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Fresh Market Tomatoes

Arthur E. Gaus, Henry F. DiCarlo and Chuck DeCourley
Department of Horticulture

Opportunity exists in Missouri for producing and marketing fresh market tomatoes, if growers can achieve high yields as well as high quality. Resources essential for profitable production are productive land, sufficient water for irrigation and adequate family labor. Timely and thorough implementation of cultural practices is required through all stages of production.

For a number of reasons, average tomato growers achieve yields (and profits, if any) far below their potential. Yields of marketable fruit typically are about 5 pounds per plant, but yields exceeding 10 pounds per plant might be attained. Table 1 illustrates the effect of yields, prices, and production costs on profits.

Tomatoes are probably the most labor-intensive vegetable crop grown in Missouri. Tomatoes require hand-labor operations such as staking or trellising, pruning, tying, fertilization, cultivation, irrigation and harvesting. Preharvest labor requirements may exceed 300 hours per acre and harvesting and packing requires substantial additional labor, especially for large harvests.

Table 1
Tomato returns per acre based on training method, yield, quality, price and costs.

Training method Plant spacing in row (feet) Plants per acre Yield per plant (pounds)1 Yield per acre (pounds) Price/quality/yield complex2 Costs per acre (+ or - $1,000) Gross returns per acre Net returns per acre
Stake 2 x 4 5,445 8 43,560 40 percent #1s
40 percent #2s
20 percent culls
$7,000 $12,197 $5,197
Trellis 2-1/2 x 5 3,872 12 46,464 45 percent #1s
40 percent #2s
15 percent culls
$7,500 $14,171 $6,671
Cage 2-1/2 x 6 2,904 20 58,080 50 percent #1s
35 percent #2s
15 percent culls
$8,500 $18,585 $10,085
Down 3 x 6 2,420 15 36,300 25 percent #1s
35 percent #2s
40 percent culls
$4,500 $7,078 $2,578
1 This figure denotes marketable yields (#1s and 2s). Figures indicated are probably above average, but below optimal potential.
2 A subjective value of percent quality expected of various training systems. Price is figured at 50 cents per pound #1s, 20 cents per pound #2s.
Note: This table is designed for two purposes: to provide estimates, but not necessarily reflect any one situation; and to provide a comparison of inputs between training systems

Site selection

Deep, fertile upland soils and medium-textured bottomland soils are most suitable for tomato production. Select previously cultivated land, or else allow a year of preparation to eliminate perennial grasses, weeds and woody vegetation.

Upland sites provide some frost protection for the earliest plantings. Delay bottomland plantings until the danger of frost is past. Cold spring winds are hard on newly transplanted tomatoes. A windbreak, whether it is a protective hillside, a planting of trees or strips of rye left in the fields, offers much protection and speeds maturity.

Plant protection devices such as waxed caps or plastic covers are helpful in protecting the young plants. But you should weigh the labor and costs of using these devices against your anticipated increases in yields or the expected harvest date.

Soil improvement

Tomatoes use many soil nutrients. Many Missouri soils are naturally low in one or more of the essential elements. Previous cropping or soil erosion also may have depleted these elements. A soil test is the only reliable method to determine soil nutrient levels. MU Extension centers offer soil testing services. Your report will indicate nutrient levels and fertilizer recommendations for growing the crop. Soil nutrient levels should be in the ranges shown in Table 2.

Table 2
Desirable soil nutrient levels for tomatoes1

  Phosphorus Exchangeable potassium Exchangeable magnesium Exchangeable calcium
Sandy or gravelly loam 100 to 125 225 to 325 150 to 300 2,000 to 3,000
Medium silt loam 125 to 150 325 to 425 300 to 450 3,000 to 4,500
Heavy loam and clays 150 to 175 425 to 500 450 to 600 4,500 to 7,000
1Pounds per acre by Missouri test.

Soil for growing tomatoes should have at least 2.5 percent organic matter. Organic matter serves as a storehouse of plant nutrients, provides good soil tilth and enhances soil moisture relationships. On soils with less than 2.5 percent organic matter, incorporate some form of green manure into the soil.

One of the hybrid Sudan-sorghums (such as Sudex) can be grown during the summer. Either rye grain or perennial ryegrass can be grown as a fall, winter and early spring green manure crop. Before planting tomatoes, allow at least three weeks for the rye grain or ryegrass to decay after turning it under. Up to 30 pounds of nitrogen per acre can be plowed down with the green manure to help break down the organic material.

If the soil test shows deficiencies in phosphorus, potassium, calcium or magnesium, apply the corrective treatments before planting the green manure crop. This way they will be well worked into the soil.

Soil pH also is important in growing tomatoes. Tomatoes grown on soils with a pH of 6.0 to 7.0 are less likely to show blossom end rot symptoms on the fruit. An ideal pH is 6.4 to 6.8.


Dozens of tomato varieties are available from seed companies. Many are adapted only to specific areas of the country. In general, avoid tomato varieties with large fruits, green shoulders, a tendency to crack, late maturity and little or no disease resistance. Table 3 lists those tomato varieties most likely to perform satisfactorily in Missouri.

Table 3
Preferred hybrid tomato varieties for Missouri1

Variety Maturity (days) Fruit color Fruit size Resistance2 Other
Avalanche 70 Red Medium-Large F1 Firm
Better Boy 70 Red Medium-Large F1V1N Firm
Conquest 70 Red Medium + F1V1N Firm
Jet Star 72 Red Medium F1V1 Firm
Pink Delight 70 Pink Medium + F1 Firm
Show Me 70 Red Medium-Large F1 Very Firm
1Indeterminant types for staking or trellising. All are crack resistant under normal growing conditions.
2F1 means fusarium wilt; V1 means verticillium wilt; and N means nematodes.

It usually is best to grow your own tomato plants. However, if you have had no experience in growing plants or have no facilities for growing them, it's advisable to purchase them from a reliable, established plant grower.

Make arrangements with a local greenhouse operator to grow plants for you. Decide on the varieties, who will purchase the seed, the number of plants needed, the approximate delivery date, whether plants will be delivered potted or bare root, and the cost.

Buying plants from distant areas is unsatisfactory because they may arrive in poor condition, you may have poor choices of variety and there is a possibility of introducing disease and nematode problems into your fields.

A good tomato plant is 6 to 8 inches in height, has a stocky stem about pencil size, and foliage of good color and condition.

Tomatoes should be planted in rows 4 to 5 feet apart, depending upon the tillage equipment to be used. Plants should be spaced 18 to 36 inches apart in the row, depending upon the variety and the training system used. Therefore, the number of plants required per acre may vary from 2,500 to more than 5,000.


To decrease the possibilities of plant damage or loss caused by transplanting shock, follow these practices:

  • Water plants an hour or so before transplanting.
  • Protect plants from direct sun and wind exposure before setting.
  • Water plants in with a starter solution. Use a high phosphate water-soluble fertilizer such as 10-52-17 or 15-30-15 at a rate of 3 pounds per 50 gallons of water. Use about a half pint of solution per plant.
  • Check the transplanter operation to make sure the soil is firm around the roots and the plant is set at the proper depth.

Plant training and pruning

Trellis system
Figure 1
Trellis system

Fresh market tomatoes usually are trained to one of two systems: the wood or steel stake or the wire string trellis. For staking, 1-1/2 inch square or 1 x 2-inch wood stakes, or 3/8 to 1/2-inch steel stakes that are 6 feet long are most commonly used. Drive the stake about 10 inches into the ground. Stakes should be about 4 inches to the side of the plant but still in the row. Stake plants within two or three weeks after transplanting.

Tie the vines to stakes with jute tomato twine, other soft cord or twine. Arrange the stem of the tomato so the blossom clusters face away from the stake. Allow about an inch of give between the stake and the vine to permit future stem expansion.

Train staked tomatoes to a single stem. To establish a single stem, remove all side shoots or suckers on the main stem when they are 2 to 4 inches long. A sucker is a shoot that grows where a leaf attaches to the main stem. Remove suckers every five to seven days early in the growth of the plant. Later, after fruit development is well under way, suckers grow more slowly, and the interval may be lengthened.

The wire-string trellis training system uses 3- to 4-inch posts, spaced 12 to 14 feet apart and about 5 feet out of the ground. One 12-gauge wire is strung tightly across the top of the posts. If 6-inch end posts are placed deeply and firmly in the soil, bracing posts or dead men are not likely to be needed. Tomatoes are planted about 28 inches apart and trained to two stems. String, of a sturdy type that will last a season, is tied at the top wire, looped around the tomato stem just below the juncture of the two stems, and tied again at the top wire (in a V shape). See Figure 1.

When training tomatoes to a wire-string trellis, allow the sucker just below the first flower cluster to grow and form a second stem. Hormonal action of the plant causes this particular sucker to grow rapidly and assume a second stem. Remove all other suckers as they develop on each stem. Periodically, wrap the plant stems around the string for support.

While there are many adaptations of the stake and trellis systems of training tomatoes, two other systems bear mentioning — the cage system and the down or non-supportive system.

The cage system consists of a cage made of 6-inch mesh concrete reinforcing wire. The inside diameter usually is 12 to 16 inches and the height is 60 inches. The cage is supported by a stake (metal or wood). The tomato plant is permitted to grow up through the cage with essentially no pruning. Harvesting is effected through the 6-inch mesh wire with little difficulty.

plant on soil not previously planted to tomatoes (for at least three years) and follow a regular fungicide program for foliage disease control.

The down system of training is frequently used with determinate (bush) type of tomatoes. For effective weed control and moisture conservation, a black plastic mulch usually is used in down plantings. Also consider trickle irrigation under the plastic for adequate moisture availability. The caution given for the cage system also applies to the down system.

Cultivation and weed control

The principal reason for cultivation is to eliminate weeds. Weeds not only compete with the tomato for light, moisture and plant nutrients, but also may harbor pests and viruses. Cultivate the crop as needed unless or until herbicides have been applied. Any cultivation should be shallow to avoid root damage.

As plants grow and support systems are established, cultivation within the row becomes more difficult. At that point, you can use pre-emergence herbicides in the row to supplement or replace cultivation and reduce hand labor. Pre-emergence herbicides labeled for tomatoes can be applied in a band up to 2 feet wide within the row. Middles may be left untreated to be cultivated.

Another method is using a pre-plant herbicide, which can be safely added into the soil before planting.

Herbicides, either pre-plant or soon after planting, offer two advantages: weeds within the row can be controlled, reducing the need for hand cultivation, and weed invasion is reduced on soils too wet for cultivation.

Several herbicides are approved for use on tomatoes, but recommendations are subject to change from year to year. Ask at your local MU Extension center for the latest herbicide recommendations.


Before planting, apply 20 pounds of nitrogen, 40 pounds of phosphorus and 40 pounds of potassium (20-40-40) per acre. Apply fertilizers about 6 inches deep in the row ahead of row bedding or ridging. If you are planting on level soil, place the fertilizer about 4 inches to the side of the row and about 4 inches deep, preferably within a week or two after transplanting.

Sidedress with 30 pounds of nitrogen per acre. It is preferable to use calcium nitrate as the fertilizer source. Your second choice would be ammonium nitrate. Begin sidedressings when the first fruits are about 2 inches in diameter. Make repeated sidedressing applications every three or four weeks as long as the foliage and vines are healthy and productive. Apply the nitrogen sidedressing in a band just outside the foliage spread. Be sure to keep the dry fertilizer off of the foliage. Nitrogen also can be applied through the irrigation system.


Tomato plants should never be allowed to suffer from a water shortage. Good yields and high quality fruit are the result of steady, even plant growth.

To maintain a soil moisture level of not less than 50 percent of field capacity, the soil should receive about 1 inch of water each week during May 1-1/2 inches a week during June and September, and 2 inches a week during July and August. If rainfall does not meet these requirements, irrigate to make up the difference. Determine your irrigation needs by using one of several types of moisture meters. A common mistake many growers make is waiting too long to irrigate.

Trickle irrigation may be the most effective method of irrigation for tomatoes. The chief advantage is daily application of a measured amount of water to satisfy the needs of the plant. Moisture stress is almost eliminated. The main disadvantage of trickle irrigation is the initial cost of establishment.


Several serious insects are likely to be present every year on tomatoes. A regular spray program with malathion plus methoxychlor or carbaryl (Sevin) or with diazinon controls most insects.

Because insecticides usually are applied with a fungicide, use only wettable powder insecticides to avoid plant damage. Begin spraying insecticides within a week after transplanting and continue throughout the season as needed. Follow label directions for amounts of materials to use and for intervals between application and harvest. Also note precautions.

Aphids, also called plant lice, are small, slow-moving, green or red, soft-bodied, sucking insects, usually appearing on young, growing shoots. They are most prevalent during cool periods in early spring or late fall. Aphids can carry and transmit viral diseases. They must be controlled with insecticides.

Cutworms may be gray, brown or mottled in appearance and up to 1-1/2 inches long. In general, they hide in the soil during the day and come out at night to feed on the tomato stems. Cutworms usually cut off the entire plant about an inch above the soil line. Avoid planting on recent pasture or sodland or near cultivated farmland where cutworm populations may be high.

Diazinon or carbaryl insecticides can be used as a directed spray to the base of the tomato plant at time of transplanting. Allow 1 or 2 percent extra plants as replacements for those damaged by cutworms. Most cutworm damage occurs within two weeks of transplanting.

Flea beetles
Flea beetles are small, black jumping insects that eat small, round holes in tomato leaves early in the season. Watch for the earliest damage and use an insecticide.

These large, green worms, with a sharp horn on one end, can eat a large amount of foliage in a day or two. But the worms are rarely numerous in the field.

Do not destroy any hornworms with numerous small white cocoons on their backs. These cocoons contain parasitic wasps that attack other hornworms.

Stink bugs
These brown or green, shield-shaped insects give off a disagreeable odor when handled. They suck juices from the plant and cause hard, whitish spots just under the skin of the tomato fruit. They must be controlled by insecticides.

Tomato fruit worm
These vari-colored green, brown or pink worms eat holes in green or ripe tomato fruit. Damage is worse when tomatoes are planted near sweet corn. (The corn earworm is the same insect.) This insect can be very damaging and must be controlled with an insecticide.

Spider mites
The two-spotted spider mite, about the size of a grain of salt and very light-tannish in color, can become abundant during hot weather. These mites spin very fine webs, mostly on the undersides of leaves. They feed by extracting the contents of leaf cells. They are hard to find and usually difficult to control. Malathion (25W) and dicofol (Kelthane 4F), applied in combination in two applications about a week apart, usually will control this pest.


Tomato diseases can be devastating. Some are soil borne and become systemic (affect the entire plant). Examples are fusarium and verticillium wilts. Others are primarily foliage diseases that reduce the photosynthetic capacity of the plant. A few diseases attack the fruit.

For a disease control program to work, consider varietal resistance, good site selection and proper handling of plants in transplanting and training. Employ a thorough spray program with recommended fungicides. Begin it within a week after transplanting and continue at about weekly intervals at least until harvest begins. Fungicides most commonly used for tomatoes include mancozeb, benomyl and chlorthalonil. Follow label directions for amounts of fungicides to use and for intervals from last spray to harvest. Use precautions.

Fusarium wilt
This disease is a soil-borne fungus that persists for a long time once established in the soil. The fungus invades the roots, grows in the water-conducting tissues of the stem and plugs up the conducting tissue. The fungus grows best in soil temperatures of 80 degrees or more. Plants wilt slightly, begin showing progressively yellowish leaves from the bottom of the plant upwards, and within a few weeks may become severely stunted. The water-conducting tissue in the stem usually appears dark brown in color if infection is severe or if the variety is very susceptible. Use resistant varieties or plant disease-free plants on non-infected soils.

Verticillium wilt
This is another soil-borne fungus disease that persists for a long time in the soil once it becomes established. It is probably not as prevalent in Missouri as fusarium wilt. The fungus is most active at soil temperatures between 70 and 75 degrees. Symptoms of verticillium wilt include yellowing, withering and dropping of older leaves. Younger leaves have a dull finish and leaflets curl upward at the margins. The disease affects the plant uniformly with a general stunting and loss of foliage as the season progresses. The water-conducting tissues at the base of the plant show a dark color when cut. Use resistant varieties or plant disease-free plants on non-infected soils.

Early blight
Early blight is a foliage fungus disease very prevalent from late May through June. Target-like brown spots, 1/4 to 1/2 inch in diameter, appear on leaves mostly on the lower half of the plant. Numerous spots cause leaves to yellow, brown and shrivel. Plants become devitalized and yields are reduced. Fungicide protection is necessary.

Septoria leaf spot and gray leaf spot
These are two summer foliage fungus diseases. They appear as small, circular spots about 1/8 inch in diameter. When numerous, they will completely defoliate the plant. Fungicide protection is necessary.

This is a fungus disease on the ripening tomato fruit that may lead to severe fruit rot, especially on unsupported tomato plants. Fungicides used for the control of early blight and the leaf spots will control Anthracnose.

Tobacco (tomato) mosaic
Mosaic is a virus of which there are several strains. The virus can infect tomatoes, tobacco, peppers, eggplants, petunias and such weeds as poke, ground cherry and horsenettle. Some strains of this virus produce only yellowish, mottled areas on the young leaves. Other strains can cause severe symptoms on the fruit. This blotchy ripening is characterized by white to yellow patches radiating from the stem end of the tomato fruit and penetrating most of the outer wall. It is believed that blotchy ripening is caused by a direct infection of the tomato blossom by the virus. This form of mosaic can seriously reduce both the appearance and quality of the tomato. Prevention at the present time includes:

  • Controlling insects, particularly aphids
  • Eliminating weed carriers of mosaic
  • Avoiding the use of tobacco in any form if you handle or brush against tomato plants
  • Dipping hands in a powdered milk solution at frequent intervals before tying and pruning (this is to deactivate the virus and prevent mechanical transmission).

Resistant varieties are now being developed, but commercial varieties now available do not have resistance to the blotchy ripening phase of the virus.

Nematodes are common and very damaging in the light sandy and sandy loam soils of southeast Missouri. The root knot nematode is the most damaging to tomatoes. Plants with nematodes attacking the roots exhibit various degrees of poor growth and moisture stress. Roots damaged by the root knot nematode are abnormally enlarged, warty or knotty and incapable of sustaining the plant.

To reduce the potential for build-up of root knot nematodes, rotate tomatoes with non-susceptible crops, or plant on soils where non-susceptible crops have been grown for the past several years.

There are nematode-resistant varieties (Table 3). Another option is to use a soil fumigant before planting the tomato crop.

Physiological disorders

Physiological disorders are disturbances of the normal physiology of the tomato plant. These disorders usually are the result of nutrition, water or environmental stresses.

Blossom end rot
Blossom end rot appears first as a depressed, brown, rather dry rot, the size of a dime to a half-dollar on the blossom end of the fruit. Secondary infections may occur and cause the whole fruit to rot. It is caused by a combination of calcium deficiency coupled with wide fluctuations in available moisture. Where possible, use calcium nitrate as the source of nitrogen and maintain an even moisture level.

This disorder refers to badly formed tomatoes, especially on the blossom end. Cold weather at time of bloom intensifies the deformities. Beefsteak type tomatoes, especially on the early fruit, are most severely affected by catfacing.

Leaf roll
Older, lower leaves may roll upward and become stiff and leathery. More common on trained and pruned plants, leaf roll generally is triggered by either excesses of moisture or else by drought conditions.

Flower drop
Failure of tomato flowers to set can occur when temperatures are lower than 55 degrees or higher than 90 degrees. Varieties differ in their ability to set fruit at these temperature extremes.

Chemical injury
Drift from 2,4-D chemicals can cause distorted leaves, twisted stems, dropping of flowers and abnormal fruit. The drift may originate from a mile or more away. When spraying tomatoes, do not use sprayers previously used with 2, 4-D herbicides.


Normally, most tomato varieties should be harvested in the pink to early red stage for local market sales. At this stage, fruit have satisfactory firmness for proper handling and sufficient color development to make them attractive to consumers. Some of the new very firm tomatoes, such as Show Me, should not be harvested until fruit has developed full color on the vine.

When harvesting tomatoes, remove picking containers from the field as soon as possible. Provide some sheltered or shaded area for grading and packing. Use clean containers such as baskets or cartons for delivering tomatoes to the market.

G6370 Fresh Market Tomatoes | University of Missouri Extension