Effect of Thawing Time, Cooling Rate and Boron Nutrition on Freezing Point of the Primordial Shoot in Norway Spruce Buds

doi:10.1093/aob/mcl008

AOBPreview originally published online on February 7, 2006
Annals of Botany 2006 97(4):593-599; doi:10.1093/aob/mcl008

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Effect of Thawing Time, Cooling Rate and Boron Nutrition on Freezing Point of the Primordial Shoot in Norway Spruce Buds

MIKKO RÄISÄNEN¹^,*, TAPANI REPO² and TARJA LEHTO¹

¹ Faculty of Forestry, University of Joensuu, P.O. Box 111, FIN-80101 Joensuu, Finland and ² Finnish Forest Research Institute, Joensuu Research, P.O. Box 68, FIN-80101 Joensuu, Finland

^* For correspondence. E-mail mikko.raisanen{at}joensuu.fi

Received: 11 August 2005 Returned for revision: 5 October 2005 Accepted: 12 December 2005 Published electronically: 7 February 2006

• Background Effects of cooling rates on bud frost hardinesshave been studied but there is little information on bud responsesto thawing. Since the cell wall pore size has been found toincrease with boron (B) deficiency, B deficiency may affectthe supercooling ability of buds in winter.

• Methods The effects of duration of thawing time and rateof cooling on bud frost hardiness of Norway spruce (Picea abies)were studied in a B fertilization trial in February 2003 andMarch 2005. Frost hardiness of apical buds was determined bydifferential thermal analysis (DTA) and visual scoring of damage.

• Key Results In 2003, the freezing point of primordialshoots of buds (T_f), i.e. the low-temperature exotherm (LTE),was, on average, –39 °C when buds were thawed forless than 3 h and the T_f increased to –21 °C after18 h of thawing. During the first 4 h of thawing, the rate ofdehardening was 6 °C h^–1. In 2005, buds dehardenedlinearly from –39 °C to –35 °C at a rateof 0·7 °C h^–1. In 2003, different cooling ratesof 1–5 °C h^–1 had a minor effect on T_f but in2005 with slow cooling rates T_f decreased. In both samplings,at cooling rates of 2 and 1 °C h^–1, T_f was slightlyhigher in B-fertilized than in non-fertilized trees. By contrast,at very short thawing times in 2003, T_f was somewhat lower inB-fertilized trees.

• Conclusions There was little evidence of reduced frosthardiness in trees with low B status. This study showed thatbuds deharden rapidly when exposed to above-freezing temperaturesin winter, but if cooled again they reharden more slowly. Accordingto this study, rapid dehardening of buds has to be taken intoaccount in assessments of frost hardiness.

Key words: Differential thermal analysis, cold hardiness, Picea abies, apical bud, extra-organ freezing, thawing, winter thaws

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