1. Growing Peaches in�Zone 5 (Northern Illinois) (Growing Peaches Where Some Say You Can’t)
2. Royal Oak Farm has been growing peaches for about 15 years in Northern Illinois.
From 1993 to the present we have seen temperatures of 12 to 18 degrees below zero, the coldest occurred in 2007.
From 1993 to 2004 we lost only 6 to 8 trees total. In 2004 we planted about 900 new peach trees.
In February of 2007 we lost over 10% of our 3-4 yr. old trees planted in 2004 to -14 below zero temps that lasted for a period of 2 hours, but still produced peaches on many trees.
Why could we still produce peaches on many trees while at the same time lose trees to -14 below zero temperatures?
4. The temperature at which the fruit buds are injured depends primarily on their stage of development.
They are most hardy during the winter when they are fully dormant. As they begin to swell and expand into blossoms, they become less resistant to freeze injury.
Not all blossom buds are equally tender. Resistance to freeze injury varies within trees as it does between location and varieties.
Buds which develop slowly tend to be more resistant.
As a result, some buds are usually killed at higher temperatures while others are resistant at much lower temperatures.
5. Flower buds are borne on 1-year old wood
Center bud is a leaf bud
Large bud on either side is a flower bud
6. If winter temperatures do not go too low, buds will be bright yellow and green inside
Low winter temperatures are only part of the story– temperature fluctuations are the real threat
7. If Winter Is Too Cold This bud was killed by cold winter temperatures
It will drop off as buds begin to swell in spring
Choose the correct varieties and plant on warm sites to prevent this loss
9. THE TEMPERATURE at which fruit buds are injured depends primarily on their stage of
development. They are most hardy during the winter when they are fully dormant. As they begin to
swell and expand into blossoms, they become less resistant to freeze injury.
Not all blossom buds are equally tender. Resistance to freeze injury varies within trees as it does
between orchards, varieties,and crops. Buds which develop slowly tend to be more resistant. As a
result, some buds are usually killed at higher temperatures while others are resistant at much lower
temperatures. To indicate this range, a new set of temperature values has been developed. It shows
the average temperatures required to kill 10 percent of the buds and 90 percent of the buds as found in
research at the WSU Research and Extension Center, Prosser from 1964-1970.
The range in temperatures at which buds are killed is a factor in determining the need for frost
control. Orchards with a large number of buds should be able to stand more frost than those with only
a light set of buds. In using the temperatures, consideration should also be given to weather conditions
preceding cold nights. Prolonged cool weather will tend to increase bud hardiness during the early
stages of bud development.
These new values do not replace the temperatures previously given in EM 1616, but provide
additional information on critical temperatures.THE TEMPERATURE at which fruit buds are injured depends primarily on their stage of
development. They are most hardy during the winter when they are fully dormant. As they begin to
swell and expand into blossoms, they become less resistant to freeze injury.
Not all blossom buds are equally tender. Resistance to freeze injury varies within trees as it does
between orchards, varieties,and crops. Buds which develop slowly tend to be more resistant. As a
result, some buds are usually killed at higher temperatures while others are resistant at much lower
temperatures. To indicate this range, a new set of temperature values has been developed. It shows
the average temperatures required to kill 10 percent of the buds and 90 percent of the buds as found in
research at the WSU Research and Extension Center, Prosser from 1964-1970.
The range in temperatures at which buds are killed is a factor in determining the need for frost
control. Orchards with a large number of buds should be able to stand more frost than those with only
a light set of buds. In using the temperatures, consideration should also be given to weather conditions
preceding cold nights. Prolonged cool weather will tend to increase bud hardiness during the early
stages of bud development.
These new values do not replace the temperatures previously given in EM 1616, but provide
additional information on critical temperatures.
10. How Do We Do It? Site
Rootstock & Variety
Planting
Pruning
Pest Management
11. Site Selection Well drained soils are essential (Excess soil moisture leads to plant injury or death and increases risk of disease)
Good Air Drainage (frost-free, fruit rots)
Hilltop vs slope (hilltops are best for air drainage, but winds are worse on cold hardiness)
Sunlight All Day Long (plant rows east to west)
Access to Water
A realistic appreciation of the climatic limits of the location
12. Planting Use only native soil for backfill
Soil filled with fertilizer & amendments encourages roots to stay in hole
Roots should extend into native soil as soon as possible for drought tolerance and anchoring
Add fertilizer & amendments to the surface around the tree and about 12” away from the tree Water as you fill the hole to prevent air pockets
Water every 10 days for first season if no rain
I am not an advocate of mulch. Mulch can contain disease or harbor disease. Instead keep tree weed free and ground bare for frost protection
14. Cold Hardy Rootstocks Lovell – A standard in Northern Illinois; good disease tolerance
Tennessee Natural
Bailey Seedling – standard size, hardy
Halford Seedling –A proven performer, very hardy Nurseries, growers, and researchers are always looking for rootstock for better peach tree health. Bailey, Lovell, and less
commonly Halford and Tennessee Natural are rootstock used in the variable soils and occasionally very cold Michigan climate. Chui
Lum Tao is a rootstock from China tested by Canada that has performed similarly to Bailey with slightly less vigor.
Several other rootstocks recently available in the nursery trade may have promise for the colder peach growing regions of the
US. Guardian has shown good performance over the last 7 years in Michigan tests. Slightly more vigorous than Bailey, Guardian
was developed in the SE United States to combat peach shortlife problem. We have not had a very cold test winter similar to 1994,
so survival under very harsh conditions is unknown. Four other rootstocks are being tested in Michigan based on their reputation for
cold hardiness. Krymsk 1, 2, and 86, and Pumiselect are known to be dwarfing to peach and other stone fruit. The Krymsk selections
were derived from crosses with other stone fruit species but so far are thought to be compatible with peach. These four rootstock
are propagated by cuttings or other clonal methods. The jury is still out on these—growers should go cautiously for now.Nurseries, growers, and researchers are always looking for rootstock for better peach tree health. Bailey, Lovell, and less
commonly Halford and Tennessee Natural are rootstock used in the variable soils and occasionally very cold Michigan climate. Chui
Lum Tao is a rootstock from China tested by Canada that has performed similarly to Bailey with slightly less vigor.
Several other rootstocks recently available in the nursery trade may have promise for the colder peach growing regions of the
US. Guardian has shown good performance over the last 7 years in Michigan tests. Slightly more vigorous than Bailey, Guardian
was developed in the SE United States to combat peach shortlife problem. We have not had a very cold test winter similar to 1994,
so survival under very harsh conditions is unknown. Four other rootstocks are being tested in Michigan based on their reputation for
cold hardiness. Krymsk 1, 2, and 86, and Pumiselect are known to be dwarfing to peach and other stone fruit. The Krymsk selections
were derived from crosses with other stone fruit species but so far are thought to be compatible with peach. These four rootstock
are propagated by cuttings or other clonal methods. The jury is still out on these—growers should go cautiously for now.
15. PF 7A Freestone - 10 days
PF 24-007 + 22 days
PF 24C Coldhardy + 24 days
PF 25 + 26 days
PF 1 - 30 days
Garnet Beauty (-11)
Harcrest (+26)
Summer Serenade (sport of Garnet Beauty)
Autumn Star (+ 45) - new cultivar, 2003; very hardy fruit buds, but very late
Cold Hardy Varieties Red Haven
Contender (+18) - has high chilling requirement (1050 hrs) & very hardy fruit buds
Cresthaven (+24)
Madison (+24) - buds very hardy, but fruit is tender & does not pack/ship well
Redskin (+29) – bloom & harvest is spread out, providing more frost hardiness.
Reliance (+3) - reliable cropping, but tends to have poor quality fruit
16. Pruning Unpruned trees tend to produce weak, short growth and small fruit.
Pruning should be done as close to bud break as possible.
Keeps the tree within height and width bounds affording easier management and harvest
Increases the size and color of the fruit
Keeps the fruiting wood vigorous and productive
Helps in insect and disease control
Pruning is an annual process
The central leader system is highly recommended
Pruning stone fruit trees is based on the growth and fruiting habit of the tree.
17. PRUNING AT PLANTING A one-year peach tree may have several side branches. After planting, all branches within 18 to 20 inches of the ground, shoots that are broken, and those with narrow crotch angles should be removed.
Three or four branches with wide angles vertically spaced 6 to 12 inches apart should be selected for the main scaffolds.
All other branches should be cut off at the trunk being careful to observe the location of the branch bark ridge and branch collar. The leader should be cut back to 30 to 36 inches above the ground.
Lateral branches selected as scaffolds should be pruned to 2 to 4 inches long stubs, each having one bud.
18. During the second year: Remove branches that tend to grow inward or straight up through the center of the tree
Remove limbs that grow from one side of the tree across to the other side
Head back (lightly) permanent scaffolds that exceed 30 inches with few or no side branches
Remove all but 2 or 3 well-spaced side branches (secondary scaffolds) from the permanent scaffolds. The side branches remaining should be at least 30 inches in length and grow out and slightly up. Those that grow down, straight up, or within 15 inches of the trunk should be removed.
19. PRUNING BEARING (MATURE) TREES Peaches are borne laterally on shoots that grew the previous year (1-year old shoots). Therefore, pruning must stimulate new shoot growth each year. The number of fruit buds formed is greatest on the longer shoots. Hence, a six inch shoot will have fewer fruit buds than a shoot 18 inches in length.
On a vigorous one-year shoot, three buds are usually produced at each node (See Figure). The two plump outside buds are blossom buds and the smaller bud in the center is a leaf bud.
A less vigorous shoot may only have one fruit and one leaf bud at each node. Shoots over 18 inches in length shoots may even lack fruit buds.
The key to fruit production on a peach, therefore, is to prune and fertilize to produce new shoots each year which are 10 to 15 inches in length.
20. When pruning a fruit-bearing tree, the following branches (secondary scaffolds) should be removed:
those that are broken, diseased, or insect infested,
those that are slender and weak - especially on the inside of the tree,
those that grow toward the center or straight up, and
those that grow down and interfere with mowing or other equipment. PRUNING BEARING (MATURE) TREES
21.
Biological control - Use of beneficial organisms to manage pests
Cultural control - Crop rotation, improved sanitation, and other practices that reduce pest pressure
Mechanical and physical control - Traps, cultivation and physical barriers
Chemical control - Judicious use of pesticides that pose a low risk to human health, non-target species and the environment.
Resistant varieties - Use of crop varieties that yield well even under high pest pressure.
Regulatory control
State and federal regulations that prevent the spread of pests Integrated Pest Management
22. Overall Spray Program The best control for peach twig borer on peach trees is a dormant or delayed dormant spray (shortly before bloom).
Peach twig borer and Oriental fruit moth can cause severe twig dieback and damage to fruit if not controlled.
Treat peach, apricot, nectarine and plum trees in July and August to control peach tree borer (crown borer)
Cytospora canker is a fungus problem that results in bark damage with an amber to brown gum on trunk or branches
23. A Complete Spray Insects/Disease
Plum curculio, oriental fruit moth, Japanese Beetle, mites, aphids
Brown rot, Coryneum blight, peach scab
24. Pest & Disease Managment Dormant, Before Bud Swell
Disease. Leaf curl. Apply dormant copper spray.
Insects. Mites, scales. Lecanium scale and San Jose scale: apply Esteem at 4.0-5.0 oz with oil. Use higher rate of Esteem under heavy scale pressure.
Brown rot. Remove all fruit from trees after last picking to prevent brown rot fungus from overwintering in mummies and twig cankers. Discing lightly under the trees no later than first bloom will aid in preventing fruiting of the brown rot fungus on old mummies in contact with the soil. Clean cultivation is not necessary--just disturb the mummy's contact with the soil. If this is not done, bloom sprays may become more critical.
Cytospora canker. Cytospora canker is one of the most destructive diseases of peaches
25. Cytospora Canker
26. Cytospora Canker Also known as perennial canker, peach canker, Leucostoma canker, and Valsa canker, the disease may cause trees in young orchards to die.
Infected trees in older orchards gradually lose productivity and slowly decline.
The fungus attacks the woody parts of stone fruit trees through bark injuries and pruning cuts, and through dead shoots and buds
Visible first is the exuding of gum at the point of infection. (gumosis)
The canker forms from a small necrotic center that slowly enlarges with the collapse of the inner bark tissue.
Cankers enlarge more along the length than the width of the branch.
Managing Cytospora canker involves total orchard management. Since no stone fruit tree is immune, and fungicide treatments alone are not effective, control efforts must be aimed at reducing tree injuries where infection could begin.
27. Pest & Disease Management Pink to First Open Bloom
Disease. Brown rot (blossom blight). Blossom blight typically is not a problem unless temperatures are above 55°F, it is warm and wet, or brown rot has been a problem in the past.
Insects. Plant bugs, green peach aphid.
Plant bugs. Applying alternate row-middle sprays at reduced intervals should improve control. Plant bug feeding injury results in sunken areas on developing fruit that is not pubescent. Bugs are most persistent in orchards with alfalfa or clover sods. Since peaches are most vulnerable to catfacing injury at pink and petal fall, do not cultivate soil in orchards at those times. Cultivation only serves to destroy many alternate host plants, thus driving the insects up into the peach trees.
Oriental fruit moth mating disruption. If hand-applied mating disruption is used, dispensers should be placed at the pink stage at the recommended label rate. All dispensers should be in place before bloom.
28. Petal Fall
Disease. Brown rot, scab.
Insects. Oriental fruit moth, plant bugs, plum curculio, aphids.
Plum curculio. If plum curculio is a problem, shorten spray intervals through the first cover spray.
Green peach aphid. If this aphid is present, add Actara, Lannate, or Provado. Pest & Disease Management
29. Shuck Split, Shuck Fall
Diseases. Scab, brown rot, bacterial spot, rusty spot.
Insects. Plum curculio, Oriental fruit moth, leafrollers, plant bugs, aphids.
Rusty spot. Spotting on the fruit of some varieties such as Redskin, Many of the new peach cultivars are also highly susceptible. Sulfur may reduce rusty spot incidence. Follow label recommendations.
Bacterial spot. Copper in spring and fall. Begin weekly applications of Mycoshield at shuck split on susceptible varieties. Sprayer air velocity should not exceed 100 mph. The first applications are most critical for control. Do not apply within 3 weeks of harvest. Dilute sprays with Mycoshield have provided the best control. Spraying at night under slow drying conditions is most effective.
Green peach aphid.
Plum curculio. Same control as at petal fall Pest & Disease Management
30. First, Second, Third Covers
Diseases. Scab, brown rot, bacterial spot.
Insects. Oriental fruit moth, leafrollers, lesser peachtree borer, mites, plant bugs, scales.
Bacterial spot. Same as shuck split/fall
Mites. For mite control, use Fruit Tree Spray
Early season lesser peachtree borer. If there is only a moderate problem (less than 2 borers/tree), wait until late summer to apply controls If there are more than two borers per tree, make an application now and again in late summer. This borer attacks weak or injured trees in winter damaged orchards and diseased trees, especially those with canker. Adult borers deposit eggs in wounds from May through August. The peak egg-laying period for the first generation is in June. Low-volume sprays are not effective on lesser peachtree borer. Use only high-volume, handgun applications. Be sure to cover trunk and scaffold limbs. Pest & Disease Management
31. Conclusion Site
Rootstock & Variety
Planting
Pruning
Pest Management
