GEOSTATISTICAL MODELLING OF BELOW- AND ABOVEGROUND CARBON STOCKS OF TEAK STANDS AT DIFFERENT AGES

GEOSTATISTICAL MODELLING OF BELOW- AND ABOVEGROUND CARBON STOCKS OF TEAK STANDS AT DIFFERENT AGES

Well managed teak stands can contribute towards mitigation of climate change by storing carbon in their solid wood products. However, spatial estimates of teak's potential carbon stocks is lacking in the support of precision forest management. The aim of this study was to estimate the carbon in...

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Bibliographic Details
Published in:Journal of tropical forest science Vol. 33; no. 2; pp. 105 - 112
Main Authors: Pfutz, IFP, Pelissari, AL, Rodrigues, CK, Caldeira, SF, Corte, APD
Format: Journal Article
Language:English
Published: Kuala Lumpur Forest Research Institute Malaysia 10-05-2021
Subjects:
Biomass
Carbon
Carbon dioxide
Carbon sequestration
Chemical elements
Climate change
Climate change mitigation
Estimates
Forest management
Geostatistics
Hardwoods
Modelling
Pulp
Thinning
Trees
Wood
Wood products
Brazil
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Summary:Well managed teak stands can contribute towards mitigation of climate change by storing carbon in their solid wood products. However, spatial estimates of teak's potential carbon stocks is lacking in the support of precision forest management. The aim of this study was to estimate the carbon in above- and belowground biomass of teak stands and predict their spatial variabilities. Tree data were measured biennially in 46 permanent plots of 213 ha, between 2nd and 12th year, in which thinning was performed at 5th, 8th and 11th year. Carbon stocks were estimated using equations, and geostatistical modelling was carried out by semivariance analyses and ordinary kriging method. Above-ground carbon mean values ranged between 2.95 and 59.10 t ha-1, with reduction to 57.61 t ha-1 after third thinning. Minimum and maximum belowground carbon mean values were 0.67 and 8.06 t ha-1 respectively, decreasing to 7.51 t ha-1 after last thinning. Carbon stocks increased over the years and showed spatial dependence, however, they were influenced by the thinning. Teak stands presented potential carbon stores since the carbon remained in their solid wood products, compared to other species used for energy, pulp and paper. This evidence showed the importance of teak in mitigating climate change.
ISSN:0128-1283
2521-9847
DOI:10.26525/jtfs2021.33.2.105