoid storing cabbage with any product that emits ethylene such as apples or pears as this can cause premature yellowing and abscision of leaves.

Cauliflower keep for 2 to 6 weeks at 0C and relative humidity above 95%. Heads should be cooled to 5C or below soon after harvest. Both hydrocooling and vacuum cooling are effective methods to remove field heat. Cauliflower that is destined for storage is preferably cut slightly immature; otherwise the curds may separate. Perforated plastic film overwraps are effective in reducing water loss during storage and marketing. Controlled atmospheres do not extend the storage life of cauliflower and may cause off-odours, softening or discoloration.

Brussels sprouts at 0C and above 95% relative humidity will keep for 3 to 5 weeks. At -2C, sprouts can be stored for a longer period, but have to be thawed slowly later on. Sprouts can be cooled following harvest using hydrocooling, vacuum cooling or icing. Similar to cabbage , exposure to ethylene will accelerate yellowing and cause leaf abscission. Controlled atmospheres of 2.5% to 5% oxygen and 5% to 7.5% carbon dioxide will increase the storage life of sprouts held at 5 or 10C, but have no benefit at 0C.

Broccoli is highly perishable and should be cooled immediately following harvest by hydrocooling or packing in ice. If held at 0C and near 100% relative humidity, broccoli can be

held for 3 to 4 weeks. Exposure to ethylene will accelerate the yellowing of flower buds and reduce storage life and should be avoided. Controlled atmospheres of 10% carbon dioxide with or without reduced oxygen can slow yellowing of heads at temperatures above 0C. Hot water dips of broccoli ranging from 47C for 10 minutes to 50C for 2 minutes prior to cooling prevents yellowing and reduces decay of flower heads.

Bibliography

(See also General References)

Brussels Sprouts. 1979. ADAS/M.A.F.F. Reference book 323. Grower Books, London, U.K. 68 pp.

Cutcliffe, J.A. 1984. Plant spacing and nitrogen affect incidence of hollow stem in broccoli. Canadex No. 252.25.

Cauliflowers, 1982. ADAS/M.A.F.F. Reference book 131. Grower Books, London, U.K. 87 pp.

Diseases and Pests of Vegetable Crops in Canada. 1994. The Can. Phytopathological Society. pg 92-123 and pg 420-435.

Integrated Pest Management for Cole Crops and Lettuce. 1987. Un. of California Publication No.

  1. Davis, C.A.

Nieuwhof, M. 1969. Cole Crops. World Crops Series. Published by Leonard Hill, London, U.K. 353 pp.