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Laser scanning reveals potential underestimation of biomass carbon in temperate forest

Kim Calders (UGent) , Hans Verbeeck (UGent) , Andrew Burt, Niall Origo, Joanne Nightingale, Yadvinder Malhi, Phil Wilkes, Pasi Raumonen, Robert G. H. Bunce and Mathias Disney
(2022) ECOLOGICAL SOLUTIONS AND EVIDENCE. 3(4).
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Abstract
Quantifying climate mitigation benefits of biosphere protection or restoration requires accurate assessment of forest above-ground biomass (AGB). This is usually estimated using tree size-to-mass allometric models calibrated with harvested biomass data.Using three-dimensional laser measurements across the full range of tree size and shape in a typical UK temperate forest, we show that its AGB is 409.9 t ha(-1), 1.77 times more than current allometric model estimates. This discrepancy arises partly from the bias towards small trees in allometric model calibration: 50% of AGB in this forest was in less than 7% of the largest trees (stem diameter > 53.1 cm), all larger than the trees used to calibrate the widely used allometric model.We present new empirical evidence that the fundamental assumption of tree size-to-mass scale-invariance is not well-justified for this kind of forest. This leads to substantial biases in current biomass estimates of broadleaf forests, not just in the UK, but elsewhere where the same or similar allometric models are applied, due to overdependence on non-representative calibration data, and the departure of observed tree size-to-mass from simple size-invariant relationships.We suggest that testing the underlying assumptions of allometric models more generally is an urgent priority as this has wider implications for climate mitigation through carbon sequestration. Forests currently act as a carbon sink in the UK. However, the anticipated increase in forest disturbances makes the trajectory and magnitude of this terrestrial carbon sink uncertain. We make recommendations for prioritizing measurements with better characterized uncertainty to address this issue.
Keywords
three-dimensional modelling, allometry, biomass, carbon, climate, forests, laser scanning, cavelab, ABOVEGROUND BIOMASS, ALLOMETRIC MODELS, ASH DIEBACK, TREE MODELS, TERRESTRIAL, WOOD, SIZE, SINK, LEAF

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Citation

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MLA
Calders, Kim, et al. “Laser Scanning Reveals Potential Underestimation of Biomass Carbon in Temperate Forest.” ECOLOGICAL SOLUTIONS AND EVIDENCE, edited by Javier Cabello, vol. 3, no. 4, 2022, doi:10.1002/2688-8319.12197.
APA
Calders, K., Verbeeck, H., Burt, A., Origo, N., Nightingale, J., Malhi, Y., … Disney, M. (2022). Laser scanning reveals potential underestimation of biomass carbon in temperate forest. ECOLOGICAL SOLUTIONS AND EVIDENCE, 3(4). https://doi.org/10.1002/2688-8319.12197
Chicago author-date
Calders, Kim, Hans Verbeeck, Andrew Burt, Niall Origo, Joanne Nightingale, Yadvinder Malhi, Phil Wilkes, Pasi Raumonen, Robert G. H. Bunce, and Mathias Disney. 2022. “Laser Scanning Reveals Potential Underestimation of Biomass Carbon in Temperate Forest.” Edited by Javier Cabello. ECOLOGICAL SOLUTIONS AND EVIDENCE 3 (4). https://doi.org/10.1002/2688-8319.12197.
Chicago author-date (all authors)
Calders, Kim, Hans Verbeeck, Andrew Burt, Niall Origo, Joanne Nightingale, Yadvinder Malhi, Phil Wilkes, Pasi Raumonen, Robert G. H. Bunce, and Mathias Disney. 2022. “Laser Scanning Reveals Potential Underestimation of Biomass Carbon in Temperate Forest.” Ed by. Javier Cabello. ECOLOGICAL SOLUTIONS AND EVIDENCE 3 (4). doi:10.1002/2688-8319.12197.
Vancouver
1.
Calders K, Verbeeck H, Burt A, Origo N, Nightingale J, Malhi Y, et al. Laser scanning reveals potential underestimation of biomass carbon in temperate forest. Cabello J, editor. ECOLOGICAL SOLUTIONS AND EVIDENCE. 2022;3(4).
IEEE
[1]
K. Calders et al., “Laser scanning reveals potential underestimation of biomass carbon in temperate forest,” ECOLOGICAL SOLUTIONS AND EVIDENCE, vol. 3, no. 4, 2022.
@article{01GNS5NQKFF25VWXC60TZBVZGZ,
  abstract     = {{Quantifying climate mitigation benefits of biosphere protection or restoration requires accurate assessment of forest above-ground biomass (AGB). This is usually estimated using tree size-to-mass allometric models calibrated with harvested biomass data.Using three-dimensional laser measurements across the full range of tree size and shape in a typical UK temperate forest, we show that its AGB is 409.9 t ha(-1), 1.77 times more than current allometric model estimates. This discrepancy arises partly from the bias towards small trees in allometric model calibration: 50% of AGB in this forest was in less than 7% of the largest trees (stem diameter > 53.1 cm), all larger than the trees used to calibrate the widely used allometric model.We present new empirical evidence that the fundamental assumption of tree size-to-mass scale-invariance is not well-justified for this kind of forest. This leads to substantial biases in current biomass estimates of broadleaf forests, not just in the UK, but elsewhere where the same or similar allometric models are applied, due to overdependence on non-representative calibration data, and the departure of observed tree size-to-mass from simple size-invariant relationships.We suggest that testing the underlying assumptions of allometric models more generally is an urgent priority as this has wider implications for climate mitigation through carbon sequestration. Forests currently act as a carbon sink in the UK. However, the anticipated increase in forest disturbances makes the trajectory and magnitude of this terrestrial carbon sink uncertain. We make recommendations for prioritizing measurements with better characterized uncertainty to address this issue.}},
  articleno    = {{e12197}},
  author       = {{Calders, Kim and Verbeeck, Hans and Burt, Andrew and Origo, Niall and Nightingale, Joanne and Malhi, Yadvinder and Wilkes, Phil and Raumonen, Pasi and Bunce, Robert G. H. and Disney, Mathias}},
  editor       = {{Cabello, Javier}},
  issn         = {{2688-8319}},
  journal      = {{ECOLOGICAL SOLUTIONS AND EVIDENCE}},
  keywords     = {{three-dimensional modelling,allometry,biomass,carbon,climate,forests,laser scanning,cavelab,ABOVEGROUND BIOMASS,ALLOMETRIC MODELS,ASH DIEBACK,TREE MODELS,TERRESTRIAL,WOOD,SIZE,SINK,LEAF}},
  language     = {{eng}},
  number       = {{4}},
  pages        = {{14}},
  title        = {{Laser scanning reveals potential underestimation of biomass carbon in temperate forest}},
  url          = {{http://doi.org/10.1002/2688-8319.12197}},
  volume       = {{3}},
  year         = {{2022}},
}
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