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Using volume-weighted average wood specific gravity of trees reduces bias in aboveground biomass predictions from forest volume data

Sagang Le Bienfaiteur Takougoum, Momo Stephane Takoudjou, Libalah Moses Bakonck, Rossi Vivien, Fonton Noël Houédougbé, Mofack Gislain II, Kamdem Narcisse Guy, Nguetsop Victor Francois, Sonké Bonaventure, Pierre Ploton, Barbier Nicolas. 2018. Using volume-weighted average wood specific gravity of trees reduces bias in aboveground biomass predictions from forest volume data. Forest Ecology and Management, 424 : 519-528.

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Url - jeu de données - Entrepôt autre : https://doi.org/10.5061/DRYAD.234/1

Quartile : Q1, Sujet : FORESTRY

Résumé : With the improvement of remote sensing techniques for forest inventory application such as terrestrial LiDAR, tree volume can now be measured directly, without resorting to allometric equations. However, wood specific gravity (WSG) remains a crucial factor for converting these precise volume measurements into unbiased biomass estimates. In addition to this WSG values obtained from samples collected at the base of the tree (WSGBase) or from global repositories such as Dryad (WSGDryad) can be substantially biased relative to the overall tree value. Our aim was to assess and mitigate error propagation at tree and stand level using a pragmatic approach that could be generalized to National Forest Inventories or other carbon assessment efforts based on measured volumetric data. In the semi-deciduous forests of Eastern Cameroon, we destructively sampled 130 trees belonging to 15 species mostly represented by large trees (up to 45 Mg). We also used stand-level dendrometric parameters from 21 1-ha plots inventoried in the same area to propagate the tree-level bias at the plot level. A new descriptor, volume average-weighted WSG (WWSG) of the tree was computed by weighting the WSG of tree compartments by their relative volume prior to summing at tree level. As WWSG cannot be assessed non-destructively, linear models were adjusted to predict field WWSG and revealed that a combination of WSGDryad, diameter at breast height (DBH) and species stem morphology (Sm) were significant predictors explaining together 72% of WWSG variation. At tree level, estimating tree aboveground biomass using WSGBase and WSGDryad yielded overestimations of 10% and 7% respectively whereas predicted WWSG only produced an underestimation of less than 1%. At stand-level, WSGBase and WSGDryad gave an average simulated bias of 9% (S.D. = ±7) and 3% (S.D. = ±7) respectively whereas predicted WWSG reduced the bias by up to 0.1% (S.D. = ±8). We also observed that the stand-level bias obtained with WSGBase and WSGDryad decreased with total plot size and plot area. The systematic bias induced by WSGBase and WSGDryad for biomass estimations using measured volumes are clearly not negligible but yet generally overlooked. A simple corrective approach such as the one proposed with our predictive WWSG model is liable to improve the precision of remote sensing-based approaches for broader scale biomass estimations.

Mots-clés Agrovoc : forêt, biomasse, mesure (activité), morphologie végétale, télédétection

Mots-clés géographiques Agrovoc : Cameroun

Classification Agris : K01 - Foresterie - Considérations générales
U30 - Méthodes de recherche
F62 - Physiologie végétale - Croissance et développement
F50 - Anatomie et morphologie des plantes

Champ stratégique Cirad : Axe 6 (2014-2018) - Sociétés, natures et territoires

Auteurs et affiliations

  • Sagang Le Bienfaiteur Takougoum, Université de Yaoundé 1 (CMR) - auteur correspondant
  • Momo Stephane Takoudjou, Université de Yaoundé 1 (CMR)
  • Libalah Moses Bakonck, Université de Yaoundé 1 (CMR)
  • Rossi Vivien, CIRAD-ES-UPR BSef (CMR) ORCID: 0000-0001-5458-1523
  • Fonton Noël Houédougbé, COMIFAC (CMR)
  • Mofack Gislain II, University of Yaounde 1 (CMR)
  • Kamdem Narcisse Guy, University of Yaounde 1 (CMR)
  • Nguetsop Victor Francois, Université de Dschang (CMR)
  • Sonké Bonaventure, Université de Yaoundé (CMR)
  • Pierre Ploton, IRD (FRA)
  • Barbier Nicolas, IRD (FRA)

Source : Cirad-Agritrop (https://agritrop.cirad.fr/588820/)

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