A Methodology for Modelling Canopy Structure: An Exploratory Analysis in the Tall Wet Eucalypt Forests of Southern Tasmania

Date

2010

Authors

Scanlan, Ian
McElhinny, Chris
Turner, Perpetua

Journal Title

Journal ISSN

Volume Title

Publisher

MDPI Publishing

Abstract

A ground-based methodology is presented for spatially modelling forest canopy structure. Field measurements and allometric relationships are used to predict the profiles of free-growing tree crowns on the basis of stem diameter at breast height (dbh). These profiles are incorporated into three-dimensional canopy models using AutoCAD™ technical drawing software and field data describing the genus, dbh and relative positions of all trees greater than 10 cm dbh; critically, our models account for the effects of competition for light between neighbouring crowns. By horizontally partitioning the models, the presence of distinct strata and the dominant genera associated with each stratum can be identified. Our methodology is applicable to other forest ecosystems as a research tool for investigating changes in vertical structure, and for calibrating remote sensing technologies in order to map and monitor canopy structural variation across forested landscapes.

Description

Keywords

Keywords: Allometric relationship; AutoCad; Canopy model; Canopy structure; Eucalypt forest; Exploratory analysis; Field data; Field measurement; Forest canopy structure; Forest ecosystem; Forested landscapes; Ground based; Relative positions; Remote sensing techno AutoCAD; Foliage; Spatial models; Stratification; Tree crown

Citation

Source

Forests

Type

Journal article

Book Title

Entity type

Access Statement

License Rights

Restricted until

2037-12-31