Amazon tree dominance across forest strata

Frederick C. Draper; Flavia R.C. Costa; Gabriel Arellano; Oliver L. Phillips; Alvaro Duque; Manuel J. Macía; Steege H ter; Gregory P. Asner; Erika Berenguer; Juliana Schietti; Jacob B. Socolar; Souza FC de; Kyle G. Dexter; Peter M. Jørgensen; J. Sebastian Tello; William E. Magnusson; Timothy R. Baker; Carolina V. Castilho; Abel Monteagudo-Mendoza; Paul V.A. Fine; Kalle Ruokolainen; Euridice N.Honorio Coronado; Gerardo Aymard; Nállarett Dávila; Mauricio Sánchez Sáenz; Marcos A.Rios Paredes; Julien Engel; Claire Fortunel; C. E.Timothy Paine; Jean Yves Goret; Aurelie Dourdain; Pascal Petronelli; Elodie Allie; Juan E.Guevara Andino; Roel J.W. Brienen; Leslie Cayola Pérez; Ângelo G. Manzatto; Narel Y.Paniagua Zambrana; Jean François Molino; Daniel Sabatier; Jerôme Chave; Sophie Fauset; Roosevelt Garcia Villacorta; Maxime Réjou-Méchain; Paul E. Berry; Karina Melgaço; Ted R. Feldpausch; Elvis Valderamma Sandoval; Rodolfo Vasquez Martinez; Italo Mesones; André B. Junqueira; Katherine H. Roucoux; Toledo JJ de; Ana C. Andrade; José Luís Camargo; Aguila Pasquel J del; Flávia D. Santana; WF Laurance; SG Laurance; Thomas E. Lovejoy; James A. Comiskey; David R. Galbraith; Michelle Kalamandeen; Gilberto E.Navarro Aguilar; Jim Vega Arenas; Carlos A.Amasifuen Guerra; Manuel Flores; Gerardo Flores Llampazo; Luis A.Torres Montenegro; Ricardo Zarate Gomez; Marcelo P. Pansonato; Victor Chama Moscoso; Jason Vleminckx; Oscar J.Valverde Barrantes; Joost F. Duivenvoorden; Sousa SA de; Luzmila Arroyo; Ricardo O. Perdiz; Jessica Soares Cravo; Beatriz S. Marimon; null Junio

doi:10.1038/s41559-021-01418-y

Amazon tree dominance across forest strata

Frederick C. Draper^*, Flavia R.C. Costa, Gabriel Arellano, Oliver L. Phillips, Alvaro Duque, Manuel J. Macía, Steege H ter, Gregory P. Asner, Erika Berenguer, Juliana Schietti, Jacob B. Socolar, Souza FC de, Kyle G. Dexter, Peter M. Jørgensen, J. Sebastian Tello, William E. Magnusson, Timothy R. Baker, Carolina V. Castilho, Abel Monteagudo-Mendoza, Paul V.A. FineKalle Ruokolainen, Euridice N.Honorio Coronado, Gerardo Aymard, Nállarett Dávila, Mauricio Sánchez Sáenz, Marcos A.Rios Paredes, Julien Engel, Claire Fortunel, C. E.Timothy Paine, Jean Yves Goret, Aurelie Dourdain, Pascal Petronelli, Elodie Allie, Juan E.Guevara Andino, Roel J.W. Brienen, Leslie Cayola Pérez, Ângelo G. Manzatto, Narel Y.Paniagua Zambrana, Jean François Molino, Daniel Sabatier, Jerôme Chave, Sophie Fauset, Roosevelt Garcia Villacorta, Maxime Réjou-Méchain, Paul E. Berry, Karina Melgaço, Ted R. Feldpausch, Elvis Valderamma Sandoval, Rodolfo Vasquez Martinez, Italo Mesones, André B. Junqueira, Katherine H. Roucoux, Toledo JJ de, Ana C. Andrade, José Luís Camargo, Aguila Pasquel J del, Flávia D. Santana, WF Laurance, SG Laurance, Thomas E. Lovejoy, James A. Comiskey, David R. Galbraith, Michelle Kalamandeen, Gilberto E.Navarro Aguilar, Jim Vega Arenas, Carlos A.Amasifuen Guerra, Manuel Flores, Gerardo Flores Llampazo, Luis A.Torres Montenegro, Ricardo Zarate Gomez, Marcelo P. Pansonato, Victor Chama Moscoso, Jason Vleminckx, Oscar J.Valverde Barrantes, Joost F. Duivenvoorden, Sousa SA de, Luzmila Arroyo, Ricardo O. Perdiz, Jessica Soares Cravo, Beatriz S. Marimon, Junio

^*Corresponding author for this work

School of Geography, Earth and Environmental Sciences

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Abstract

The forests of Amazonia are among the most biodiverse plant communities on Earth. Given the immediate threats posed by climate and land-use change, an improved understanding of how this extraordinary biodiversity is spatially organized is urgently required to develop effective conservation strategies. Most Amazonian tree species are extremely rare but a few are common across the region. Indeed, just 227 ‘hyperdominant’ species account for >50% of all individuals >10 cm diameter at 1.3 m in height. Yet, the degree to which the phenomenon of hyperdominance is sensitive to tree size, the extent to which the composition of dominant species changes with size class and how evolutionary history constrains tree hyperdominance, all remain unknown. Here, we use a large floristic dataset to show that, while hyperdominance is a universal phenomenon across forest strata, different species dominate the forest understory, midstory and canopy. We further find that, although species belonging to a range of phylogenetically dispersed lineages have become hyperdominant in small size classes, hyperdominants in large size classes are restricted to a few lineages. Our results demonstrate that it is essential to consider all forest strata to understand regional patterns of dominance and composition in Amazonia. More generally, through the lens of 654 hyperdominant species, we outline a tractable pathway for understanding the functioning of half of Amazonian forests across vertical strata and geographical locations.

Original language	English
Pages (from-to)	757-767
Number of pages	0
Journal	Nature Ecology & Evolution
Volume	5
Issue number	6
Early online date	1 Apr 2021
DOIs	https://doi.org/10.1038/s41559-021-01418-y
Publication status	Published - Jun 2021

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10.1038/s41559-021-01418-y

Draper 2021 Amazon tree dominance across forest strata

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Draper, F. C., Costa, F. R. C., Arellano, G., Phillips, O. L., Duque, A., Macía, M. J., ter, S. H., Asner, G. P., Berenguer, E., Schietti, J., Socolar, J. B., de, S. FC., Dexter, K. G., Jørgensen, P. M., Tello, J. S., Magnusson, W. E., Baker, T. R., Castilho, C. V., Monteagudo-Mendoza, A., ... Junio (2021). Amazon tree dominance across forest strata. Nature Ecology & Evolution, 5(6), 757-767. https://doi.org/10.1038/s41559-021-01418-y

@article{a4d0413dd3c344a48342ef617c1a8226,

title = "Amazon tree dominance across forest strata",

abstract = "The forests of Amazonia are among the most biodiverse plant communities on Earth. Given the immediate threats posed by climate and land-use change, an improved understanding of how this extraordinary biodiversity is spatially organized is urgently required to develop effective conservation strategies. Most Amazonian tree species are extremely rare but a few are common across the region. Indeed, just 227 {\textquoteleft}hyperdominant{\textquoteright} species account for >50% of all individuals >10 cm diameter at 1.3 m in height. Yet, the degree to which the phenomenon of hyperdominance is sensitive to tree size, the extent to which the composition of dominant species changes with size class and how evolutionary history constrains tree hyperdominance, all remain unknown. Here, we use a large floristic dataset to show that, while hyperdominance is a universal phenomenon across forest strata, different species dominate the forest understory, midstory and canopy. We further find that, although species belonging to a range of phylogenetically dispersed lineages have become hyperdominant in small size classes, hyperdominants in large size classes are restricted to a few lineages. Our results demonstrate that it is essential to consider all forest strata to understand regional patterns of dominance and composition in Amazonia. More generally, through the lens of 654 hyperdominant species, we outline a tractable pathway for understanding the functioning of half of Amazonian forests across vertical strata and geographical locations.",

author = "Draper, {Frederick C.} and Costa, {Flavia R.C.} and Gabriel Arellano and Phillips, {Oliver L.} and Alvaro Duque and Mac{\'i}a, {Manuel J.} and ter, {Steege H} and Asner, {Gregory P.} and Erika Berenguer and Juliana Schietti and Socolar, {Jacob B.} and de, {Souza FC} and Dexter, {Kyle G.} and J{\o}rgensen, {Peter M.} and Tello, {J. Sebastian} and Magnusson, {William E.} and Baker, {Timothy R.} and Castilho, {Carolina V.} and Abel Monteagudo-Mendoza and Fine, {Paul V.A.} and Kalle Ruokolainen and Coronado, {Euridice N.Honorio} and Gerardo Aymard and N{\'a}llarett D{\'a}vila and S{\'a}enz, {Mauricio S{\'a}nchez} and Paredes, {Marcos A.Rios} and Julien Engel and Claire Fortunel and Paine, {C. E.Timothy} and Goret, {Jean Yves} and Aurelie Dourdain and Pascal Petronelli and Elodie Allie and Andino, {Juan E.Guevara} and Brienen, {Roel J.W.} and P{\'e}rez, {Leslie Cayola} and Manzatto, {{\^A}ngelo G.} and Zambrana, {Narel Y.Paniagua} and Molino, {Jean Fran{\c c}ois} and Daniel Sabatier and Jer{\^o}me Chave and Sophie Fauset and Villacorta, {Roosevelt Garcia} and Maxime R{\'e}jou-M{\'e}chain and Berry, {Paul E.} and Karina Melga{\c c}o and Feldpausch, {Ted R.} and Sandoval, {Elvis Valderamma} and Martinez, {Rodolfo Vasquez} and Italo Mesones and Junqueira, {Andr{\'e} B.} and Roucoux, {Katherine H.} and de, {Toledo JJ} and Andrade, {Ana C.} and Camargo, {Jos{\'e} Lu{\'i}s} and del, {Aguila Pasquel J} and Santana, {Fl{\'a}via D.} and WF Laurance and SG Laurance and Lovejoy, {Thomas E.} and Comiskey, {James A.} and Galbraith, {David R.} and Michelle Kalamandeen and Aguilar, {Gilberto E.Navarro} and Arenas, {Jim Vega} and Guerra, {Carlos A.Amasifuen} and Manuel Flores and Llampazo, {Gerardo Flores} and Montenegro, {Luis A.Torres} and Gomez, {Ricardo Zarate} and Pansonato, {Marcelo P.} and Moscoso, {Victor Chama} and Jason Vleminckx and Barrantes, {Oscar J.Valverde} and Duivenvoorden, {Joost F.} and de, {Sousa SA} and Luzmila Arroyo and Perdiz, {Ricardo O.} and Cravo, {Jessica Soares} and Marimon, {Beatriz S.} and Junio",

year = "2021",

month = jun,

doi = "10.1038/s41559-021-01418-y",

language = "English",

volume = "5",

pages = "757--767",

journal = "Nature Ecology & Evolution",

issn = "2397-334X",

number = "6",

}

Draper, FC, Costa, FRC, Arellano, G, Phillips, OL, Duque, A, Macía, MJ, ter, SH, Asner, GP, Berenguer, E, Schietti, J, Socolar, JB, de, SFC, Dexter, KG, Jørgensen, PM, Tello, JS, Magnusson, WE, Baker, TR, Castilho, CV, Monteagudo-Mendoza, A, Fine, PVA, Ruokolainen, K, Coronado, ENH, Aymard, G, Dávila, N, Sáenz, MS, Paredes, MAR, Engel, J, Fortunel, C, Paine, CET, Goret, JY, Dourdain, A, Petronelli, P, Allie, E, Andino, JEG, Brienen, RJW, Pérez, LC, Manzatto, ÂG, Zambrana, NYP, Molino, JF, Sabatier, D, Chave, J, Fauset, S, Villacorta, RG, Réjou-Méchain, M, Berry, PE, Melgaço, K, Feldpausch, TR, Sandoval, EV, Martinez, RV, Mesones, I, Junqueira, AB, Roucoux, KH, de, TJJ, Andrade, AC, Camargo, JL, del, APJ, Santana, FD, Laurance, WF, Laurance, SG, Lovejoy, TE, Comiskey, JA, Galbraith, DR, Kalamandeen, M, Aguilar, GEN, Arenas, JV, Guerra, CAA, Flores, M, Llampazo, GF, Montenegro, LAT, Gomez, RZ, Pansonato, MP, Moscoso, VC, Vleminckx, J, Barrantes, OJV, Duivenvoorden, JF, de, SSA, Arroyo, L, Perdiz, RO, Cravo, JS, Marimon, BS & Junio 2021, 'Amazon tree dominance across forest strata', Nature Ecology & Evolution, vol. 5, no. 6, pp. 757-767. https://doi.org/10.1038/s41559-021-01418-y

TY - JOUR

T1 - Amazon tree dominance across forest strata

AU - Draper, Frederick C.

AU - Costa, Flavia R.C.

AU - Arellano, Gabriel

AU - Phillips, Oliver L.

AU - Duque, Alvaro

AU - Macía, Manuel J.

AU - ter, Steege H

AU - Asner, Gregory P.

AU - Berenguer, Erika

AU - Schietti, Juliana

AU - Socolar, Jacob B.

AU - de, Souza FC

AU - Dexter, Kyle G.

AU - Jørgensen, Peter M.

AU - Tello, J. Sebastian

AU - Magnusson, William E.

AU - Baker, Timothy R.

AU - Castilho, Carolina V.

AU - Monteagudo-Mendoza, Abel

AU - Fine, Paul V.A.

AU - Ruokolainen, Kalle

AU - Coronado, Euridice N.Honorio

AU - Aymard, Gerardo

AU - Dávila, Nállarett

AU - Sáenz, Mauricio Sánchez

AU - Paredes, Marcos A.Rios

AU - Engel, Julien

AU - Fortunel, Claire

AU - Paine, C. E.Timothy

AU - Goret, Jean Yves

AU - Dourdain, Aurelie

AU - Petronelli, Pascal

AU - Allie, Elodie

AU - Andino, Juan E.Guevara

AU - Brienen, Roel J.W.

AU - Pérez, Leslie Cayola

AU - Manzatto, Ângelo G.

AU - Zambrana, Narel Y.Paniagua

AU - Molino, Jean François

AU - Sabatier, Daniel

AU - Chave, Jerôme

AU - Fauset, Sophie

AU - Villacorta, Roosevelt Garcia

AU - Réjou-Méchain, Maxime

AU - Berry, Paul E.

AU - Melgaço, Karina

AU - Feldpausch, Ted R.

AU - Sandoval, Elvis Valderamma

AU - Martinez, Rodolfo Vasquez

AU - Mesones, Italo

AU - Junqueira, André B.

AU - Roucoux, Katherine H.

AU - de, Toledo JJ

AU - Andrade, Ana C.

AU - Camargo, José Luís

AU - del, Aguila Pasquel J

AU - Santana, Flávia D.

AU - Laurance, WF

AU - Laurance, SG

AU - Lovejoy, Thomas E.

AU - Comiskey, James A.

AU - Galbraith, David R.

AU - Kalamandeen, Michelle

AU - Aguilar, Gilberto E.Navarro

AU - Arenas, Jim Vega

AU - Guerra, Carlos A.Amasifuen

AU - Flores, Manuel

AU - Llampazo, Gerardo Flores

AU - Montenegro, Luis A.Torres

AU - Gomez, Ricardo Zarate

AU - Pansonato, Marcelo P.

AU - Moscoso, Victor Chama

AU - Vleminckx, Jason

AU - Barrantes, Oscar J.Valverde

AU - Duivenvoorden, Joost F.

AU - de, Sousa SA

AU - Arroyo, Luzmila

AU - Perdiz, Ricardo O.

AU - Cravo, Jessica Soares

AU - Marimon, Beatriz S.

AU - Junio, null

PY - 2021/6

Y1 - 2021/6

N2 - The forests of Amazonia are among the most biodiverse plant communities on Earth. Given the immediate threats posed by climate and land-use change, an improved understanding of how this extraordinary biodiversity is spatially organized is urgently required to develop effective conservation strategies. Most Amazonian tree species are extremely rare but a few are common across the region. Indeed, just 227 ‘hyperdominant’ species account for >50% of all individuals >10 cm diameter at 1.3 m in height. Yet, the degree to which the phenomenon of hyperdominance is sensitive to tree size, the extent to which the composition of dominant species changes with size class and how evolutionary history constrains tree hyperdominance, all remain unknown. Here, we use a large floristic dataset to show that, while hyperdominance is a universal phenomenon across forest strata, different species dominate the forest understory, midstory and canopy. We further find that, although species belonging to a range of phylogenetically dispersed lineages have become hyperdominant in small size classes, hyperdominants in large size classes are restricted to a few lineages. Our results demonstrate that it is essential to consider all forest strata to understand regional patterns of dominance and composition in Amazonia. More generally, through the lens of 654 hyperdominant species, we outline a tractable pathway for understanding the functioning of half of Amazonian forests across vertical strata and geographical locations.

AB - The forests of Amazonia are among the most biodiverse plant communities on Earth. Given the immediate threats posed by climate and land-use change, an improved understanding of how this extraordinary biodiversity is spatially organized is urgently required to develop effective conservation strategies. Most Amazonian tree species are extremely rare but a few are common across the region. Indeed, just 227 ‘hyperdominant’ species account for >50% of all individuals >10 cm diameter at 1.3 m in height. Yet, the degree to which the phenomenon of hyperdominance is sensitive to tree size, the extent to which the composition of dominant species changes with size class and how evolutionary history constrains tree hyperdominance, all remain unknown. Here, we use a large floristic dataset to show that, while hyperdominance is a universal phenomenon across forest strata, different species dominate the forest understory, midstory and canopy. We further find that, although species belonging to a range of phylogenetically dispersed lineages have become hyperdominant in small size classes, hyperdominants in large size classes are restricted to a few lineages. Our results demonstrate that it is essential to consider all forest strata to understand regional patterns of dominance and composition in Amazonia. More generally, through the lens of 654 hyperdominant species, we outline a tractable pathway for understanding the functioning of half of Amazonian forests across vertical strata and geographical locations.

UR - https://pearl.plymouth.ac.uk/context/gees-research/article/1759/viewcontent/Draper_202021_20Amazon_20tree_20dominance_20across_20forest_20strata.pdf

U2 - 10.1038/s41559-021-01418-y

DO - 10.1038/s41559-021-01418-y

M3 - Article

SN - 2397-334X

VL - 5

SP - 757

EP - 767

JO - Nature Ecology & Evolution

JF - Nature Ecology & Evolution

IS - 6

ER -

Amazon tree dominance across forest strata

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