Damage to living trees contributes to almost half of the biomass losses in tropical forests

Daniel Zuleta; Gabriel Arellano; Sean M. McMahon; Salomón Aguilar; Sarayudh Bunyavejchewin; Nicolas Castaño; Chia Hao Chang-Yang; Alvaro Duque; David Mitre; Musalmah Nasardin; Rolando Pérez; I. Fang Sun; Tze Leong Yao; Renato Valencia; Sruthi M. Krishna Moorthy; Hans Verbeeck; Stuart J. Davies

doi:10.1111/gcb.16687

Damage to living trees contributes to almost half of the biomass losses in tropical forests

Daniel Zuleta^*, Gabriel Arellano, Sean M. McMahon, Salomón Aguilar, Sarayudh Bunyavejchewin, Nicolas Castaño, Chia Hao Chang-Yang, Alvaro Duque, David Mitre, Musalmah Nasardin, Rolando Pérez, I. Fang Sun, Tze Leong Yao, Renato Valencia, Sruthi M. Krishna Moorthy, Hans Verbeeck, Stuart J. Davies

^*Corresponding author for this work

Faculty of Exact and Natural Sciences

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

Accurate estimates of forest biomass stocks and fluxes are needed to quantify global carbon budgets and assess the response of forests to climate change. However, most forest inventories consider tree mortality as the only aboveground biomass (AGB) loss without accounting for losses via damage to living trees: branchfall, trunk breakage, and wood decay. Here, we use ~151,000 annual records of tree survival and structural completeness to compare AGB loss via damage to living trees to total AGB loss (mortality + damage) in seven tropical forests widely distributed across environmental conditions. We find that 42% (3.62 Mg ha⁻¹ year⁻¹; 95% confidence interval [CI] 2.36–5.25) of total AGB loss (8.72 Mg ha⁻¹ year⁻¹; CI 5.57–12.86) is due to damage to living trees. Total AGB loss was highly variable among forests, but these differences were mainly caused by site variability in damage-related AGB losses rather than by mortality-related AGB losses. We show that conventional forest inventories overestimate stand-level AGB stocks by 4% (1%–17% range across forests) because assume structurally complete trees, underestimate total AGB loss by 29% (6%–57% range across forests) due to overlooked damage-related AGB losses, and overestimate AGB loss via mortality by 22% (7%–80% range across forests) because of the assumption that trees are undamaged before dying. Our results indicate that forest carbon fluxes are higher than previously thought. Damage on living trees is an underappreciated component of the forest carbon cycle that is likely to become even more important as the frequency and severity of forest disturbances increase.

Original language	English
Pages (from-to)	3409-3420
Number of pages	12
Journal	Global Change Biology
Volume	29
Issue number	12
DOIs	https://doi.org/10.1111/gcb.16687
State	Published - Jun 2023

Bibliographical note

Publisher Copyright:
© 2023 John Wiley & Sons Ltd.

Funding

This project and DZ were supported as part of the Next Generation Ecosystem Experiments‐Tropics, funded by the US Department of Energy, Office of Science, Office of Biological and Environmental Research ( https://ngee‐tropics.lbl.gov/ ). Data collection was supported by the Forest Global Earth Observatory (ForestGEO) of the Smithsonian Institution. Detailed site‐specific acknowledgments are included in the Supporting Information. We thank K.J. Anderson‐Teixeira and two anonymous reviewers for providing useful comments on this paper.

Funders	Funder number
Smithsonian Institution
U.S. Department of Energy
Office of Science
Biological and Environmental Research

Keywords

ForestGEO
canopy turnover
carbon fluxes
forest biomass
forest disturbance
global carbon budget
terrestrial laser scanning
tree damage
tree mortality
tropical forests

Access to Document

10.1111/gcb.16687

Cite this

Zuleta, D., Arellano, G., McMahon, S. M., Aguilar, S., Bunyavejchewin, S., Castaño, N., Chang-Yang, C. H., Duque, A., Mitre, D., Nasardin, M., Pérez, R., Sun, I. F., Yao, T. L., Valencia, R., Krishna Moorthy, S. M., Verbeeck, H., & Davies, S. J. (2023). Damage to living trees contributes to almost half of the biomass losses in tropical forests. Global Change Biology, 29(12), 3409-3420. https://doi.org/10.1111/gcb.16687

@article{b622ed8c760546feb44ffcd45037ba12,

title = "Damage to living trees contributes to almost half of the biomass losses in tropical forests",

abstract = "Accurate estimates of forest biomass stocks and fluxes are needed to quantify global carbon budgets and assess the response of forests to climate change. However, most forest inventories consider tree mortality as the only aboveground biomass (AGB) loss without accounting for losses via damage to living trees: branchfall, trunk breakage, and wood decay. Here, we use \textasciitilde{}151,000 annual records of tree survival and structural completeness to compare AGB loss via damage to living trees to total AGB loss (mortality + damage) in seven tropical forests widely distributed across environmental conditions. We find that 42\% (3.62 Mg ha−1 year−1; 95\% confidence interval [CI] 2.36–5.25) of total AGB loss (8.72 Mg ha−1 year−1; CI 5.57–12.86) is due to damage to living trees. Total AGB loss was highly variable among forests, but these differences were mainly caused by site variability in damage-related AGB losses rather than by mortality-related AGB losses. We show that conventional forest inventories overestimate stand-level AGB stocks by 4\% (1\%–17\% range across forests) because assume structurally complete trees, underestimate total AGB loss by 29\% (6\%–57\% range across forests) due to overlooked damage-related AGB losses, and overestimate AGB loss via mortality by 22\% (7\%–80\% range across forests) because of the assumption that trees are undamaged before dying. Our results indicate that forest carbon fluxes are higher than previously thought. Damage on living trees is an underappreciated component of the forest carbon cycle that is likely to become even more important as the frequency and severity of forest disturbances increase.",

keywords = "ForestGEO, canopy turnover, carbon fluxes, forest biomass, forest disturbance, global carbon budget, terrestrial laser scanning, tree damage, tree mortality, tropical forests",

author = "Daniel Zuleta and Gabriel Arellano and McMahon, \{Sean M.\} and Salom{\'o}n Aguilar and Sarayudh Bunyavejchewin and Nicolas Casta{\~n}o and Chang-Yang, \{Chia Hao\} and Alvaro Duque and David Mitre and Musalmah Nasardin and Rolando P{\'e}rez and Sun, \{I. Fang\} and Yao, \{Tze Leong\} and Renato Valencia and Krishna Moorthy, \{Sruthi M.\} and Hans Verbeeck and Davies, \{Stuart J.\}",

note = "Publisher Copyright: {\textcopyright} 2023 John Wiley \& Sons Ltd.",

year = "2023",

month = jun,

doi = "10.1111/gcb.16687",

language = "English",

volume = "29",

pages = "3409--3420",

journal = "Global Change Biology",

issn = "1354-1013",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "12",

}

Zuleta, D, Arellano, G, McMahon, SM, Aguilar, S, Bunyavejchewin, S, Castaño, N, Chang-Yang, CH, Duque, A, Mitre, D, Nasardin, M, Pérez, R, Sun, IF, Yao, TL, Valencia, R, Krishna Moorthy, SM, Verbeeck, H & Davies, SJ 2023, 'Damage to living trees contributes to almost half of the biomass losses in tropical forests', Global Change Biology, vol. 29, no. 12, pp. 3409-3420. https://doi.org/10.1111/gcb.16687

TY - JOUR

T1 - Damage to living trees contributes to almost half of the biomass losses in tropical forests

AU - Zuleta, Daniel

AU - Arellano, Gabriel

AU - McMahon, Sean M.

AU - Aguilar, Salomón

AU - Bunyavejchewin, Sarayudh

AU - Castaño, Nicolas

AU - Chang-Yang, Chia Hao

AU - Duque, Alvaro

AU - Mitre, David

AU - Nasardin, Musalmah

AU - Pérez, Rolando

AU - Sun, I. Fang

AU - Yao, Tze Leong

AU - Valencia, Renato

AU - Krishna Moorthy, Sruthi M.

AU - Verbeeck, Hans

AU - Davies, Stuart J.

PY - 2023/6

Y1 - 2023/6

N2 - Accurate estimates of forest biomass stocks and fluxes are needed to quantify global carbon budgets and assess the response of forests to climate change. However, most forest inventories consider tree mortality as the only aboveground biomass (AGB) loss without accounting for losses via damage to living trees: branchfall, trunk breakage, and wood decay. Here, we use ~151,000 annual records of tree survival and structural completeness to compare AGB loss via damage to living trees to total AGB loss (mortality + damage) in seven tropical forests widely distributed across environmental conditions. We find that 42% (3.62 Mg ha−1 year−1; 95% confidence interval [CI] 2.36–5.25) of total AGB loss (8.72 Mg ha−1 year−1; CI 5.57–12.86) is due to damage to living trees. Total AGB loss was highly variable among forests, but these differences were mainly caused by site variability in damage-related AGB losses rather than by mortality-related AGB losses. We show that conventional forest inventories overestimate stand-level AGB stocks by 4% (1%–17% range across forests) because assume structurally complete trees, underestimate total AGB loss by 29% (6%–57% range across forests) due to overlooked damage-related AGB losses, and overestimate AGB loss via mortality by 22% (7%–80% range across forests) because of the assumption that trees are undamaged before dying. Our results indicate that forest carbon fluxes are higher than previously thought. Damage on living trees is an underappreciated component of the forest carbon cycle that is likely to become even more important as the frequency and severity of forest disturbances increase.

AB - Accurate estimates of forest biomass stocks and fluxes are needed to quantify global carbon budgets and assess the response of forests to climate change. However, most forest inventories consider tree mortality as the only aboveground biomass (AGB) loss without accounting for losses via damage to living trees: branchfall, trunk breakage, and wood decay. Here, we use ~151,000 annual records of tree survival and structural completeness to compare AGB loss via damage to living trees to total AGB loss (mortality + damage) in seven tropical forests widely distributed across environmental conditions. We find that 42% (3.62 Mg ha−1 year−1; 95% confidence interval [CI] 2.36–5.25) of total AGB loss (8.72 Mg ha−1 year−1; CI 5.57–12.86) is due to damage to living trees. Total AGB loss was highly variable among forests, but these differences were mainly caused by site variability in damage-related AGB losses rather than by mortality-related AGB losses. We show that conventional forest inventories overestimate stand-level AGB stocks by 4% (1%–17% range across forests) because assume structurally complete trees, underestimate total AGB loss by 29% (6%–57% range across forests) due to overlooked damage-related AGB losses, and overestimate AGB loss via mortality by 22% (7%–80% range across forests) because of the assumption that trees are undamaged before dying. Our results indicate that forest carbon fluxes are higher than previously thought. Damage on living trees is an underappreciated component of the forest carbon cycle that is likely to become even more important as the frequency and severity of forest disturbances increase.

KW - ForestGEO

KW - canopy turnover

KW - carbon fluxes

KW - forest biomass

KW - forest disturbance

KW - global carbon budget

KW - terrestrial laser scanning

KW - tree damage

KW - tree mortality

KW - tropical forests

UR - http://www.scopus.com/inward/record.url?scp=85150987251&partnerID=8YFLogxK

U2 - 10.1111/gcb.16687

DO - 10.1111/gcb.16687

M3 - Article

C2 - 36938951

AN - SCOPUS:85150987251

SN - 1354-1013

VL - 29

SP - 3409

EP - 3420

JO - Global Change Biology

JF - Global Change Biology

IS - 12

ER -

Damage to living trees contributes to almost half of the biomass losses in tropical forests

Abstract

Bibliographical note

Funding

Keywords

Access to Document

Other files and links

Fingerprint

Cite this