Canopy area of large trees explains aboveground biomass variations across neotropical forest landscapes

Canopy area of large trees explains aboveground biomass variations across neotropical forest landscapes

Large tropical trees store significant amounts of carbon in woody components and their distribution plays an important role in forest carbon stocks and dynamics. Here, we explore the properties of a new lidar-derived index, the large tree canopy area (LCA) defined as the area occupied by canopy a...

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Main Authors: V. Meyer, S. Saatchi, D. B. Clark, M. Keller, G. Vincent, A. Ferraz, F. Espírito-Santo, M. V. N. d'Oliveira, D. Kaki, J. Chave
Format: Article
Language:English
Published: Copernicus Publications 2018-06-01
Series:Biogeosciences
Online Access:https://www.biogeosciences.net/15/3377/2018/bg-15-3377-2018.pdf
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spelling doaj-3b6dc800d90d44049a5921ec9bfb31902020-11-24T22:40:49ZengCopernicus PublicationsBiogeosciences1726-41701726-41892018-06-01153377339010.5194/bg-15-3377-2018Canopy area of large trees explains aboveground biomass variations across neotropical forest landscapesV. Meyer0V. Meyer1S. Saatchi2D. B. Clark3M. Keller4M. Keller5G. Vincent6A. Ferraz7F. Espírito-Santo8M. V. N. d'Oliveira9D. Kaki10J. Chave11Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA, USALaboratoire Evolution et Diversité Biologique UMR 5174, CNRS Université Paul Sabatier, Toulouse, FranceJet Propulsion Laboratory, California Institute of Technology, Pasadena, CA, USADepartment of Biology, University of Missouri, St. Louis, MO, USAUSDA Forest Service, International Institute of Tropical Forestry, San Juan, Puerto RicoEMBRAPA Acre, Rio Branco, BrazilIRD, UMR AMAP, Montpellier 34000, FranceJet Propulsion Laboratory, California Institute of Technology, Pasadena, CA, USASchool of Geography, Geology and the Environment, University of Leicester, Leicester LE1 7RH, UKEMBRAPA Acre, Rio Branco, BrazilJet Propulsion Laboratory, California Institute of Technology, Pasadena, CA, USALaboratoire Evolution et Diversité Biologique UMR 5174, CNRS Université Paul Sabatier, Toulouse, FranceLarge tropical trees store significant amounts of carbon in woody components and their distribution plays an important role in forest carbon stocks and dynamics. Here, we explore the properties of a new lidar-derived index, the large tree canopy area (LCA) defined as the area occupied by canopy above a reference height. We hypothesize that this simple measure of forest structure representing the crown area of large canopy trees could consistently explain the landscape variations in forest volume and aboveground biomass (AGB) across a range of climate and edaphic conditions. To test this hypothesis, we assembled a unique dataset of high-resolution airborne light detection and ranging (lidar) and ground inventory data in nine undisturbed old-growth Neotropical forests, of which four had plots large enough (1 ha) to calibrate our model. We found that the LCA for trees greater than 27 m (∼ 25–30 m) in height and at least 100 m<sup>2</sup> crown size in a unit area (1 ha), explains more than 75 % of total forest volume variations, irrespective of the forest biogeographic conditions. When weighted by average wood density of the stand, LCA can be used as an unbiased estimator of AGB across sites (<i>R</i><sup>2</sup>  =  0.78, RMSE  =  46.02 Mg ha<sup>−1</sup>, bias  =  −0.63 Mg ha<sup>−1</sup>). Unlike other lidar-derived metrics with complex nonlinear relations to biomass, the relationship between LCA and AGB is linear and remains unique across forest types. A comparison with tree inventories across the study sites indicates that LCA correlates best with the crown area (or basal area) of trees with diameter greater than 50 cm. The spatial invariance of the LCA–AGB relationship across the Neotropics suggests a remarkable regularity of forest structure across the landscape and a new technique for systematic monitoring of large trees for their contribution to AGB and changes associated with selective logging, tree mortality and other types of tropical forest disturbance and dynamics.https://www.biogeosciences.net/15/3377/2018/bg-15-3377-2018.pdf
collection DOAJ
language English
format Article
sources DOAJ
author V. Meyer
V. Meyer
S. Saatchi
D. B. Clark
M. Keller
M. Keller
G. Vincent
A. Ferraz
F. Espírito-Santo
M. V. N. d'Oliveira
D. Kaki
J. Chave
spellingShingle V. Meyer
V. Meyer
S. Saatchi
D. B. Clark
M. Keller
M. Keller
G. Vincent
A. Ferraz
F. Espírito-Santo
M. V. N. d'Oliveira
D. Kaki
J. Chave
Canopy area of large trees explains aboveground biomass variations across neotropical forest landscapes
Biogeosciences
author_facet V. Meyer
V. Meyer
S. Saatchi
D. B. Clark
M. Keller
M. Keller
G. Vincent
A. Ferraz
F. Espírito-Santo
M. V. N. d'Oliveira
D. Kaki
J. Chave
author_sort V. Meyer
title Canopy area of large trees explains aboveground biomass variations across neotropical forest landscapes
title_short Canopy area of large trees explains aboveground biomass variations across neotropical forest landscapes
title_full Canopy area of large trees explains aboveground biomass variations across neotropical forest landscapes
title_fullStr Canopy area of large trees explains aboveground biomass variations across neotropical forest landscapes
title_full_unstemmed Canopy area of large trees explains aboveground biomass variations across neotropical forest landscapes
title_sort canopy area of large trees explains aboveground biomass variations across neotropical forest landscapes
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2018-06-01
description Large tropical trees store significant amounts of carbon in woody components and their distribution plays an important role in forest carbon stocks and dynamics. Here, we explore the properties of a new lidar-derived index, the large tree canopy area (LCA) defined as the area occupied by canopy above a reference height. We hypothesize that this simple measure of forest structure representing the crown area of large canopy trees could consistently explain the landscape variations in forest volume and aboveground biomass (AGB) across a range of climate and edaphic conditions. To test this hypothesis, we assembled a unique dataset of high-resolution airborne light detection and ranging (lidar) and ground inventory data in nine undisturbed old-growth Neotropical forests, of which four had plots large enough (1 ha) to calibrate our model. We found that the LCA for trees greater than 27 m (∼ 25–30 m) in height and at least 100 m<sup>2</sup> crown size in a unit area (1 ha), explains more than 75 % of total forest volume variations, irrespective of the forest biogeographic conditions. When weighted by average wood density of the stand, LCA can be used as an unbiased estimator of AGB across sites (<i>R</i><sup>2</sup>  =  0.78, RMSE  =  46.02 Mg ha<sup>−1</sup>, bias  =  −0.63 Mg ha<sup>−1</sup>). Unlike other lidar-derived metrics with complex nonlinear relations to biomass, the relationship between LCA and AGB is linear and remains unique across forest types. A comparison with tree inventories across the study sites indicates that LCA correlates best with the crown area (or basal area) of trees with diameter greater than 50 cm. The spatial invariance of the LCA–AGB relationship across the Neotropics suggests a remarkable regularity of forest structure across the landscape and a new technique for systematic monitoring of large trees for their contribution to AGB and changes associated with selective logging, tree mortality and other types of tropical forest disturbance and dynamics.
url https://www.biogeosciences.net/15/3377/2018/bg-15-3377-2018.pdf
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