Comparing above-ground biomass among forest types in the Wet Tropics: small stems and plantation types matter in carbon accounting
Preece, Noel D., Crowley, Gabriel M., Lawes, Michael J., and Van Oosterzee, Penny (2012) Comparing above-ground biomass among forest types in the Wet Tropics: small stems and plantation types matter in carbon accounting. Forest Ecology and Management, 264. pp. 228-237.
PDF (Published Version)
- Published Version
Restricted to Repository staff only |
Abstract
Revenue from carbon credits from rainforest stands could encourage reforestation for biodiversity conservation on private land in north-eastern Queensland, Australia. Current models and allometrics for estimating carbon, however, are not calibrated against sites in the region and underestimate carbon stocks. We assess the accuracy of the two accepted methods to estimate carbon stocks in Australian rainforests: FullCAM and the Keith et al. (2000) allometric. We also assess the effect of FullCAM's discounting of small stems (2.5–10 cm) to carbon stocks, and compare the carbon benefits of the three reforestation methods in the region to identify planting configurations with the best carbon sequestration potential. We sampled 27 rainforest stands in north-eastern Queensland. Using these data we calculated above-ground biomass (AGB) using the Keith allometric and derived the above-ground carbon (AGC). We compared our estimates across three reforestation methods with the FullCAM modelled estimates for the same sites, and with estimates derived from two global rainforest allometrics (Brown, 1997 and [Chave et al., 2005]). The Keith allometric estimated that planted forests yielded on average 20 Mg of tradable carbon ha−1 y−1 (i.e. CO2-equivalent), with no differences between plantation forests and environmental plantings, although the former had more large diameter stems. Small stems (<10 cm) accounted for 15.1% of AGB in plantings <20 years old. However, even excluding these, the estimates using the Keith allometric were 19.5% greater than those of FullCAM; the Chave allometric 40.4% greater; and the Brown allometric 54.9% greater. More thorough forest mensuration using actual tree volumes and densities is required to determine a biomass allometric function for rainforests in the region. Until then, we recommend the Chave allometric function. It provides intermediate values, is based on the widest range of tropical trees and has been shown to be accurate away from the sites used for its development. This study demonstrates the inadequacy of current methods for estimating carbon stocks in rainforest plantings in north-eastern Queensland. A tailored allometric and the re-parameterisation of FullCAM is needed to reflect both the region’s environmental characteristics and the vegetation structure of young reforestation stands. Current estimates deprive landholders of financial incentives and underestimate the national greenhouse gas benefits of tree planting in the Wet Tropics.
Item ID: | 19165 |
---|---|
Item Type: | Article (Research - C1) |
ISSN: | 1872-7042 |
Keywords: | rainforest, carbon sequestration, reforestation, plantation, allometrics |
Date Deposited: | 27 Feb 2012 07:17 |
FoR Codes: | 05 ENVIRONMENTAL SCIENCES > 0501 Ecological Applications > 050102 Ecosystem Function @ 50% 05 ENVIRONMENTAL SCIENCES > 0503 Soil Sciences > 050301 Carbon Sequestration Science @ 50% |
SEO Codes: | 97 EXPANDING KNOWLEDGE > 970105 Expanding Knowledge in the Environmental Sciences @ 100% |
Downloads: |
Total: 7 |
More Statistics |