Estimating wood volume of the stem and commercial branches of hard maple using a taper model with latent variables

• Western Mensurationists’ Meeting

• June 21-23, 2009

• Vancouver, Washington

Modelling wood biomass/carbon in Ontario

• Carbon likely will be an important component on the global commodity market

• Future trade disputes will likely be related to carbon and its markets

• Future sale prices of wood in Ontario may be based on harvested forest carbon

• At the Ontario Forest Research Institute, Sault Ste. Marie, individual tree/stand-level biomass/carbon projects are underway (Great Lakes Forest Carbon Program – in partnership with the Michigan State University)

• Good taper models and good specific gravity models are needed to support the Program

Good stem profile model crucial for a tree-level quantification of carbon

Wood volume of individual tree

• Taper models are commonly used to estimate individual tree wood volume, particularly to quantify timber roundwood products

• Following models were found to perform well: Kozak (1969, 1988, 1994, 2002), Max and Burkhart (1976), Flewelling and Raynes (1993), Valentine and Gregoire (2001), Zakrzewski (1999)

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• * LeMay, V., Rathbun, L. and A. Kozak. 2008. Models of tree taper for selected species and BEC zones of British Columbia. Report for Min. For. and Range, Vancouver, BC.

Range of stem profile curves as a function of β in a flexible one-coefficient variant of a variable-form taper model used in Michigan forest inventories (Zakrzewski 2004)*

Extension of the concept (HDR): Maximum Slimness Line

Taper of palm “tree”

Can a single taper model provide yield information for multi-stem, branchy trees?

Two approaches to model trees with commercial branches: 1) “Multi-taper approach” 2) “A single-stem taper approach” used to define tree cumulative volume including volume of branches

• Flewelling (2004)* pioneer study generated an algorithm for California hardwoods that predicts taper for individual pieces of stems.

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• *Flewelling, J. 2004. Compatible taper algorithms for California hardwoods. Report prepared under USDA Forest Service contract.

Tree cumulative volume curve*

Latent asymptotes: multiasymptotic, polymorphic, base-age-invariant height growth model (Western Mensurationists Meeting, Rosario, WA 1991)

Reformulated taper model that requires only DBH as input variable as tree height is a latent variable (Zakrzewski 2009b)

The suggested solution is a framework for studying tree wood allocation strategy

Regression model was defined using OLS NLIN fit

Predicting tree wood volume (N = 109 per category)

Evaluation of latent heights using Hp sub-model for maples without commercial branches

Observed G_o vs. evaluated G_o

Regional frequencies as a base for amendments in timber cruising procedures

Conclusions

• In hard maple, trees of given total height and DBH, with commercial branches, contain more merchantable wood than those with the same respective sizes but of a single stem.

• A new approach, which involves tree height as a latent variable, was used to estimate wood volume for individual Ontario sugar maple stems and branches. The new approach can be potentially used as a modelling framework for research on influence of stand density on tree height and tree competitive status in a stand

• Total volume estimates obtained using models with and without height measurements were reasonable

• Results indicate that the traditional formulae based on H and DBH may not be appropriate for maple if wood in branches is not accounted for

• Results indicate that carbon in maple stands could be reliably inventoried using DBH-based biomass equations (with latent heights) if DBH-based taper model is integrated with the respective specific gravity model