Carbon fraction of Pinus radiata biomass components within New Zealand

Carbon fraction of Pinus radiata biomass components within New Zealand

Background Carbon fractions are applied to dry matter estimates to calculate carbon stocks in forest stands. A default carbon fraction has been applied to planted forest species in New Zealand; however, various studies have shown that the carbon fraction can differ among species and between tree com...

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Bibliographic Details
Published in:New Zealand journal of forestry science Vol. 48; no. 1; pp. 1 - 8
Main Authors: Beets, Peter N., Garrett, Loretta G.
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-12-2018
SCION
Scion
Subjects:
Background radiation
Bark
Biomass
Biomedical and Life Sciences
Branches
Carbon
Carbon fraction
Carbon stocks
Cones
Douglas-fir
Dry matter
Drying
Estimates
Forestry
Forests
Harvesting
Life Sciences
Moisture content
Pine needles
Pine trees
Radiata pine
Research Article
Roots
Temperature
Water content
Weight
Wood
New Zealand
Carbon stocks
Carbon fraction
Biomass
Douglas-fir
Radiata pine
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Summary:Background Carbon fractions are applied to dry matter estimates to calculate carbon stocks in forest stands. A default carbon fraction has been applied to planted forest species in New Zealand; however, various studies have shown that the carbon fraction can differ among species and between tree components. New Zealand-specific carbon fractions were, therefore, developed to improve the accuracy of carbon stock estimates for international reporting purposes. Methods Carbon fractions were analysed using subsamples of tree components from 684 stems, 1125 crowns and 70 root systems from 14 sites distributed throughout New Zealand. The carbon fractions for needles, branches, cones, stem wood, stem bark and roots reported by the laboratory at a drying temperature of 104 °C were corrected using published procedures to the moisture content attained after drying subsamples to constant weight at 70 °C, the drying temperature used in New Zealand biomass studies. Results Carbon fraction averaged 0.514 g C g −1 dm in needles, 0.507 g C g −1 dm in branches, 0.519 g C g −1 dm in cones, 0.498 g C g −1 dm in stem wood, 0.501 g C g −1 dm in roots, and 0.539 g C g −1 dm in stem bark of radiata pine. The stem bark carbon fraction increased asymptotically with stand age. Conclusions The default carbon fraction (0.50 g C g −1 dm) used previously in the FCP model underestimates carbon stocks in New Zealand’s planted forest estate. Applying carbon fractions derived from New Zealand biomass studies will increase carbon stock estimates for the planted forest land by approximately 1% and also increase estimates of removals during harvesting operations. Information on in-forest debarking activities will further improve estimates of removals associated with harvesting.
ISSN:1179-5395
0048-0134
1179-5395
DOI:10.1186/s40490-018-0119-5