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Diverse anthropogenic disturbances shift Amazon forests along a structural spectrum

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...

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Published in:	Frontiers in ecology and the environment 2023-02, Vol.21 (1), p.24-32
Main Authors:	Smith, Marielle N, Stark, Scott C, Taylor, Tyeen C, Schietti, Juliana, Almeida, Danilo Roberti Alves, Aragón, Susan, Torralvo, Kelly, Lima, Albertina P, Oliveira, Gabriel, Assis, Rafael Leandro, Leitold, Veronika, Pontes‐Lopes, Aline, Scoles, Ricardo, Sousa Vieira, Luciana Cristina, Resende, Angelica Faria, Coppola, Alysha I, Brandão, Diego Oliveira, Athaydes Silva Junior, João, Lobato, Laura F, Freitas, Wagner, Almeida, Daniel, Souza, Mendell S, Minor, David M, Villegas, Juan Camilo, Law, Darin J, Gonçalves, Nathan, Rocha, Daniel Gomes, Guedes, Marcelino Carneiro, Tonini, Hélio, Silva, Kátia Emídio, Haren, Joost, Rosa, Diogo Martins, Valle, Dalton Freitas, Cordeiro, Carlos Leandro, Lima, Nicolas Zaslavsky, Shao, Gang, Menor, Imma Oliveras, Conti, Georgina, Florentino, Ana Paula, Montti, Lía, Aragão, Luiz EOC, McMahon, Sean M, Parker, Geoffrey G, Breshears, David D, Da Costa, Antonio Carlos Lola, Magnusson, William E, Mesquita, Rita, Camargo, José Luís C, Oliveira, Raimundo C, Camargo, Plinio B, Saleska, Scott R, Nelson, Bruce Walker
Format:	Article
Language:	English
Subjects:	Anthropogenic factors Biodiversity and Ecology Canopies Climate change Deforestation Disturbance Disturbances Environmental degradation Environmental Sciences Forests Human influences Land use Lidar Life Sciences Mathematical analysis Microclimate Natural disturbance Regeneration Vegetal Biology
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creator	Smith, Marielle N Stark, Scott C Taylor, Tyeen C Schietti, Juliana Almeida, Danilo Roberti Alves Aragón, Susan Torralvo, Kelly Lima, Albertina P Oliveira, Gabriel Assis, Rafael Leandro Leitold, Veronika Pontes‐Lopes, Aline Scoles, Ricardo Sousa Vieira, Luciana Cristina Resende, Angelica Faria Coppola, Alysha I Brandão, Diego Oliveira Athaydes Silva Junior, João Lobato, Laura F Freitas, Wagner Almeida, Daniel Souza, Mendell S Minor, David M Villegas, Juan Camilo Law, Darin J Gonçalves, Nathan Rocha, Daniel Gomes Guedes, Marcelino Carneiro Tonini, Hélio Silva, Kátia Emídio Haren, Joost Rosa, Diogo Martins Valle, Dalton Freitas Cordeiro, Carlos Leandro Lima, Nicolas Zaslavsky Shao, Gang Menor, Imma Oliveras Conti, Georgina Florentino, Ana Paula Montti, Lía Aragão, Luiz EOC McMahon, Sean M Parker, Geoffrey G Breshears, David D Da Costa, Antonio Carlos Lola Magnusson, William E Mesquita, Rita Camargo, José Luís C Oliveira, Raimundo C Camargo, Plinio B Saleska, Scott R Nelson, Bruce Walker
description	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.
doi_str_mv	10.1002/fee.2590
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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. 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Abstracts</collection><collection>Environmental Sciences and Pollution Management</collection><collection>Environment Abstracts</collection><collection>Hyper Article en Ligne (HAL)</collection><collection>Hyper Article en Ligne (HAL) (Open Access)</collection><jtitle>Frontiers in ecology and the environment</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Smith, Marielle N</au><au>Stark, Scott C</au><au>Taylor, Tyeen C</au><au>Schietti, Juliana</au><au>Almeida, Danilo Roberti Alves</au><au>Aragón, Susan</au><au>Torralvo, Kelly</au><au>Lima, Albertina P</au><au>Oliveira, Gabriel</au><au>Assis, Rafael Leandro</au><au>Leitold, Veronika</au><au>Pontes‐Lopes, Aline</au><au>Scoles, Ricardo</au><au>Sousa Vieira, Luciana Cristina</au><au>Resende, Angelica Faria</au><au>Coppola, Alysha I</au><au>Brandão, Diego Oliveira</au><au>Athaydes Silva Junior, João</au><au>Lobato, Laura F</au><au>Freitas, Wagner</au><au>Almeida, Daniel</au><au>Souza, Mendell S</au><au>Minor, David M</au><au>Villegas, Juan Camilo</au><au>Law, Darin J</au><au>Gonçalves, Nathan</au><au>Rocha, Daniel Gomes</au><au>Guedes, Marcelino Carneiro</au><au>Tonini, Hélio</au><au>Silva, Kátia Emídio</au><au>Haren, Joost</au><au>Rosa, Diogo Martins</au><au>Valle, Dalton Freitas</au><au>Cordeiro, Carlos Leandro</au><au>Lima, Nicolas Zaslavsky</au><au>Shao, Gang</au><au>Menor, Imma Oliveras</au><au>Conti, Georgina</au><au>Florentino, Ana Paula</au><au>Montti, Lía</au><au>Aragão, Luiz EOC</au><au>McMahon, Sean M</au><au>Parker, Geoffrey G</au><au>Breshears, David D</au><au>Da Costa, Antonio Carlos Lola</au><au>Magnusson, William E</au><au>Mesquita, Rita</au><au>Camargo, José Luís C</au><au>Oliveira, Raimundo C</au><au>Camargo, Plinio B</au><au>Saleska, Scott R</au><au>Nelson, Bruce Walker</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Diverse anthropogenic disturbances shift Amazon forests along a structural spectrum</atitle><jtitle>Frontiers in ecology and the environment</jtitle><date>2023-02</date><risdate>2023</risdate><volume>21</volume><issue>1</issue><spage>24</spage><epage>32</epage><pages>24-32</pages><issn>1540-9295</issn><eissn>1540-9309</eissn><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.</abstract><cop>Washington</cop><pub>Ecological Society of America</pub><doi>10.1002/fee.2590</doi><tpages>9</tpages><orcidid>https://orcid.org/0000-0001-5345-2236</orcidid><oa>free_for_read</oa></addata></record>
fulltext	fulltext
identifier	ISSN: 1540-9295
ispartof	Frontiers in ecology and the environment, 2023-02, Vol.21 (1), p.24-32
issn	1540-9295 1540-9309
language	eng
recordid	cdi_hal_primary_oai_HAL_hal_04886915v1
source	Wiley-Blackwell Read & Publish Collection
subjects	Anthropogenic factors Biodiversity and Ecology Canopies Climate change Deforestation Disturbance Disturbances Environmental degradation Environmental Sciences Forests Human influences Land use Lidar Life Sciences Mathematical analysis Microclimate Natural disturbance Regeneration Vegetal Biology
title	Diverse anthropogenic disturbances shift Amazon forests along a structural spectrum
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