Non-equilibrium cooling of Poncirus trifoliata (L.) embryonic axes at various water contents.

The present study investigated the rate of temperature change within axes of Poncirus trifoliata during cooling and warming by various methods. Cooling rates ranged between 0.17 and 170 degree (C per second, and warming rates of 1.25 and 600 degree C per second were measured when axes were warmed at room temperature or in water at 40 degree C, respectively. Partial drying increased the cooling rate within axes in direct contact with the cryogen, but did not affect the cooling or warming rates within axes enclosed in a double layer of lightweight aluminium foil. The procedures described illustrate the orders of magnitude that separate extremes of the range of cooling or warming rates attained using methods commonly employed in cryopreservation studies. Quantifying these rates allows the relationship between cooling rate, water content and survival of hydrated embryonic axes to be explored.