Development and testing of allometric equations for estimating above-ground biomass of mixed-species environmental plantings


Autoria(s): Paul, K. I.; Roxburgh, S. H.; England, J. R.; Ritson, P.; Hobbs, T.; Brooksbank, K.; John Raison, R.; Larmour, J. S.; Murphy, S.; Norris, J.; Neumann, C.; Lewis, T.; Jonson, J.; Carter, J. L.; McArthur, G.; Barton, C.; Rose, B.
Data(s)

2013

Resumo

To quantify the impact that planting indigenous trees and shrubs in mixed communities (environmental plantings) have on net sequestration of carbon and other environmental or commercial benefits, precise and non-biased estimates of biomass are required. Because these plantings consist of several species, estimation of their biomass through allometric relationships is a challenging task. We explored methods to accurately estimate biomass through harvesting 3139 trees and shrubs from 22 plantings, and collating similar datasets from earlier studies, in non-arid (>300mm rainfallyear-1) regions of southern and eastern Australia. Site-and-species specific allometric equations were developed, as were three types of generalised, multi-site, allometric equations based on categories of species and growth-habits: (i) species-specific, (ii) genus and growth-habit, and (iii) universal growth-habit irrespective of genus. Biomass was measured at plot level at eight contrasting sites to test the accuracy of prediction of tonnes dry matter of above-ground biomass per hectare using different classes of allometric equations. A finer-scale analysis tested performance of these at an individual-tree level across a wider range of sites. Although the percentage error in prediction could be high at a given site (up to 45%), it was relatively low (<11%) when generalised allometry-predictions of biomass was used to make regional- or estate-level estimates across a range of sites. Precision, and thus accuracy, increased slightly with the level of specificity of allometry. Inclusion of site-specific factors in generic equations increased efficiency of prediction of above-ground biomass by as much as 8%. Site-and-species-specific equations are the most accurate for site-based predictions. Generic allometric equations developed here, particularly the generic species-specific equations, can be confidently applied to provide regional- or estate-level estimates of above-ground biomass and carbon. © 2013 Elsevier B.V.

Identificador

Paul, K. I. and Roxburgh, S. H. and England, J. R. and Ritson, P. and Hobbs, T. and Brooksbank, K. and John Raison, R. and Larmour, J. S. and Murphy, S. and Norris, J. and Neumann, C. and Lewis, T. and Jonson, J. and Carter, J. L. and McArthur, G. and Barton, C. and Rose, B. (2013) Development and testing of allometric equations for estimating above-ground biomass of mixed-species environmental plantings. Forest Ecology and Management, 310 . pp. 483-494. ISSN 03781127 (ISSN)

http://era.daf.qld.gov.au/4285/

Relação

http://dx.doi.org/10.1016/j.foreco.2013.08.054

http://era.daf.qld.gov.au/4285/

Palavras-Chave #Research. Experimentation #Agriculture and the environment #Exploitation and utilization
Tipo

Article

PeerReviewed