Diverse anthropogenic disturbances shift Amazon forests along a structural spectrum

Marielle Smith; Scott C. Stark; Tyeen C. Taylor; Juliana Schietti; Danilo Roberti Alves Almeida; Susan Aragon; Kelly Torralvo; Albertina Lima; Gabriel de Oliveira; Rafael Leandro de Assis; Veronika Leitold; Aline Pontes-Lopes; Ricardo Scoles; Luciana Cristina de Sousa Vieira; Angelica Faria Resende; Alysha I. Coppola; Diego Oliveira Brandao; Joao de Althaydes Silva Junior; Laura F. Lobato; Wagner Freitas; Daniel Almeida; Mendell S. Souza; David M. Minor; Juan Camilo Villegas; Darin J. Law; Nathan Goncalves; Daniel Gomes da Rocha; Marcelino Carneiro Guedes; Helio Tonini; Katia Emidio da Silva; Joost van Haren; Diogo Martins Rosa; Dalton Freitas do Valle; Carlos Leandro Cordeiro; Niclas Zaslavsky de Lima; Gang Shao; Imma Oliveiras Menor; Georgina Conti; Ana Paul Florentino; Lia Montti; Luiz E.O.C. Aragao; Sean MM. McMahon; Geoffrey G. Parker; David D. Breshears; Antonio Carlos Lola Da Costa; William E. Magnusson; Rita  Mesquita; Jose Luis C. Camargo; Raimundo C. de Oliveira; Plinio B. de Camargo; Scott R. Saleska; Bruce Walker Nelson

doi:10.1002/fee.2590

Diverse anthropogenic disturbances shift Amazon forests along a structural spectrum

Marielle Smith
, Scott C. Stark
, Tyeen C. Taylor
, Juliana Schietti
, Danilo Roberti Alves Almeida
, Susan Aragon
, Kelly Torralvo
, Albertina Lima
, Gabriel de Oliveira
, Rafael Leandro de Assis
, Veronika Leitold
, Aline Pontes-Lopes
, Ricardo Scoles
, Luciana Cristina de Sousa Vieira
, Angelica Faria Resende
, Alysha I. Coppola
, Diego Oliveira Brandao
, Joao de Althaydes Silva Junior
, Laura F. Lobato
, Wagner Freitas

Daniel Almeida, Mendell S. Souza, David M. Minor, Juan Camilo Villegas, Darin J. Law, Nathan Goncalves, Daniel Gomes da Rocha, Marcelino Carneiro Guedes, Helio Tonini, Katia Emidio da Silva, Joost van Haren, Diogo Martins Rosa, Dalton Freitas do Valle, Carlos Leandro Cordeiro, Niclas Zaslavsky de Lima, Gang Shao, Imma Oliveiras Menor, Georgina Conti, Ana Paul Florentino, Lia Montti, Luiz E.O.C. Aragao, Sean MM. McMahon, Geoffrey G. Parker, David D. Breshears, Antonio Carlos Lola Da Costa, William E. Magnusson, Rita Mesquita, Jose Luis C. Camargo, Raimundo C. de Oliveira, Plinio B. de Camargo, Scott R. Saleska, Bruce Walker Nelson

School of Environmental & Natural Sciences

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

Abstract

Amazon forests are being degraded by myriad anthropogenic disturbances, altering ecosystem and climate function. We analyzed the effects of a range of land-use and climate-change disturbances on fine-scale canopy structure using a large database of profiling canopy lidar collected from disturbed and mature Amazon forest plots. At most of the disturbed sites, surveys were conducted 10–30 years after disturbance, with many exhibiting signs of recovery. Structural impacts differed in magnitude more than in character among disturbance types, producing a gradient of impacts. Structural changes were highly coordinated in a manner consistent across disturbance types, indicating commonalities in regeneration pathways. At the most severely affected site – burned igapó (seasonally flooded forest) – no signs of canopy regeneration were observed, indicating a sustained alteration of microclimates and consequently greater vulnerability to transitioning to a more open-canopy, savanna-like state. Notably, disturbances rarely shifted forests beyond the natural background of structural variation within mature plots, highlighting the similarities between anthropogenic and natural disturbance regimes, and indicating a degree of resilience among Amazon forests. Studying diverse disturbance types within an integrated analytical framework builds capacity to predict the risk of degradation-driven forest transitions.

Original language	English
Pages (from-to)	24-32
Number of pages	9
Journal	Frontiers in Ecology and the Environment
Volume	21
Issue number	1
Early online date	Feb 2023
DOIs	https://doi.org/10.1002/fee.2590
Publication status	Published - 1 Feb 2023

Keywords

Ecology
Ecology, Evolution, Behavior and Systematics

UN SDGs

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

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10.1002/fee.2590Licence: CC BY-NC

Cite this

Smith, M., Stark, S. C., Taylor, T. C., Schietti, J., Almeida, D. R. A., Aragon, S., Torralvo, K., Lima, A., de Oliveira, G., de Assis, R. L., Leitold, V., Pontes-Lopes, A., Scoles, R., de Sousa Vieira, L. C., Resende, A. F., Coppola, A. I., Brandao, D. O., Junior, J. D. A. S., Lobato, L. F., ... Nelson, B. W. (2023). Diverse anthropogenic disturbances shift Amazon forests along a structural spectrum. Frontiers in Ecology and the Environment, 21(1), 24-32. https://doi.org/10.1002/fee.2590

@article{11cbdbaf8f054cecbb29e69f00e5de0c,

title = "Diverse anthropogenic disturbances shift Amazon forests along a structural spectrum",

abstract = "Amazon forests are being degraded by myriad anthropogenic disturbances, altering ecosystem and climate function. We analyzed the effects of a range of land-use and climate-change disturbances on fine-scale canopy structure using a large database of profiling canopy lidar collected from disturbed and mature Amazon forest plots. At most of the disturbed sites, surveys were conducted 10–30 years after disturbance, with many exhibiting signs of recovery. Structural impacts differed in magnitude more than in character among disturbance types, producing a gradient of impacts. Structural changes were highly coordinated in a manner consistent across disturbance types, indicating commonalities in regeneration pathways. At the most severely affected site – burned igap{\'o} (seasonally flooded forest) – no signs of canopy regeneration were observed, indicating a sustained alteration of microclimates and consequently greater vulnerability to transitioning to a more open-canopy, savanna-like state. Notably, disturbances rarely shifted forests beyond the natural background of structural variation within mature plots, highlighting the similarities between anthropogenic and natural disturbance regimes, and indicating a degree of resilience among Amazon forests. Studying diverse disturbance types within an integrated analytical framework builds capacity to predict the risk of degradation-driven forest transitions.",

keywords = "Ecology, Ecology, Evolution, Behavior and Systematics",

author = "Marielle Smith and Stark, \{Scott C.\} and Taylor, \{Tyeen C.\} and Juliana Schietti and Almeida, \{Danilo Roberti Alves\} and Susan Aragon and Kelly Torralvo and Albertina Lima and \{de Oliveira\}, Gabriel and \{de Assis\}, \{Rafael Leandro\} and Veronika Leitold and Aline Pontes-Lopes and Ricardo Scoles and \{de Sousa Vieira\}, \{Luciana Cristina\} and Resende, \{Angelica Faria\} and Coppola, \{Alysha I.\} and Brandao, \{Diego Oliveira\} and Junior, \{Joao de Althaydes Silva\} and Lobato, \{Laura F.\} and Wagner Freitas and Daniel Almeida and Souza, \{Mendell S.\} and Minor, \{David M.\} and Villegas, \{Juan Camilo\} and Law, \{Darin J.\} and Nathan Goncalves and \{da Rocha\}, \{Daniel Gomes\} and Guedes, \{Marcelino Carneiro\} and Helio Tonini and \{da Silva\}, \{Katia Emidio\} and \{van Haren\}, Joost and Rosa, \{Diogo Martins\} and \{do Valle\}, \{Dalton Freitas\} and Cordeiro, \{Carlos Leandro\} and \{de Lima\}, \{Niclas Zaslavsky\} and Gang Shao and Menor, \{Imma Oliveiras\} and Georgina Conti and Florentino, \{Ana Paul\} and Lia Montti and Aragao, \{Luiz E.O.C.\} and McMahon, \{Sean MM.\} and Parker, \{Geoffrey G.\} and Breshears, \{David D.\} and \{Da Costa\}, \{Antonio Carlos Lola\} and Magnusson, \{William E.\} and Rita Mesquita and Camargo, \{Jose Luis C.\} and \{de Oliveira\}, \{Raimundo C.\} and \{de Camargo\}, \{Plinio B.\} and Saleska, \{Scott R.\} and Nelson, \{Bruce Walker\}",

year = "2023",

month = feb,

day = "1",

doi = "10.1002/fee.2590",

language = "English",

volume = "21",

pages = "24--32",

journal = "Frontiers in Ecology and the Environment",

issn = "1540-9295",

publisher = "Wiley-Blackwell",

number = "1",

}

Smith, M, Stark, SC, Taylor, TC, Schietti, J, Almeida, DRA, Aragon, S, Torralvo, K, Lima, A, de Oliveira, G, de Assis, RL, Leitold, V, Pontes-Lopes, A, Scoles, R, de Sousa Vieira, LC, Resende, AF, Coppola, AI, Brandao, DO, Junior, JDAS, Lobato, LF, Freitas, W, Almeida, D, Souza, MS, Minor, DM, Villegas, JC, Law, DJ, Goncalves, N, da Rocha, DG, Guedes, MC, Tonini, H, da Silva, KE, van Haren, J, Rosa, DM, do Valle, DF, Cordeiro, CL, de Lima, NZ, Shao, G, Menor, IO, Conti, G, Florentino, AP, Montti, L, Aragao, LEOC, McMahon, SMM, Parker, GG, Breshears, DD, Da Costa, ACL, Magnusson, WE, Mesquita, R, Camargo, JLC, de Oliveira, RC, de Camargo, PB, Saleska, SR & Nelson, BW 2023, 'Diverse anthropogenic disturbances shift Amazon forests along a structural spectrum', Frontiers in Ecology and the Environment, vol. 21, no. 1, pp. 24-32. https://doi.org/10.1002/fee.2590

TY - JOUR

T1 - Diverse anthropogenic disturbances shift Amazon forests along a structural spectrum

AU - Smith, Marielle

AU - Stark, Scott C.

AU - Taylor, Tyeen C.

AU - Schietti, Juliana

AU - Almeida, Danilo Roberti Alves

AU - Aragon, Susan

AU - Torralvo, Kelly

AU - Lima, Albertina

AU - de Oliveira, Gabriel

AU - de Assis, Rafael Leandro

AU - Leitold, Veronika

AU - Pontes-Lopes, Aline

AU - Scoles, Ricardo

AU - de Sousa Vieira, Luciana Cristina

AU - Resende, Angelica Faria

AU - Coppola, Alysha I.

AU - Brandao, Diego Oliveira

AU - Junior, Joao de Althaydes Silva

AU - Lobato, Laura F.

AU - Freitas, Wagner

AU - Almeida, Daniel

AU - Souza, Mendell S.

AU - Minor, David M.

AU - Villegas, Juan Camilo

AU - Law, Darin J.

AU - Goncalves, Nathan

AU - da Rocha, Daniel Gomes

AU - Guedes, Marcelino Carneiro

AU - Tonini, Helio

AU - da Silva, Katia Emidio

AU - van Haren, Joost

AU - Rosa, Diogo Martins

AU - do Valle, Dalton Freitas

AU - Cordeiro, Carlos Leandro

AU - de Lima, Niclas Zaslavsky

AU - Shao, Gang

AU - Menor, Imma Oliveiras

AU - Conti, Georgina

AU - Florentino, Ana Paul

AU - Montti, Lia

AU - Aragao, Luiz E.O.C.

AU - McMahon, Sean MM.

AU - Parker, Geoffrey G.

AU - Breshears, David D.

AU - Da Costa, Antonio Carlos Lola

AU - Magnusson, William E.

AU - Mesquita, Rita

AU - Camargo, Jose Luis C.

AU - de Oliveira, Raimundo C.

AU - de Camargo, Plinio B.

AU - Saleska, Scott R.

AU - Nelson, Bruce Walker

PY - 2023/2/1

Y1 - 2023/2/1

N2 - Amazon forests are being degraded by myriad anthropogenic disturbances, altering ecosystem and climate function. We analyzed the effects of a range of land-use and climate-change disturbances on fine-scale canopy structure using a large database of profiling canopy lidar collected from disturbed and mature Amazon forest plots. At most of the disturbed sites, surveys were conducted 10–30 years after disturbance, with many exhibiting signs of recovery. Structural impacts differed in magnitude more than in character among disturbance types, producing a gradient of impacts. Structural changes were highly coordinated in a manner consistent across disturbance types, indicating commonalities in regeneration pathways. At the most severely affected site – burned igapó (seasonally flooded forest) – no signs of canopy regeneration were observed, indicating a sustained alteration of microclimates and consequently greater vulnerability to transitioning to a more open-canopy, savanna-like state. Notably, disturbances rarely shifted forests beyond the natural background of structural variation within mature plots, highlighting the similarities between anthropogenic and natural disturbance regimes, and indicating a degree of resilience among Amazon forests. Studying diverse disturbance types within an integrated analytical framework builds capacity to predict the risk of degradation-driven forest transitions.

AB - Amazon forests are being degraded by myriad anthropogenic disturbances, altering ecosystem and climate function. We analyzed the effects of a range of land-use and climate-change disturbances on fine-scale canopy structure using a large database of profiling canopy lidar collected from disturbed and mature Amazon forest plots. At most of the disturbed sites, surveys were conducted 10–30 years after disturbance, with many exhibiting signs of recovery. Structural impacts differed in magnitude more than in character among disturbance types, producing a gradient of impacts. Structural changes were highly coordinated in a manner consistent across disturbance types, indicating commonalities in regeneration pathways. At the most severely affected site – burned igapó (seasonally flooded forest) – no signs of canopy regeneration were observed, indicating a sustained alteration of microclimates and consequently greater vulnerability to transitioning to a more open-canopy, savanna-like state. Notably, disturbances rarely shifted forests beyond the natural background of structural variation within mature plots, highlighting the similarities between anthropogenic and natural disturbance regimes, and indicating a degree of resilience among Amazon forests. Studying diverse disturbance types within an integrated analytical framework builds capacity to predict the risk of degradation-driven forest transitions.

KW - Ecology

KW - Ecology, Evolution, Behavior and Systematics

U2 - 10.1002/fee.2590

DO - 10.1002/fee.2590

M3 - Article

SN - 1540-9295

VL - 21

SP - 24

EP - 32

JO - Frontiers in Ecology and the Environment

JF - Frontiers in Ecology and the Environment

IS - 1

ER -

Diverse anthropogenic disturbances shift Amazon forests along a structural spectrum

Abstract

Keywords

UN SDGs

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