1. Orchard Design
2. Factor to consider. Depends on growers goals
Maximize yield vs. management convenience
Management efficiency, Fruit Quality, early return on investment.
Above not always mutually compatible.
3. Designing an Orchard:�Objectives - Utilize orchard space
We must capture the greatest amount
Sunlight exposure is directly related to fruit quality, bud formation, and fruitwood survival
Competition for soil, moisture, nutrients, and light. (close planting vs wide)
4. Close Planting – Less soil per tree Vigorous management
The more dense the orchard the more horticulture expertise & precision.
Also need to consider:
Pruning
Thinning
Harvesting
Pest control
Frost protection
Irrigation method
5. Close Planting – Less soil per tree Cost per acre
Initial cost per acre
Timing to first return
Expected life
Volume or quality
6. Types of Planting Low and Standard density
Open center – vase (Alternating)
16’ x 22’ square (feet varies)
7. Medium and High Density Advantages Early yields
Orchard efficiency
Spray
Ladder work
Weed control
Inverse fruit graded to vegetative growth
8. Disadvantages High establishment cost
Can’t control vigor
Life span
9. Long Term Investment- 30+ Years 1. Site selection
Choose a proven area
Risk involved in an unproven area
Labor supply plentiful
Thinning
Pruning
Harvesting
Packing houses
Tech people
Farm Advisor
Field management
10. Long Term Investment- 30+ Years cont. 2. Size
Fresh: 5 acres
Commercial: 15- 20
3. Weather
Micro climate
Need 1) Frost Protection
2) Dominant rest
3) Fog/ Chilling requirement (# hrs below 45° F)
peaches & nectarines 650-850
before February 15
Leaf buds more than flower buds
11. Long Term Investment- 30+ Years cont. Definite warm temperature can offset previous chilling
Warm areas have “low chillers” less than 400 hrs
Extreme Cold:
-Frost
-Wind
-Hail
-Heat
12. Long Term Investment- 30+ Years cont. Water Supply
Moistures peaches need 3- 5’ of water per year
Good drainage needed
Past Crops
Soil fumigation
Nematodes
Crop diseases
Slope
West slope = more sun
13. Soil Preparation Ripping
Hard pan- ripper subsoil
Plow pan- chisel
** Dry as possible
Drainage
Tile drains
Leveling
Furrow
Flood
Slope fall depends on
Soil type
Head of H2O
14. Soil Preparation�Cont. Heavy soils/ slight grade
Light soil steeper grade
Irrigate a ripped field
Eradicate Johnson Grass & Bermuda Grass
Fumigation
Do after ripping before final leveling late summer- early fall
Soil moisture low- soil warm
15. Soil Preparation�Cont. Planting
Design
Direction N&S
Double Setting- 10 X 20 then 20 x 20 no economic advantage
Cost of trees is doubled
Add exp. To table out
Stable out orchard
Planting wire
Digging hole, watch for setting
No fertilizer at that time
Don’t let trees dry out
Heel in trees or put in bins with shavings
Plant January and before February 15!
16. Soil Preparation�Cont. Delaying planting
Cold Storage- April- May
Crown gall
Agro bacterium Radio Bacteria
Fill holes- Spread out roots pack soil
May add water- refill setting
17. Newly Planted Trees Must be headed back 20”- 24” clip side braches
Protect trees by white latex paint or tree wraps and milk cartons
Prevents sun burn and chewing by rabbits
Protects tress from herbicides
Caring for young trees
Irrigating
Fertilizing
Protect trees
Weeds
Insects
Suckers
Intercropping
Toss up
18. Orchard Floor Management Complete Cultivation
Bare non cultivating
Pre and post emergent herbicide
Partial non- cultivation
19. Finally Fruit Growth and Development Fruit growth and development begins during the previous season- may – June
Stress at this time is bad
Late fall and winter buds become dominant to emerge, they need chilling 650-1000 hours. If chilling is insufficient problems will arrive.
Bloom period extended- difficult to control diseases
X pollination
Flower bud abscission
Small fruit
20. Finally Fruit Growth and Development cont. Fruit Growth stages
Stone fruits:
Bloom1st week of march -> Flower pollinated embryo fertilized- rapid growth (stage I). Growth at this point is due to cell division, lasts for about 30 days after full bloom any stress at this point can effect final fruit size. Temperature at this time determines time of harvest. Warmer temperature= early harvest, 60 days after bloom pit hardens in California Agriculture between 4/15 and 5/15.
Stage II- pit hardening- the lag phase fruit size increases very slowly Stage is practically undetectable while the pit hardens the embryo is growing rapidly- stress has little effect.
21. Finally Fruit Growth and Development cont. Flower and Fruit drop can occur almost anytime between bloom and harvest, after bloom lots of flowers and fruit drop un pollinated flowers or unfertilized ovules.
Another drop in May (June drop) competition from nutrients carbs or growth hormones.
Still another drop- pre harvest- short period that carries the fruit to (p) itself off the stem
Stage III- 4-6 weeks before harvest- increase in size and weight each fruit may gain 10 grams fresh wt/ day with 1000 fruits/ tree this equals 1 ton yield increase/ day.
22. Finally Fruit Growth and Development cont. Cell expansion:
Need to () pressure in the fruit (H2O)
Carbohydrates produced by leaf
Hot weather in the leaf to more transpiration and water loss = smaller fruit.
23. Finally Fruit Growth and Development cont. Dry Farm-
Ripped Ground 3x During
Solid Shake
January- Ridge up small
Spacing:
20’ 9”= right for 6½
16’ in row
130 trees/ acre
Drip System-
Emitters- 4’ apart 1 gallon/ hr
4 hours every day, 8- 8½ hours.
24. Peach One of the most popular fruits
Native to China
Scientific name: Prunus Persica
Persica- suggests Persia
Persian Apple
China- Persia- Europe- Mexico
Spanish Missionaries introduced the peach to California in the 18th century and in the early 1800’s the Russians brought peaches to S.F. and planted them near Ft. Ross The gold rush spread them all over California.
25. Nectarine Prunis Persceca var. Nectarine
History unknown- nectarines probably arose from peach seeds
Peaches and nectarines have similar leaf characteristics and growth habits.
Nectarines lack pubescence (Fuzz)
Different due to a single recessive gene
Generally peaches and nectarines are grown with the same irrigation, nutrition and cultivation as well as harvesting method. Nectarines are more susceptible to brown rot and flower thrips.
26. Peaches and Nectarines�Cont. California peaches and nectarines produced for fresh consumption are called FREESTONES- but you may have semi free, semi-cling, or cling with yellow, red or white flesh. Most cling are grown for canning- clings have non-melting flesh, Freestones have melting flesh.
Fresh Cling Nectarines
O’ Henry Loader Fantasia
Elegant Lady Carson Flame Kit
Flower Crest Fortuna May Grand
Spring Crest Vivian Royal Grant
Jane Lady Halford Fairlane
Fay Elberta Corona
Cortez
Dixon
27. Peaches and Nectarines�Rootstalks Why Rootstalks
Do not reproduce the same characteristics as parents grown from seed
Need to be vegetatively reproduced so that the trees are exactly the same as parent
Resistant to nematodes or other soil born diseases
All peaches and nectarines grown for commercial production are budded or grafted on peach seedling rootstalks
Other Prunes species like apricot, plum have been tried but not successfully done.
28. Peaches and Nectarines�Rootstalks Cont. Rootstalk Selection
Compatible with scion species ex- peaches and nectarines are not compatible on most plum root stalks while plums are compatible on both peach and plum.
Nematode and disease resistant
Adapt to soil and moisture
Support live root system
Vigor
