Developing general allometric relationships for regional estimates of carbon sequestration - an example using 'Eucalyptus pilularis' from seven contrasting sites

Montagu, KD; Duttmer, K; Barton, CVM; Cowie, Annette

doi:10.1016/j.foreco.2004.09.003

Author(s)

Montagu, KD

Duttmer, K

Barton, CVM

Cowie, Annette

Publication Date

2005

Abstract

General non-site-specific allometric relationships are required for the conversion of forest inventory measurements to regional scale estimates of forest carbon sequestration. To determine the most appropriate predictor variables to produce a general allometric relationship, we examined 'Eucalyptus pilularis' aboveground biomass data from seven contrasting sites. Predictor variables included diameter at breast height (dbh), stem volume, dbh² × H, dbh × H and height (H). The data set contained 105 trees, ranging from 6 to over 20,000 kg tree⁻¹, with dbh ranging from 5 to 129 cm. We observed significant site differences in (1) partitioning of biomass between the stem, branch wood and foliage; (2) stem wood density and (3) relationship between dbh and height. For all predictor variables, site had a significant effect on the allometric relationships. Examination of the model residuals of the site-specific and general relationship indicated that using dbh alone as the predictor variable produced the most stable general relationship. Furthermore, the apparent site effect could be removed by the addition of a constant value to the measured diameter (dbh + 1), to account for the differing diameter distribution across the seven sites. Surprisingly, the inclusion of height as a second predictor variable decreased the performance of the general model. We have therefore demonstrated that for 'E. pilularis' a general allometric relationship using dbh alone as the predictor variable can be as accurate as site-specific allometry, whilst being applicable to a wide range of environments, management regimes and ages. This simplifies regional estimates of aboveground biomass from inventory measurements, eliminating the need for site-specific allometric relationships or modifiers such as height, wood density or expansion factors.

Citation

Forest Ecology and Management, 204(1), p. 115-129

ISSN

1872-7042

0378-1127

Link

https://hdl.handle.net/1959.11/9068

Language

en

Publisher

Elsevier BV

Title

Developing general allometric relationships for regional estimates of carbon sequestration - an example using 'Eucalyptus pilularis' from seven contrasting sites

Type of document

Journal Article

Entity Type

Publication

Author(s)	Montagu, KD Duttmer, K Barton, CVM Cowie, Annette
Publication Date	2005
Abstract	General non-site-specific allometric relationships are required for the conversion of forest inventory measurements to regional scale estimates of forest carbon sequestration. To determine the most appropriate predictor variables to produce a general allometric relationship, we examined 'Eucalyptus pilularis' aboveground biomass data from seven contrasting sites. Predictor variables included diameter at breast height (dbh), stem volume, dbh² × H, dbh × H and height (H). The data set contained 105 trees, ranging from 6 to over 20,000 kg tree⁻¹, with dbh ranging from 5 to 129 cm. We observed significant site differences in (1) partitioning of biomass between the stem, branch wood and foliage; (2) stem wood density and (3) relationship between dbh and height. For all predictor variables, site had a significant effect on the allometric relationships. Examination of the model residuals of the site-specific and general relationship indicated that using dbh alone as the predictor variable produced the most stable general relationship. Furthermore, the apparent site effect could be removed by the addition of a constant value to the measured diameter (dbh + 1), to account for the differing diameter distribution across the seven sites. Surprisingly, the inclusion of height as a second predictor variable decreased the performance of the general model. We have therefore demonstrated that for 'E. pilularis' a general allometric relationship using dbh alone as the predictor variable can be as accurate as site-specific allometry, whilst being applicable to a wide range of environments, management regimes and ages. This simplifies regional estimates of aboveground biomass from inventory measurements, eliminating the need for site-specific allometric relationships or modifiers such as height, wood density or expansion factors.
Citation	Forest Ecology and Management, 204(1), p. 115-129
ISSN	1872-7042 0378-1127
Link	https://hdl.handle.net/1959.11/9068
Language	en
Publisher	Elsevier BV
Title	Developing general allometric relationships for regional estimates of carbon sequestration - an example using 'Eucalyptus pilularis' from seven contrasting sites
Type of document	Journal Article
Entity Type	Publication

Developing general allometric relationships for regional estimates of carbon sequestration - an example using 'Eucalyptus pilularis' from seven contrasting sites

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