14.6.2 Alleviating frost damage in horticulture

Printer-friendly version



Figure 14.21 Alleviation of frost damage with wind machines. During a temperature inversion, upper air layers are warmer than the air at tree level, and these huge fans can be used to drive the warmer air down into the trees and across the ground to counter radiative heat loss. A special variant has involved use of helicopters as mobile adjustable fans. Operating costs are much higher and maintaining a low-flying circuit in pre-dawn darkness can be hazardous! (Photograph courtesy E.W. Hewett)

Radiation frosts are common in some horticultural regions of Australasia due to high radiative losses from earth to sky on still calm nights. The air at ground level becomes chilled by contact with radiating surfaces and drains downslope to form ‘frost pockets’ that are commonly 5°C colder than the surrounding countryside. One related outcome, especially on calm mornings, is formation of a temperature inversion. Upper layers of air (30–50 m above ground) remain warmer (5–15°C) than the air at tree level. Under these conditions, wind machines (Figure 14.21) can be used to drive the warmer air down into the crop and over the soil surface, displacing the cold air and countering radiative heat losses. Given a consistent layer of warm air within reach of these fans, one wind machine every 5–7 ha will protect an orchard against temperatures down to about –3°C. A combination of clean burning oil heaters plus wind machines is even more effective.

An alternative but remarkably effective method of alleviating frost damage depends upon the latent heat of freezing (Figure 14.20 and Frontispiece to Chapter 14). Stored irrigation water is typically around 10°C, and as it cools on irrigated surfaces each gram of water will release about 10 calories of heat. On top of that, the latent heat of fusion adds a further 80 calories. In effect, a thousand litres of water supplies as much heat by this means as complete combustion of 12 L of oil. While both water and ice phases are present on trees (see the Frontispiece to this chapter) and ice is continuing to form, plant tissues so encased will remain at 0°C, just above freezing point for plant tissues. Overhead sprinklers are thus used with good effect to prevent frost damage, but application rate has to be closely controlled. Too little water and plants freeze, too much water and orchards become waterlogged, thereby exchanging one damaging condition for another. Application rates between 2 and 6 mm h–1 will generally suffice to prevent freezing damage to crops at air temperatures down to –6°C.