Forest disturbance and growth processes are reflected in the geographical distribution of large canopy gaps across the Brazilian Amazon

Cristiano Rodrigues Reis; Toby D. Jackson; Eric Bastos Gorgens; Ricardo Dalagnol; Tommaso Jucker; Matheus Henrique Nunes; Jean Pierre Ometto; Luiz E.O.C. Aragão; Luiz Carlos Estraviz Rodriguez; David A. Coomes

doi:10.1111/1365-2745.14003

Forest disturbance and growth processes are reflected in the geographical distribution of large canopy gaps across the Brazilian Amazon

Cristiano Rodrigues Reis^*, Toby D. Jackson, Eric Bastos Gorgens, Ricardo Dalagnol, Tommaso Jucker, Matheus Henrique Nunes, Jean Pierre Ometto, Luiz E.O.C. Aragão, Luiz Carlos Estraviz Rodriguez, David A. Coomes

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

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Abstract

Canopy gaps are openings in the forest canopy resulting from branch fall and tree mortality events. The geographical distribution of large canopy gaps may reflect underlying variation in mortality and growth processes. However, a lack of data at the appropriate scale has limited our ability to study this relationship until now. We detected canopy gaps using a unique LiDAR dataset consisting of 650 transects randomly distributed across 2500 km² of the Brazilian Amazon. We characterized the size distribution of canopy gaps using a power law and we explore the variation in the exponent, α. We evaluated how the α varies across the Amazon, in response to disturbance by humans and natural environmental processes that influence tree mortality rates. We observed that South-eastern forests contained a higher proportion of large gaps than North-western, which is consistent with recent work showing greater tree mortality rates in the Southeast than the Northwest. Regions characterized by strong wind gust speeds, frequent lightning and greater water shortage also had a high proportion of large gaps, indicating that geographical variation in α is a reflection of underlying disturbance processes. Forests on fertile soils were also found to contain a high proportion of large gaps, in part because trees grow tall on these sites and create large gaps when they fall; thus, canopy gap analysis picked up differences in growth as well as mortality processes. Finally, we found that human-modified forests had a higher proportion of large gaps than intact forests, as we would expect given that these forests have been disturbed. Synthesis. The proportion of large gaps in the forest canopy varied substantially over the Brazilian Amazon. We have shown that the trends can be explained by geographical variation in disturbance and growth. The frequency of extreme weather events is predicted to increase under climate change, and changes could lead to greater forest disturbance, which should be detectable as an increased proportion of large gaps in intact forests.

Original language	English
Pages (from-to)	2971-2983
Number of pages	13
Journal	Journal of Ecology
Volume	110
Issue number	12
Early online date	5 Oct 2022
DOIs	https://doi.org/10.1111/1365-2745.14003
Publication status	E-pub ahead of print - 5 Oct 2022

Bibliographical note

Funding Information:
This work was supported by the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior—Brasil—CAPES—Finance Code 001, University of São Paulo (USP/ESALQ) and National Institute for Space Research (INPE). T.D.J. and D.A.C. were supported by the UK Natural Environment Research Council (grant number NE/S010750/1). TJ was supported by a UK NERC Independent Research Fellowship (grant number: NE/S01537X/1). R.D. was supported by the Sao Paulo Research Foundation (FAPESP, grant number 2019/21662‐8). M.H.N. was supported by the Academy of Finland (decision number 319905). L.E.O.C.A. was supported by CNPq (processes 305054/2016‐3 and 442371/2019‐5) and FAPESP 18/15001‐6. We thank Mauro Assis for facilitating access to the LiDAR data.

Publisher Copyright:
© 2022 The Authors. Journal of Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society.

Keywords

canopy height
environmental gradients
forest dynamics
gap size distribution
landscape ecology
power law
tropical forest

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Reis, C. R., Jackson, T. D., Gorgens, E. B., Dalagnol, R., Jucker, T., Nunes, M. H., Ometto, J. P., Aragão, L. E. O. C., Rodriguez, L. C. E., & Coomes, D. A. (2022). Forest disturbance and growth processes are reflected in the geographical distribution of large canopy gaps across the Brazilian Amazon. Journal of Ecology, 110(12), 2971-2983. Advance online publication. https://doi.org/10.1111/1365-2745.14003

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title = "Forest disturbance and growth processes are reflected in the geographical distribution of large canopy gaps across the Brazilian Amazon",

abstract = "Canopy gaps are openings in the forest canopy resulting from branch fall and tree mortality events. The geographical distribution of large canopy gaps may reflect underlying variation in mortality and growth processes. However, a lack of data at the appropriate scale has limited our ability to study this relationship until now. We detected canopy gaps using a unique LiDAR dataset consisting of 650 transects randomly distributed across 2500 km2 of the Brazilian Amazon. We characterized the size distribution of canopy gaps using a power law and we explore the variation in the exponent, α. We evaluated how the α varies across the Amazon, in response to disturbance by humans and natural environmental processes that influence tree mortality rates. We observed that South-eastern forests contained a higher proportion of large gaps than North-western, which is consistent with recent work showing greater tree mortality rates in the Southeast than the Northwest. Regions characterized by strong wind gust speeds, frequent lightning and greater water shortage also had a high proportion of large gaps, indicating that geographical variation in α is a reflection of underlying disturbance processes. Forests on fertile soils were also found to contain a high proportion of large gaps, in part because trees grow tall on these sites and create large gaps when they fall; thus, canopy gap analysis picked up differences in growth as well as mortality processes. Finally, we found that human-modified forests had a higher proportion of large gaps than intact forests, as we would expect given that these forests have been disturbed. Synthesis. The proportion of large gaps in the forest canopy varied substantially over the Brazilian Amazon. We have shown that the trends can be explained by geographical variation in disturbance and growth. The frequency of extreme weather events is predicted to increase under climate change, and changes could lead to greater forest disturbance, which should be detectable as an increased proportion of large gaps in intact forests.",

keywords = "canopy height, environmental gradients, forest dynamics, gap size distribution, landscape ecology, power law, tropical forest",

author = "Reis, {Cristiano Rodrigues} and Jackson, {Toby D.} and Gorgens, {Eric Bastos} and Ricardo Dalagnol and Tommaso Jucker and Nunes, {Matheus Henrique} and Ometto, {Jean Pierre} and Arag{\~a}o, {Luiz E.O.C.} and Rodriguez, {Luiz Carlos Estraviz} and Coomes, {David A.}",

note = "Funding Information: This work was supported by the Coordena{\c c}{\~a}o de Aperfei{\c c}oamento de Pessoal de N{\'i}vel Superior—Brasil—CAPES—Finance Code 001, University of S{\~a}o Paulo (USP/ESALQ) and National Institute for Space Research (INPE). T.D.J. and D.A.C. were supported by the UK Natural Environment Research Council (grant number NE/S010750/1). TJ was supported by a UK NERC Independent Research Fellowship (grant number: NE/S01537X/1). R.D. was supported by the Sao Paulo Research Foundation (FAPESP, grant number 2019/21662‐8). M.H.N. was supported by the Academy of Finland (decision number 319905). L.E.O.C.A. was supported by CNPq (processes 305054/2016‐3 and 442371/2019‐5) and FAPESP 18/15001‐6. We thank Mauro Assis for facilitating access to the LiDAR data. Publisher Copyright: {\textcopyright} 2022 The Authors. Journal of Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society.",

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AU - Reis, Cristiano Rodrigues

AU - Jackson, Toby D.

AU - Gorgens, Eric Bastos

AU - Dalagnol, Ricardo

AU - Jucker, Tommaso

AU - Nunes, Matheus Henrique

AU - Ometto, Jean Pierre

AU - Aragão, Luiz E.O.C.

AU - Rodriguez, Luiz Carlos Estraviz

AU - Coomes, David A.

N1 - Funding Information: This work was supported by the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior—Brasil—CAPES—Finance Code 001, University of São Paulo (USP/ESALQ) and National Institute for Space Research (INPE). T.D.J. and D.A.C. were supported by the UK Natural Environment Research Council (grant number NE/S010750/1). TJ was supported by a UK NERC Independent Research Fellowship (grant number: NE/S01537X/1). R.D. was supported by the Sao Paulo Research Foundation (FAPESP, grant number 2019/21662‐8). M.H.N. was supported by the Academy of Finland (decision number 319905). L.E.O.C.A. was supported by CNPq (processes 305054/2016‐3 and 442371/2019‐5) and FAPESP 18/15001‐6. We thank Mauro Assis for facilitating access to the LiDAR data. Publisher Copyright: © 2022 The Authors. Journal of Ecology published by John Wiley & Sons Ltd on behalf of British Ecological Society.

PY - 2022/10/5

Y1 - 2022/10/5

N2 - Canopy gaps are openings in the forest canopy resulting from branch fall and tree mortality events. The geographical distribution of large canopy gaps may reflect underlying variation in mortality and growth processes. However, a lack of data at the appropriate scale has limited our ability to study this relationship until now. We detected canopy gaps using a unique LiDAR dataset consisting of 650 transects randomly distributed across 2500 km2 of the Brazilian Amazon. We characterized the size distribution of canopy gaps using a power law and we explore the variation in the exponent, α. We evaluated how the α varies across the Amazon, in response to disturbance by humans and natural environmental processes that influence tree mortality rates. We observed that South-eastern forests contained a higher proportion of large gaps than North-western, which is consistent with recent work showing greater tree mortality rates in the Southeast than the Northwest. Regions characterized by strong wind gust speeds, frequent lightning and greater water shortage also had a high proportion of large gaps, indicating that geographical variation in α is a reflection of underlying disturbance processes. Forests on fertile soils were also found to contain a high proportion of large gaps, in part because trees grow tall on these sites and create large gaps when they fall; thus, canopy gap analysis picked up differences in growth as well as mortality processes. Finally, we found that human-modified forests had a higher proportion of large gaps than intact forests, as we would expect given that these forests have been disturbed. Synthesis. The proportion of large gaps in the forest canopy varied substantially over the Brazilian Amazon. We have shown that the trends can be explained by geographical variation in disturbance and growth. The frequency of extreme weather events is predicted to increase under climate change, and changes could lead to greater forest disturbance, which should be detectable as an increased proportion of large gaps in intact forests.

AB - Canopy gaps are openings in the forest canopy resulting from branch fall and tree mortality events. The geographical distribution of large canopy gaps may reflect underlying variation in mortality and growth processes. However, a lack of data at the appropriate scale has limited our ability to study this relationship until now. We detected canopy gaps using a unique LiDAR dataset consisting of 650 transects randomly distributed across 2500 km2 of the Brazilian Amazon. We characterized the size distribution of canopy gaps using a power law and we explore the variation in the exponent, α. We evaluated how the α varies across the Amazon, in response to disturbance by humans and natural environmental processes that influence tree mortality rates. We observed that South-eastern forests contained a higher proportion of large gaps than North-western, which is consistent with recent work showing greater tree mortality rates in the Southeast than the Northwest. Regions characterized by strong wind gust speeds, frequent lightning and greater water shortage also had a high proportion of large gaps, indicating that geographical variation in α is a reflection of underlying disturbance processes. Forests on fertile soils were also found to contain a high proportion of large gaps, in part because trees grow tall on these sites and create large gaps when they fall; thus, canopy gap analysis picked up differences in growth as well as mortality processes. Finally, we found that human-modified forests had a higher proportion of large gaps than intact forests, as we would expect given that these forests have been disturbed. Synthesis. The proportion of large gaps in the forest canopy varied substantially over the Brazilian Amazon. We have shown that the trends can be explained by geographical variation in disturbance and growth. The frequency of extreme weather events is predicted to increase under climate change, and changes could lead to greater forest disturbance, which should be detectable as an increased proportion of large gaps in intact forests.

KW - canopy height

KW - environmental gradients

KW - forest dynamics

KW - gap size distribution

KW - landscape ecology

KW - power law

KW - tropical forest

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VL - 110

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EP - 2983

JO - Journal of Ecology

JF - Journal of Ecology

IS - 12

ER -

Forest disturbance and growth processes are reflected in the geographical distribution of large canopy gaps across the Brazilian Amazon

Abstract

Bibliographical note

Keywords

UN SDGs

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