Abstract
This study was conducted to examine the characteristics of dominant height growth and develop site index models for clonal hybrid aspen plantations in southern Finland. Data were obtained from repeatedly measured clonal hybrid aspen trials with varying initial spacing: 2.5 m × 2.5 m (1600 trees ha−1), 3.0 m × 3.0 m (1200 trees ha−1), 3.5 m × 3.5 m (800 trees ha−1), and 5.0 m × 5.0 m (400 trees ha−1). The total number of data points in the analysis was 389 for the age of 3–20. Within the range of observed data, the dominant height grew linearly over age and was significantly different due to the initial planting density; growth was higher when the planting was denser. Using the initial density effect, dominant height growth models were developed based on the Chapman-Richards function through nonlinear mixed-effects modelling. The density variable was found to be statistically the best variable when modifying only the shape parameter of the Chapman-Richards function. All fixed-effects were significant for both models, with and without the density effect. The residual plots of the model did not show any bias over the predicted value, stand age or planting density. The predicted dominant height was higher with increasing initial density. The predicted dominant height increment was faster with higher planting densities until the age of 14 years. The anamorphic site index curves were presented with base age of 20 years including the planting density effect. The overall pattern of site index curves was consistent with those observed in previous studies. The models developed in this study can be used to estimate the dominant height and site index of hybrid aspen plantations in southern Finland.
Highlights
Hybrid aspen, a hybrid between the European aspen and North American trembling aspen (Populus tremula L. × P. tremuloides Michx.), was introduced in Finland at the beginning of 1950s in order to supply raw materials for the matchwood industry
To develop the dominant height growth model in the early analysis, we considered several representative growth functions in forest bio metrics such as Schumacher, Chapman-Richards, Hossfeld, and Gom pertz
This strong linearity was the basis for the selection of the Chapman-Richards function for site index development in the later part of the analysis
Summary
A hybrid between the European aspen and North American trembling aspen (Populus tremula L. × P. tremuloides Michx.), was introduced in Finland at the beginning of 1950s in order to supply raw materials for the matchwood industry. Breeding and research activities with hybrid aspen decreased in the 1980s due to the decline of the matchwood industry (Tullus et al, 2012). Hybrid aspen received renewed attention during the 1990s, this time by the pulp and paper industry, because of its specific fiber char acteristics and its predominant growth rate that was shown earlier (Beuker, 2000). Hybrid aspen provides suitable raw materials for plywood and veneer (Herajarvi and Junkkonen, 2006). Due to its high growth rate and resulting short rotation period, hybrid aspen may be considered suitable for bioenergy (Rytter and Stener, 2005). Hybrid aspen could be recommended as an alterna tive hardwood species for southern Finland
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