Summary:
Published in Canadian Journal of Forest Research 25: 1738-1745
Two experiments were designed to test the relationship between water content and frost tolerance in stems of hardwood seedlings during the frost hardening process. In the first experiment, 3-month-old container-grown yellow birch (Betula alleghaniensis Britton) seedlings were submitted to a decreasing temperature regime in a 8-h (short day, SD) or 16-h (long day, LD) photoperiod in growth chambers. In the second experiment, 3-month-old container-grown red oak (Quercus rubra L.), bur oak (Quercus macrocarpa Michx.), and yellow birch seedlings were naturally cold hardened in a production polyhouse. To estimate frost tolerance, freezing tests were performed on whole seedlings (experiment 1) or on the upper 5 cm of the stem apex (experiment 2), and stem damage was visually estimated. Water content of the apex (5 cm) was expressed as the ratio of dry mass over fresh mass (DM/FM) for both experiments. Frost tolerance and DM/FM increased during the course of both experiments. In the growth-chamber experiment, SD seedlings hardened deeper than LD ones (-19.2°C for SD versus -15.7°C for LD), and DM/FM was higher for SD after 60 days of photoperiod treatment. In the polyhouse experiment, bur oak, yellow birch, and red oak reached a frost tolerance of -26.7, -25.1, and -20.4°C, respectively, on November 2. The three species had DM/FM ratios of about 50% on November 2. For both experiments. DM/FM values higher than 45% corresponded to seedlings with a frost tolerance of -10°C or lower.
Sector(s):
Forests
Catégorie(s):
Scientific Article
Theme(s):
Forest Ecology, Forestry Research, Forests
Departmental author(s):
Author(s):
CALMÉ, Sophie, Hank A. MARGOLIS, Francine J. BIGRAS et Daniel MAILLY
Year of publication:
1995
Format:
PDF available upon request
How to get the publication:
Keyword(s):
frost, tolerance, hardwood, seedling, Québec, forest ecology, écologie forestière, tolérance, gel, feuillus, régénération