1. Midrotation effects of biosolids application on tree growth and wood properties in a Pinus radiata plantation
- Author
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Russell B. McKinley, Craig R. Fisher, Mark O. Kimberley, John R. Lee, Pat D. F. Hodgkiss, Guna N. Magesan, T. W. Payn, Peter J. Wilks, Hailong Wang, Don L. Mcconchie, and John M. Lavery
- Subjects
Global and Planetary Change ,Stocking ,Animal science ,Ecology ,Biosolids ,biology ,Standard treatment ,Pinus radiata ,Total nitrogen ,Environmental science ,Forestry ,biology.organism_classification - Abstract
Biosolids have been applied to a 1000 ha Pinus radiata D. Don plantation in Nelson, New Zealand, since 1996. A research trial was established in a 6-year-old stand in 1997 with three stocking rates (300, 450, and 600 stems·ha–1), and biosolids were applied at ages 6, 9, and 12 years at three application rates based on total nitrogen loading at each application of 0 (control), 300 (standard), and 600 kg N·ha–1 (high). The aim of this study was to evaluate the responses of tree growth rate and wood properties to biosolids application at midrotation. Since the trial was established, tree diameter and volume increment in the biosolids-treated plots have increased markedly. This increase in growth is being maintained at midrotation, with the year 13–14 volume increment being 40% greater in the standard treatment than the control, and 46% greater in the high treatment than the control. The response in growth has occurred across all stockings in the trial, although there has been a tendency for the difference in growth between the standard and high rates to be greater at higher stockings. A small but significant reduction of basic wood density and standing-tree sonic velocity in P. radiata was found in the biosolids treatments. Although the reductions in wood density and stiffness may slightly decrease the average log value in biosolids treated trees, this will be greatly outweighed by the large increase in wood volume.
- Published
- 2006
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