Effects of climate on maximum size-density relationships in Western Canadian trembling aspen stands

Authors

Deokyu Kweon
Philip G. Corneau

Document Type

Article

Journal/Book Title/Conference

Forest Ecology and Management

Volume

406

Issue

1

First Page

281

Last Page

289

Publication Date

12-2017

Abstract

Maximum size-density relationships (MSDR) are examined in stands of trembling aspen (Populus tremuloides Michx.) in the boreal forest region of Alberta and Saskatchewan, Canada. Stochastic frontier function regression was used to develop the static self-thinning line, and a linear mixed-effects model was used to estimate the average dynamic self-thinning line from repeated measurements. Climate variables obtained from Climate WNA were included in our models. The static self-thinning line was steeper than Reineke’s slope (−1.605), while the average slope value of the dynamic self-thinning line was not different from −1.605. Increasing frost free period, summer heat moisture index, and mean coldest month temperature move the static self-thinning line downwards because these climate variables are linked to increases in evapotranspiration and drought exposure. For the average dynamic self-thinning line, degree days above 5 °C positively increases the intercept and summer heat moisture index has a negative effect on the intercept, but no effect on the slope for both climate variables. Results suggest that increasing summer dryness related to climate change may decrease the carrying capacity and productivity of aspen stands in portions of this region.

Recommended Citation

D. Kweon, P.G. Corneau. 2017. Effects of climate on maximum size-density relationships in Western Canadian trembling aspen stands. Forest Ecology and Management. 406 (1): 281-289