Open AccessRoot Regeneration of Fall-Lifted White Spruce Nursery Stock in Relation to Soil Moisture Content
Author(s) -
R. J. Day,
G. R. MacGillivray
Publication year - 1975
Publication title -
the forestry chronicle
Language(s) - English
Resource type - Journals
eISSN - 1499-9315
pISSN - 0015-7546
DOI - 10.5558/tfc51196-5
Subject(s) - transplanting , water content , sowing , elongation , regeneration (biology) , moisture , horticulture , moisture stress , agronomy , field capacity , soil water , botany , environmental science , biology , chemistry , soil science , geology , materials science , geotechnical engineering , ultimate tensile strength , organic chemistry , microbiology and biotechnology , metallurgy
The root regenerating potential of fall-lifted 2+0 white spruce nursery stock is described after transplanting into soil-maintained at 8, 10 and 15% soil moisture content (SMC) in glass fronted root boxes. At 15% SMC (0.1 bar soil moisture tension), which is close to field capacity, root regeneration began 10 days after transplanting and root elongation continued at a high rate for the remainder of a 40-day study period. At 10% SMC (0.6 bar SMT) root regeneration was delayed until 20 days after transplanting and root elongation was at a slower rate. At 8% SMC (1.5 bars) root regeneration and elongation was negligible. Plant moisture stress measured at 40 days was least when root regeneration was most and vice versa. The results suggest that field planting of white spruce in soils with moisture tensions of over 0.6 bar will be hazardous.
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