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Subtropical Frost and Freeze Hazards
34

Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Jan 19, 2016

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Nataly Morley
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Page 1: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Subtropical Frost and Freeze

Hazards

Page 2: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Freeze Damage in CitrusTrunk Fruit damage

Leaf damage

Page 3: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Freeze damage on citrus production

Complete lost of citrus groves

Page 4: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Frost Hazards

• Ranks with pest control, nutrition, and irrigation.

• May be most limiting factor

–1962-63 entire Northern Hemi.

–Texas from 10 M boxes in 1961 to 740,000 boxes in 1964.

Page 5: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Wind Machines

• Only for frosts • Most effective in hill and valley

topography - California• Mixes inversion layers (upper

warmer air with lower colder air)• Increase temp 0.5 to 1.5o C• One machine / 5 to 8 acres

Page 6: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Damage Continues

• Frost and Freeze losses in winter of 1983-84. Loss of 100,000 Ha.

• Brazil seldom has loss from frosts and freezes.

• Mediterranean area protected by Alps (Oriented east - west).

• Rockies are North - South.

Page 7: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Frost or Freeze?

• Frost - Wind is light to none (Radiation)

• Freeze - Wind over 10 mph (advective).

• Since damage occurs by ice formation - term freeze hardiness fits what happens in fruit.

Page 8: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Freeze Avoidance (Supercooling)

• Citrus species supercool threshold:–Fruit - - 5o C–Mature leaves - - 7o C–Stems - - 8.9o C–Non-acclimated < - 2o C–Flower -4.3oC

Page 9: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Intercellular Ice Formation

• Citrus tolerates some ice formation between cells.

–Watersoaking at - 3o C may not cause leaf abscission.

Page 10: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Freeze Acclimation

• Function of

–Soil temperature

–Tissue temperature

–Day length

ºBetter under long days

–Increased metabolites

Page 11: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Freeze Tolerance

• Is defined as the ability of plants to survive ice formation in extracellular tissues without significant damage to membrane or other cell components (Thomashow, 1993).

– decrease of water potential in tissues due to sugar accumulation in vacuoles.

– a significant increase in the abscisic acid levels which result in modification of protein synthesis.

• The process of adaptation to low temperatures may cause changes in the function of genes and proteins.

Page 12: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Tolerance of freeze damage

• Citron < limes & lemons < grapefruit & pummelo < sweet oranges < tangerines & hybrids < sour orange < satsuma < kumquats < cintranges < Trifoliate orange.

Page 13: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Maximum Acclimation

• Daytime temps/ 20 to 25o C

• Night- time air & soil temp/ less than 12o C for 2 weeks or more.

• Causes quiescence (not dormancy).

• Loss of hardiness > 12.5o C.

Page 14: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Biochemical Changes

• Sugar content increases with acclimation.

• Lowers freezing point and acts as a cryoprotectant for cell membranes.

• Critical are minimum temp. and duration below minimum.

Page 15: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Passive Protection Methods

• Site selection

–Weather Records

–Avoid low places (Frosts)

–Wind breaks N & NW (Freezes)

ºTrees

ºShade cloth.

Page 16: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

More Passive Methods

• Clean cultivated, packed soil absorbs more net radiation from sun, thus more radiant energy at night than sod covered or newly cultivated orchard floor.

• Orangeries- since Roman times.• Tree cover-Today near Sorrento,

Italy.• Tree wraps

Page 17: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Still More Passive Methods

• Japanese grow citrus in greenhouses

–Frost protection

–Hastens fruit maturity

• Taiwanese grow peaches under cover. (prevents frost & leaf curl)

Page 18: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Active Methods - University Return Stack Heating

• Protection against both frosts and freezes.

– Initial $40 x 48 = $1920/A

–Annual operating 5 gal diesel x $0.65 x 48 x 4 nights + $50 labor = $674

–Total = $2594/A first year

Page 19: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Return Stack Specifications

• Best of oil heaters

• One hole setting uses 0.3 gph

• Three hole setting uses 1 gph

• 30,000 BTU / hr (20 - 70% radiant)

• Energy directed horizontally

• Rain in stack - blow over

Page 20: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Other Heaters

• Large Cone - slightly more radiant energy less blow over

• Short Stack Heater - Smoke

• Open Pots - Don’t even think about it.

Page 21: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

FREEZE PROTECTION METHODS

Heaters Soil banking

Page 22: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Pressurized Oil Systems

• Diesel delivered though underground plastic tubes

• Efficient

• Must keep nozzles cool

• Problems - high pressure oil, filter clogging

Page 23: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Propane HeatersVapor Pressure of propane

• Temperature PSI– 70o F 109– 32o F 54– - 44o F 0– 130oF 257

• 30,000 gal tank / 60 acre orchard

Page 24: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Solid Fuel Blocks

• Once cost effective - but not now

• Four blocks under grapefruit canopy raised temp 13o F

• Unique for LGRV

–Fewer frosts / season

–Store under trees all year

Page 25: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Irrigation - Frost Protection

• Provides Sensible Heat– Warm water source

• Heat of Fusion• Only for frosts

– Evaporative cooling removes 7.5 times as much energy from irrigated area than provided by Heat of Fusion.

Page 26: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Foam wrap Polyurethane wrap Fiber-glass wrap

WRAPS

Page 27: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Overhead Irrigation

• Heavy foliage accumulates ice which breaks limbs.

• Works better on strawberries and blueberries.

• Primarily used on citrus nurseries.

Page 28: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Microsprinklers

• At ground level elevates 1 to 2o C to lower canopy

• No help for fruit and upper canopy

• Elevated about 1 m give some protection of scaffold limbs - quicker re-establishment.

Page 29: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Elevated Microsprinklers

• Excellent results 12.5 gph / tree

• Hardie Microsprinkler III

• Protected peach buds when air temp dropped to 18o F (- 8o C)

• Rieger, Mark and S. C. Myers. 1990. HortScience 25:632-635.

Page 30: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Microsprinkler Limitations

• One 5HP pump for 5 A

–Same pump irrigates 20 A

• LRGV Irrigation Districts - water not available on demand.

Page 31: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Insulators and Tree Wraps

• Soil banks effective –Expensive but saves trunk.–Remove in spring.

• Polyurethane foam wrap banded with metal strapping.

• Plastic bag of water between wrap and trunk???

Page 32: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Overhead sprinklers Under tree micro-sprinkler

Sprinklers

Page 33: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

Damage of citrus trees by sprinkler system

Page 34: Subtropical Frost and Freeze Hazards. Freeze Damage in Citrus Trunk Fruit damage Leaf damage.

THE END