Development of an Individual-Tree Basal Area Increment Model using a Linear Mixed-Effects Approach

In the context of uneven-aged mixed-species forest management, an individual-tree basal area increment model considering forest structural diversity was developed for oaks (Quercus spp.) using data collected from 11,860 observations in 845 sample plots from the 7th (2004), 8th (2009), and 9th (2014) Chinese National Forest Inventory in Hunan Province, south-central China. Since the data was longitudinal and had a nested structure, we used a linear mixed-effects approach to construct the model. We also used the variance function and an autocorrelation structure to describe within-plot heteroscedasticity and autocorrelation. Finally, the optimal mixed-effects model was determined based on the Akaike information criterion (AIC), Bayesian information criterion (BIC), log-likelihood (Loglik) and the likelihood ratio test (LRT). The results indicate that the reciprocal transformation of initial diameter at breast height (1/DBH), relative density index (RD), number of trees per hectare (NT), elevation (EL) and Gini coefficient (GC) had a significant impact on the individual-tree basal area increment. In comparison to the basic model developed using least absolute shrinkage and selection operator (LASSO) regression, the mixed-effects model performance was greatly improved. In addition, we observed that the heteroscedasticity was successfully removed by the exponent function and autocorrelation was significantly corrected by AR(1). Our final model also indicated that forest structural diversity significantly affected tree growth and hence should not be neglected. We hope that our final model will contribute to the scientific management of oak-dominated forests.

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An individual-tree linear mixed-effects model for predicting the basal area increment of major forest species in Southern Europe

Forest Systems ◽

10.5424/fs/2020293-15500 ◽

2020 ◽

Vol 29 (3) ◽

pp. e019

Author(s):

Lucio Di Cosmo ◽

Diego Giuliani ◽

Maria Michela Dickson ◽

Patrizia Gasparini

Keyword(s):

Forest Inventory ◽

Basal Area ◽

Ordinary Least Squares ◽

Mixed Effects ◽

Forest Growth ◽

Mixed Effects Model ◽

Basal Area Increment ◽

Individual Tree ◽

Diameter At Breast Height ◽

Breast Height

Aims of the study. Assessment of growth is essential to support sustainability of forest management and forest policies. The objective of the study was to develop a species-specific model to predict the annual increment of tree basal area through variables recorded by forest surveys, to assess forest growth directly or in the context of more complex forest growth and yield simulation models.Area of the study. Italy.Material and methods. Data on 34638 trees of 31 different forest species collected in 5162 plots of the Italian National Forest Inventory were used; the data were recorded between 2004 and 2006. To account for the hierarchical structure of the data due to trees nested within plots, a two-level mixed-effects modelling approach was used.Main results. The final result is an individual-tree linear mixed-effects model with species as dummy variables. Tree size is the main predictor, but the model also integrates geographical and topographic predictors and includes competition. The model fitting is good (McFadden’s Pseudo-R2 0.536), and the variance of the random effect at the plot level is significant (intra-class correlation coefficient 0.512). Compared to the ordinary least squares regression, the mixed-effects model allowed reducing the mean absolute error of estimates in the plots by 64.5% in average.Research highlights. A single tree-level model for predicting the basal area increment of different species was developed using forest inventory data. The data used for the modelling cover 31 species and a great variety of growing conditions, and the model seems suitable to be applied in the wider context of Southern Europe. Keywords: Tree growth; forest growth modelling; forest inventory; hierarchical data structure; Italy.Abbreviations used: BA - basal area; BAI – five-year periodic basal area increment; BALT - basal area of trees larger than the subject tree; BASPratio - ratio of subject tree species basal area to stand basal area; BASTratio - ratio of subject tree basal area to stand basal area; CRATIO - crown ratio; DBH – diameter at breast height ; DBH0– diameter at breast height corresponding to five years before the survey year; DBHt– diameter at breast height measured in the survey year; DI5 - five-year, inside bark, DBH increment; HDOM - dominant height; LULUCF - Land Use, Land Use Changes and Forestry; ME - mean error; MAE - mean absolute error; MPD - mean percent deviation; MPSE - mean percent standard error; NFI(s) - National Forest Inventory/ies; OLS - ordinary least squares regression; RMSE - root mean squared error; UNFCCC - United Nation Framework Convention on Climate Change.

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Individual tree diameter increment model for managed even-aged stands of ponderosa pine throughout the western United States using a multilevel linear mixed effects model

Forest Ecology and Management ◽

10.1016/j.foreco.2008.04.046 ◽

2008 ◽

Vol 256 (3) ◽

pp. 438-445 ◽

Cited By ~ 41

Author(s):

Fabian C.C. Uzoh ◽

William W. Oliver

Keyword(s):

United States ◽

Ponderosa Pine ◽

Mixed Effects ◽

Western United States ◽

Individual Tree ◽

Linear Mixed Effects Model ◽

Linear Mixed Effects ◽

Tree Diameter ◽

Diameter Increment ◽

Diameter Increment Model

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Intertree competition in uneven-aged ponderosa pine stands

Canadian Journal of Forest Research ◽

10.1139/x03-096 ◽

2003 ◽

Vol 33 (9) ◽

pp. 1719-1726 ◽

Cited By ~ 19

Author(s):

C W Woodall ◽

C E Fiedler ◽

K S Milner

Keyword(s):

Pinus Ponderosa ◽

Ponderosa Pine ◽

Basal Area ◽

Growth Efficiency ◽

Tree Size ◽

Basal Area Increment ◽

Diameter Class ◽

Individual Tree ◽

Sapwood Area ◽

Competition Indices

Intertree competition indices and effects were examined in 14 uneven-aged ponderosa pine (Pinus ponderosa var. scopulorum Engelm.) stands in eastern Montana. Location, height, diameter at breast height (DBH), basal area increment, crown ratio, and sapwood area were determined for each tree (DBH >3.8 cm) on one stem-mapped plot (0.2-0.4 ha) in each sample stand. Based on tree locations, various competition indices were derived for each sample tree and correlated with its growth efficiency by diameter class. In addition, trends in individual tree attributes by diameter class and level of surrounding competition were determined. For trees with a DBH <10 cm, growth efficiency was most strongly correlated with the sum of surrounding tree heights within 10.6 m. The index most highly correlated for larger trees was the sum of surrounding basal area within 6.1 m. Regardless of tree size, individual tree growth efficiency, basal area increment, and crown ratio all decreased under increasing levels of competition, with the effect more pronounced in smaller trees. These results suggest that individual trees in uneven-aged stands experience competition from differing sources at varying scales based on their size, with response to competition diminishing as tree size increases.

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Genetic variation in basal area increment phenology and its correlation with growth rate in loblolly and slash pine families and clones

Canadian Journal of Forest Research ◽

10.1139/x05-309 ◽

2006 ◽

Vol 36 (4) ◽

pp. 961-971 ◽

Cited By ~ 8

Author(s):

Veronica I Emhart ◽

Timothy A Martin ◽

Timothy L White ◽

Dudley A Huber

Keyword(s):

Growth Rate ◽

Growth Traits ◽

Negative Impact ◽

Basal Area ◽

Pinus Elliottii ◽

Slash Pine ◽

Basal Area Increment ◽

Individual Tree ◽

Basal Area Growth ◽

Area Growth

We quantified basal area increment phenology over a 2-year period in one loblolly pine (Pinus taeda L.) and four slash pine (Pinus elliottii Engelm. var. elliottii) full-sib families propagated as rooting cuttings. In 2002, basal area growth started in March and stopped in October for both species, while in 2003, initiation and cessation occurred 2 weeks earlier for all families. In both years, peaks in basal area increment occurred in short (23 week) periods in the early spring for all families, followed by linear basal area growth until cessation. While there were significant size differences among taxa (species and families) at age 6 and 7 years, genetic differences in basal area growth rate were only expressed during short, discrete time periods primarily in the spring and fall. Basal area growth rate increased during periods when water soil availability increased (up to 300 mm), but an excess in water availability in the soil had a negative impact on growth. Within-family individual-tree broad-sense heritabilities ranged from 0.01 to 0.37 for all traits. In general, heritabilities were higher for growth traits than for phenological traits for all families. Both the strength and direction of correlation estimates of phenological traits with growth rate varied across families and years.

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Linear mixed-effects models and calibration applied to volume models in two rotations of Eucalyptus grandis plantations

Canadian Journal of Forest Research ◽

10.1139/cjfr-2014-0435 ◽

2016 ◽

Vol 46 (1) ◽

pp. 132-141 ◽

Cited By ~ 9

Author(s):

Edgar de Souza Vismara ◽

Lauri Mehtätalo ◽

João Luis Ferreira Batista

Keyword(s):

Mixed Model ◽

Eucalyptus Grandis ◽

Small Variation ◽

Mixed Effects ◽

Mixed Effects Model ◽

Stem Form ◽

Individual Tree ◽

Linear Mixed Effects ◽

Fixed Part ◽

Volume Models

This work presents applications of the linear mixed-effects model calibration to predict individual tree volumes of Eucalyptus grandis W. Hill ex Maiden plantations on first and second rotations located in different farms of the same region in São Paulo, Brazil. We started with the Schumacher and Hall equation in its linearized form to develop our mixed-effects model. Some parameters were considered as random among the different farms, and the calibration was made at the farm level using a small number of sample trees. The approach was developed for univariate models of the first rotation, which were calibrated with first- and second-rotation trees, and for bivariate models of the two rotations, which were calibrated with first-rotation trees. The results showed that the calibrated mixed model provides more reliable predictions than the fixed part of the model alone; however, the benefit is only moderate due to the rather small variation of the stem form between farms and rotations. The results indicate that the approach can reduce the measurement requirements on second-rotation crops.

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Predicting basal area increment in a spatially explicit, individual tree model: a test of competition measures with black spruce

Canadian Journal of Forest Research ◽

10.1139/x02-122 ◽

2003 ◽

Vol 33 (3) ◽

pp. 435-443 ◽

Cited By ~ 50

Author(s):

Daniel Mailly ◽

Sylvain Turbis ◽

David Pothier

Keyword(s):

Black Spruce ◽

Basal Area ◽

Basal Area Increment ◽

Spatially Explicit ◽

Competition Index ◽

Individual Tree ◽

Spatial Indices ◽

Crown Shape ◽

Spruce Stands ◽

Competition Indices

A current trend in the development of forest stand models is to use spatially explicit, individual-tree information to simulate forest dynamics with increased accuracy. By adding spatial information, such as tree coordinates, crown shape, and size, it is hypothesized that the computation of the model's driving function is improved over traditional competition indices, especially when simulating multistoried stands. In this paper, we want to test whether computationally demanding competition indices outperform traditional indices in predicting mean basal area increment. The study was undertaken in old, uneven-aged black spruce (Picea mariana (Mill.) BSP) stands in northeastern Quebec, Canada. The predictability of individual tree growth rates was related to crown dimensions and other stand and tree variables measured in the field. Data were collected from 90 trees coming from stands of varying site quality (range 9.616.5 m height at 50 years, age taken at 1 m) and age (range 66257 years). Hegyis's distance-dependent competition index was found to be the most strongly correlated competition measure (r = 0.57) with mean basal area growth of the last 20 years. This value, 12% higher than the value obtained from the best distance-independent competition index (r = 0.45), clearly shows that precision gains can be achieved when estimating basal area increment with spatial indices in black spruce stands. Using indices computed from virtual hemispherical images did not prove superior to simpler distance-dependent indices based on their individual correlations with basal area increment. When included in a basal area increment model for the last 20 years of growth, however, the gains in precision were comparable to Hegyi's competition index. This indicates that indices derived from a hemispherical approach have some value in spatially explicit forest simulations models but that further tests using younger stands are needed to confirm this result in black spruce stands.

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Individual tree basal area increment models for broadleaved forests in Bhutan

Forestry An International Journal of Forest Research ◽

10.1093/forestry/cpw065 ◽

2017 ◽

Cited By ~ 6

Author(s):

Jigme Tenzin ◽

Karma Tenzin ◽

Hubert Hasenauer

Keyword(s):

Basal Area ◽

Basal Area Increment ◽

Individual Tree

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Effects of different sources and rates of sulphur on the growth and foliar nutrition of nitrogen-fertilized lodgepole pine

Canadian Journal of Forest Research ◽

10.1139/x03-239 ◽

2004 ◽

Vol 34 (3) ◽

pp. 728-743 ◽

Cited By ~ 10

Author(s):

R P Brockley

Keyword(s):

Tree Growth ◽

Lodgepole Pine ◽

Basal Area ◽

Application Rate ◽

Basal Area Increment ◽

Individual Tree ◽

Modest Improvement ◽

S Application ◽

Different Sources ◽

Foliar S

The effects of nitrogen (N) fertilizer, alone and in combination with different sources and rates of sulphur (S), on foliar nutrients and tree growth are reported over 3 and 6 years, respectively. After 3 years, foliar S levels in the N+S treatments were significantly higher than those in N-only treatments at all six study locations. Temporal patterns of foliar S response varied significantly with S source. When applied as ammonium sulphate (AS), foliar levels increased sharply in year 1 and slowly declined over the next 2 years. Conversely, additions of elemental S (S0), in the form of S0 sodium bentonite fertilizer, usually did not increase foliar S concentration in year 1, but had increasingly positive effects on foliar S in years 2 and 3. An increase in the S application rate from 50 to 100 kg/ha resulted in only a modest improvement in foliar S concentration for both S sources. Differences in individual-tree basal area increment between N and N+S treatments were statistically significant in only two of six trials. Prefertilization levels of foliar N and sulphate S, and probable induced deficiencies of nonadded nutrients following N fertilization, largely explained basal area and height responses to N and N+S additions at the six study sites. Despite delayed oxidation, S0 was as effective as the more readily available AS in stimulating radial growth after 6 years. However, the relative effectiveness of S source varied with S application rate in two trials. In both cases, basal area increment was positively related to application rate when S was applied as AS. Conversely, the effect of application rate was distinctly negative when S0 was applied. Despite large differences in short-term availability of AS and S0, the results from this study support the conclusion that the two S sources are likely equally effective in alleviating S deficiencies and in promoting tree growth of S-deficient lodgepole pine (Pinus contorta Dougl. var. latifolia Engelm.).

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