Journal
CANADIAN JOURNAL OF FOREST RESEARCH
Volume 45, Issue 8, Pages 998-1005Publisher
CANADIAN SCIENCE PUBLISHING, NRC RESEARCH PRESS
DOI: 10.1139/cjfr-2014-0353
Keywords
Michaelis-Menten; shade tolerance; soil resistance to penetration; stress conditions; underplanting
Categories
Funding
- FONDEF-CONICYT [D07I1034]
- FONDECYT [11110270]
- CONAF [015/2013]
- Oregon State University from the CONICYT Government of Chile
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We evaluated effects of topsoil scarification by heavy machinery on growth of two valuable, shade-intolerant tree species - Nothofagus dombeyi (Mirb.) Oerst. (evergreen and considered to be very plastic to different soil fertility levels) and Nothofagus alpina (Poepp. & Endl.) Oerst. (deciduous and considered to be sensitive to soil fertility) - seedlings that were underplanted in Nothofagus old-growth forests, which were subjected to shelterwood cuttings without the final cut in the Chilean Andes. We compared tree basal diameter growth as it responds to light availability and soil compaction (as measured by resistance to penetration) by fitting a growth model based on the Michaelis-Menten equation. Predicted growth of N. dombeyi was greater than N. alpina in high and low light levels; however, there were no significant differences between the species. Both species showed significant differences at high levels of penetration resistance (>2000 kPa). Differences for N. dombeyi occurred above similar to 40% in total light, and differences occurred for N. alpina above similar to 20% in total light. However, they were not different when compared at low and intermediate levels of penetration resistance. The results suggest that partial shelterwood cuts may provide adequate light levels to achieve appropriate growth of underplanted Nothofagus seedlings. However, if regeneration of N. alpina is desired, scarification of topsoil needs to be implemented with more caution in canopy openings, as traffic and soil removal by heavy machinery can have detrimental effects on growth of this species and other species that are more sensitive to soil compaction.
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