Beyond species means: the intraspecific contribution to global wood density variation

Fabian Jörg Fischer; Jérôme Chave; Amy Zanne; Tommaso Jucker; Alex Fajardo; Adeline Fayolle; Renato Augusto Ferreira de Lima; Ghislain Vieilledent; Hans Beeckman; Wannes Hubau; Tom De Mil; Daniel Wallenus; Ana María Aldana; Esteban Alvarez-Dávila; Luciana F. Alves; Deborah M.G. Apgaua; Fátima Arcanjo; Jean François Bastin; Andrii Bilous; Philippe Birnbaum; Volodymyr Blyshchyk; Joli Borah; Vanessa Boukili; J. Julio Camarero; Luisa Casas; Roberto Cazzolla Gatti; Jeffrey Q. Chambers; Ezequiel Chimbioputo Fabiano; Brendan Choat; Georgina Conti; Will Cornwell; Javid Ahmad Dar; Ashesh Kumar Das; Magnus Dobler; Dao Dougabka; David P. Edwards; Robert Evans; Daniel Falster; Philip Fearnside; Olivier Flores; Nikolaos Fyllas; Jean Gérard; Rosa C. Goodman; Daniel Guibal; L. Francisco Henao-Diaz; Vincent Hervé; Peter Hietz; Jürgen Homeier; Thomas Ibanez; Jugo Ilic; Steven Jansen; Rinku Moni Kalita; Tanaka Kenzo; Liana Kindermann; Subashree Kothandaraman; Martyna Kotowska; Yasuhiro Kubota; Patrick Langbour; James Lawson; André Luiz Alves de Lima; Roman Mathias Link; Anja Linstädter; Rosana López; Cate Macinnis-Ng; Luiz Fernando S. Magnago; Adam R. Martin; Ashley M. Matheny; James K. McCarthy; Regis B. Miller; Arun Jyoti Nath; Bruce Walker Nelson; Marco Njana; Euler Melo Nogueira; Alexandre Oliveira; Rafael Oliveira; Mark Olson; Yusuke Onoda; Keryn Paul; Daniel Piotto; Phil Radtke; Onja Razafindratsima; Tahiana Ramananantoandro; Jennifer Read; Sarah Richardson; Enrique G. de la Riva; Oris Rodríguez-Reyes; Samir G. Rolim; Victor Rolo; Julieta A. Rosell; Roberto Salguero-Gómez; Nadia S. Santini; Bernhard Schuldt; Luitgard Schwendenmann; Arne Sellin; Timothy Staples; Pablo R. Stevenson; Somaiah Sundarapandian; Masha T. van der Sande; Bernard Thibaut; David Yue Phin Tng; José Marcelo Domingues Torezan; Boris Villanueva; Aaron Weiskittel; Jessie Wells; S. Joseph Wright; Kasia Zieminska

doi:10.1111/nph.70860

Beyond species means: the intraspecific contribution to global wood density variation

Fabian Jörg Fischer
, Jérôme Chave
, Amy Zanne
, Tommaso Jucker
, Alex Fajardo
, Adeline Fayolle
, Renato Augusto Ferreira de Lima
, Ghislain Vieilledent
, Hans Beeckman
, Wannes Hubau
, Tom De Mil
, Daniel Wallenus
, Ana María Aldana
, Esteban Alvarez-Dávila
, Luciana F. Alves
, Deborah M.G. Apgaua
, Fátima Arcanjo
, Jean François Bastin
, Andrii Bilous
, Philippe Birnbaum

Volodymyr Blyshchyk, Joli Borah, Vanessa Boukili, J. Julio Camarero, Luisa Casas, Roberto Cazzolla Gatti, Jeffrey Q. Chambers, Ezequiel Chimbioputo Fabiano, Brendan Choat, Georgina Conti, Will Cornwell, Javid Ahmad Dar, Ashesh Kumar Das, Magnus Dobler, Dao Dougabka, David P. Edwards, Robert Evans, Daniel Falster, Philip Fearnside, Olivier Flores, Nikolaos Fyllas, Jean Gérard, Rosa C. Goodman, Daniel Guibal, L. Francisco Henao-Diaz, Vincent Hervé, Peter Hietz, Jürgen Homeier, Thomas Ibanez, Jugo Ilic, Steven Jansen, Rinku Moni Kalita, Tanaka Kenzo, Liana Kindermann, Subashree Kothandaraman, Martyna Kotowska, Yasuhiro Kubota, Patrick Langbour, James Lawson, André Luiz Alves de Lima, Roman Mathias Link, Anja Linstädter, Rosana López, Cate Macinnis-Ng, Luiz Fernando S. Magnago, Adam R. Martin, Ashley M. Matheny, James K. McCarthy, Regis B. Miller, Arun Jyoti Nath, Bruce Walker Nelson, Marco Njana, Euler Melo Nogueira, Alexandre Oliveira, Rafael Oliveira, Mark Olson, Yusuke Onoda, Keryn Paul, Daniel Piotto, Phil Radtke, Onja Razafindratsima, Tahiana Ramananantoandro, Jennifer Read, Sarah Richardson, Enrique G. de la Riva, Oris Rodríguez-Reyes, Samir G. Rolim, Victor Rolo, Julieta A. Rosell, Roberto Salguero-Gómez, Nadia S. Santini, Bernhard Schuldt, Luitgard Schwendenmann, Arne Sellin, Timothy Staples, Pablo R. Stevenson, Somaiah Sundarapandian, Masha T. van der Sande, Bernard Thibaut, David Yue Phin Tng, José Marcelo Domingues Torezan, Boris Villanueva, Aaron Weiskittel, Jessie Wells, S. Joseph Wright, Kasia Zieminska

Hawkesbury Institute for the Environment

University of Bristol
Technical University of Munich
Institut national polytechnique de Toulouse
Institute of Ecosystem Studies
Universidad de Talca
Instituto de Ecología y Biodiversidad
Ministerio de Planificación, Chile
University of Liege
Universidade de São Paulo
Univ Montpellier
IAC
Royal Museum for Central Africa
Ghent University
Universidad de los Andes Colombia
Fundación Con Vida
University of California at Los Angeles
School for Field Studies
Universidade Federal de Uberlândia
Universidade Estadual de Londrina
National University of Life and Environmental Sciences of Ukraine
Weihenstephan-Triesdorf University of Applied Sciences
University of Sheffield
University of Connecticut
Office of Strategic Planning and Community Development
CSIC - Pyrenean Institute of Ecology
Ministerio de Vivienda, Ciudad y Territorio
University of Bologna
University of California at Berkeley
University of Namibia
Universidad Nacional de Córdoba
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SRM University-AP
Assam University
University of Potsdam
École Nationale Supérieure des Travaux Publics du Tchad
University of Cambridge
University of Melbourne
Instituto Nacional de Pesquisas da Amazônia
Université de La Réunion
Section of Ecology and Taxonomy
Université de Montpellier
Swedish University of Agricultural Sciences
Chalmers University of Technology
Université Paris-Saclay
University of Natural Resources and Life Sciences, Vienna
HAWK University of Applied Sciences and Arts
University of Göttingen
Ulm University
Bhattadev University, Bajali
Japan International Research Center for Agricultural Sciences
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Think Nature Inc.
University of the Ryukyus
NSW Department of Primary Industries
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Technische Universität Dresden
Technical University of Madrid
The University of Auckland
Universidade Federal do Sul da Bahia
University of Toronto
University of Texas at Austin
Manaaki Whenua - Landcare Research
Private researcher
Wildlife Conservation Society of Tanzania
Universidade de Gurupi
Colégio Estadual Francisco Moreira Alves
Universidade Estadual de Campinas
Universidad Nacional Autónoma de México
Kyoto University
CSIRO
Virginia Polytechnic Institute and State University
Université d'Antananarivo
Monash University
University of Leon
Smithsonian Institution
University of Panama
University of Extremadura
University of Oxford
University of Tartu
University of Queensland
Pondicherry University
Wageningen University & Research
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Jardín Botánico de Bogotá
University of Maine
Independent Researcher

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

4 Citations (Scopus)

Abstract

Wood density is central for estimating vegetation carbon storage and a plant functional trait of great ecological and evolutionary importance. However, the global extent of wood density variation is unclear, especially at the intraspecific level. We assembled the most comprehensive wood density collection to date, including 109 626 records from 16 829 plant species across woody life forms and biomes (GWDD v.2, available here: doi: 10.5281/zenodo.16919509). Using the GWDD v.2, we explored the sources of wood density variation within individuals, within species and across environmental gradients. Intraspecific variation accounted for c. 15% of overall wood density variation (SD = 0.068 g cm⁻³). Variance was 50% smaller in sapwood than heartwood, and 30% smaller in branchwood than trunkwood. Individuals in extreme environments (dry, hot and acidic soils) had higher wood density than conspecifics elsewhere (+0.02 g cm⁻³, c. 4% of the mean). Intraspecific environmental effects strongly tracked interspecific patterns (r = 0.83) but were 70–80% smaller and varied considerably among taxa. Individual plant wood density was difficult to predict (root mean square error > 0.08 g cm⁻³; single-measurement R² = 0.59). We recommend: (1) systematic sampling of multiple individuals and tissues for local applications; and (2) expanded taxonomic coverage combined with integrative models for robust estimates across ecological scales.

Original language	English
Article number	PMID 9882884
Pages (from-to)	2630-2651
Number of pages	22
Journal	New Phytologist
Volume	249
Issue number	6
DOIs	https://doi.org/10.1111/nph.70860
Publication status	Published - Mar 2026

Keywords

aridity
biomass
functional trait
hierarchical modelling
intraspecific variation
wood density

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Fischer, F. J., Chave, J., Zanne, A., Jucker, T., Fajardo, A., Fayolle, A., de Lima, R. A. F., Vieilledent, G., Beeckman, H., Hubau, W., De Mil, T., Wallenus, D., Aldana, A. M., Alvarez-Dávila, E., Alves, L. F., Apgaua, D. M. G., Arcanjo, F., Bastin, J. F., Bilous, A., ... Zieminska, K. (2026). Beyond species means: the intraspecific contribution to global wood density variation. New Phytologist, 249(6), 2630-2651. Article PMID 9882884. https://doi.org/10.1111/nph.70860

@article{d1d4b2312eaf4083ae46a9f5f23278d3,

title = "Beyond species means: the intraspecific contribution to global wood density variation",

abstract = "Wood density is central for estimating vegetation carbon storage and a plant functional trait of great ecological and evolutionary importance. However, the global extent of wood density variation is unclear, especially at the intraspecific level. We assembled the most comprehensive wood density collection to date, including 109 626 records from 16 829 plant species across woody life forms and biomes (GWDD v.2, available here: doi: 10.5281/zenodo.16919509). Using the GWDD v.2, we explored the sources of wood density variation within individuals, within species and across environmental gradients. Intraspecific variation accounted for c. 15\% of overall wood density variation (SD = 0.068 g cm−3). Variance was 50\% smaller in sapwood than heartwood, and 30\% smaller in branchwood than trunkwood. Individuals in extreme environments (dry, hot and acidic soils) had higher wood density than conspecifics elsewhere (+0.02 g cm−3, c. 4\% of the mean). Intraspecific environmental effects strongly tracked interspecific patterns (r = 0.83) but were 70–80\% smaller and varied considerably among taxa. Individual plant wood density was difficult to predict (root mean square error > 0.08 g cm−3; single-measurement R2 = 0.59). We recommend: (1) systematic sampling of multiple individuals and tissues for local applications; and (2) expanded taxonomic coverage combined with integrative models for robust estimates across ecological scales.",

keywords = "aridity, biomass, functional trait, hierarchical modelling, intraspecific variation, wood density",

author = "Fischer, \{Fabian J{\"o}rg\} and J{\'e}r{\^o}me Chave and Amy Zanne and Tommaso Jucker and Alex Fajardo and Adeline Fayolle and \{de Lima\}, \{Renato Augusto Ferreira\} and Ghislain Vieilledent and Hans Beeckman and Wannes Hubau and \{De Mil\}, Tom and Daniel Wallenus and Aldana, \{Ana Mar{\'i}a\} and Esteban Alvarez-D{\'a}vila and Alves, \{Luciana F.\} and Apgaua, \{Deborah M.G.\} and F{\'a}tima Arcanjo and Bastin, \{Jean Fran{\c c}ois\} and Andrii Bilous and Philippe Birnbaum and Volodymyr Blyshchyk and Joli Borah and Vanessa Boukili and Camarero, \{J. Julio\} and Luisa Casas and \{Cazzolla Gatti\}, Roberto and Chambers, \{Jeffrey Q.\} and Fabiano, \{Ezequiel Chimbioputo\} and Brendan Choat and Georgina Conti and Will Cornwell and Dar, \{Javid Ahmad\} and Das, \{Ashesh Kumar\} and Magnus Dobler and Dao Dougabka and Edwards, \{David P.\} and Robert Evans and Daniel Falster and Philip Fearnside and Olivier Flores and Nikolaos Fyllas and Jean G{\'e}rard and Goodman, \{Rosa C.\} and Daniel Guibal and Henao-Diaz, \{L. Francisco\} and Vincent Herv{\'e} and Peter Hietz and J{\"u}rgen Homeier and Thomas Ibanez and Jugo Ilic and Steven Jansen and Kalita, \{Rinku Moni\} and Tanaka Kenzo and Liana Kindermann and Subashree Kothandaraman and Martyna Kotowska and Yasuhiro Kubota and Patrick Langbour and James Lawson and \{de Lima\}, \{Andr{\'e} Luiz Alves\} and Link, \{Roman Mathias\} and Anja Linst{\"a}dter and Rosana L{\'o}pez and Cate Macinnis-Ng and Magnago, \{Luiz Fernando S.\} and Martin, \{Adam R.\} and Matheny, \{Ashley M.\} and McCarthy, \{James K.\} and Miller, \{Regis B.\} and Nath, \{Arun Jyoti\} and Nelson, \{Bruce Walker\} and Marco Njana and Nogueira, \{Euler Melo\} and Alexandre Oliveira and Rafael Oliveira and Mark Olson and Yusuke Onoda and Keryn Paul and Daniel Piotto and Phil Radtke and Onja Razafindratsima and Tahiana Ramananantoandro and Jennifer Read and Sarah Richardson and \{de la Riva\}, \{Enrique G.\} and Oris Rodr{\'i}guez-Reyes and Rolim, \{Samir G.\} and Victor Rolo and Rosell, \{Julieta A.\} and Roberto Salguero-G{\'o}mez and Santini, \{Nadia S.\} and Bernhard Schuldt and Luitgard Schwendenmann and Arne Sellin and Timothy Staples and Stevenson, \{Pablo R.\} and Somaiah Sundarapandian and \{van der Sande\}, \{Masha T.\} and Bernard Thibaut and Tng, \{David Yue Phin\} and Torezan, \{Jos{\'e} Marcelo Domingues\} and Boris Villanueva and Aaron Weiskittel and Jessie Wells and Wright, \{S. Joseph\} and Kasia Zieminska",

year = "2026",

month = mar,

doi = "10.1111/nph.70860",

language = "English",

volume = "249",

pages = "2630--2651",

journal = "New Phytologist",

issn = "0028-646X",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "6",

}

Fischer, FJ, Chave, J, Zanne, A, Jucker, T, Fajardo, A, Fayolle, A, de Lima, RAF, Vieilledent, G, Beeckman, H, Hubau, W, De Mil, T, Wallenus, D, Aldana, AM, Alvarez-Dávila, E, Alves, LF, Apgaua, DMG, Arcanjo, F, Bastin, JF, Bilous, A, Birnbaum, P, Blyshchyk, V, Borah, J, Boukili, V, Camarero, JJ, Casas, L, Cazzolla Gatti, R, Chambers, JQ, Fabiano, EC, Choat, B, Conti, G, Cornwell, W, Dar, JA, Das, AK, Dobler, M, Dougabka, D, Edwards, DP, Evans, R, Falster, D, Fearnside, P, Flores, O, Fyllas, N, Gérard, J, Goodman, RC, Guibal, D, Henao-Diaz, LF, Hervé, V, Hietz, P, Homeier, J, Ibanez, T, Ilic, J, Jansen, S, Kalita, RM, Kenzo, T, Kindermann, L, Kothandaraman, S, Kotowska, M, Kubota, Y, Langbour, P, Lawson, J, de Lima, ALA, Link, RM, Linstädter, A, López, R, Macinnis-Ng, C, Magnago, LFS, Martin, AR, Matheny, AM, McCarthy, JK, Miller, RB, Nath, AJ, Nelson, BW, Njana, M, Nogueira, EM, Oliveira, A, Oliveira, R, Olson, M, Onoda, Y, Paul, K, Piotto, D, Radtke, P, Razafindratsima, O, Ramananantoandro, T, Read, J, Richardson, S, de la Riva, EG, Rodríguez-Reyes, O, Rolim, SG, Rolo, V, Rosell, JA, Salguero-Gómez, R, Santini, NS, Schuldt, B, Schwendenmann, L, Sellin, A, Staples, T, Stevenson, PR, Sundarapandian, S, van der Sande, MT, Thibaut, B, Tng, DYP, Torezan, JMD, Villanueva, B, Weiskittel, A, Wells, J, Wright, SJ & Zieminska, K 2026, 'Beyond species means: the intraspecific contribution to global wood density variation', New Phytologist, vol. 249, no. 6, PMID 9882884, pp. 2630-2651. https://doi.org/10.1111/nph.70860

TY - JOUR

T1 - Beyond species means: the intraspecific contribution to global wood density variation

AU - Fischer, Fabian Jörg

AU - Chave, Jérôme

AU - Zanne, Amy

AU - Jucker, Tommaso

AU - Fajardo, Alex

AU - Fayolle, Adeline

AU - de Lima, Renato Augusto Ferreira

AU - Vieilledent, Ghislain

AU - Beeckman, Hans

AU - Hubau, Wannes

AU - De Mil, Tom

AU - Wallenus, Daniel

AU - Aldana, Ana María

AU - Alvarez-Dávila, Esteban

AU - Alves, Luciana F.

AU - Apgaua, Deborah M.G.

AU - Arcanjo, Fátima

AU - Bastin, Jean François

AU - Bilous, Andrii

AU - Birnbaum, Philippe

AU - Blyshchyk, Volodymyr

AU - Borah, Joli

AU - Boukili, Vanessa

AU - Camarero, J. Julio

AU - Casas, Luisa

AU - Cazzolla Gatti, Roberto

AU - Chambers, Jeffrey Q.

AU - Fabiano, Ezequiel Chimbioputo

AU - Choat, Brendan

AU - Conti, Georgina

AU - Cornwell, Will

AU - Dar, Javid Ahmad

AU - Das, Ashesh Kumar

AU - Dobler, Magnus

AU - Dougabka, Dao

AU - Edwards, David P.

AU - Evans, Robert

AU - Falster, Daniel

AU - Fearnside, Philip

AU - Flores, Olivier

AU - Fyllas, Nikolaos

AU - Gérard, Jean

AU - Goodman, Rosa C.

AU - Guibal, Daniel

AU - Henao-Diaz, L. Francisco

AU - Hervé, Vincent

AU - Hietz, Peter

AU - Homeier, Jürgen

AU - Ibanez, Thomas

AU - Ilic, Jugo

AU - Jansen, Steven

AU - Kalita, Rinku Moni

AU - Kenzo, Tanaka

AU - Kindermann, Liana

AU - Kothandaraman, Subashree

AU - Kotowska, Martyna

AU - Kubota, Yasuhiro

AU - Langbour, Patrick

AU - Lawson, James

AU - de Lima, André Luiz Alves

AU - Link, Roman Mathias

AU - Linstädter, Anja

AU - López, Rosana

AU - Macinnis-Ng, Cate

AU - Magnago, Luiz Fernando S.

AU - Martin, Adam R.

AU - Matheny, Ashley M.

AU - McCarthy, James K.

AU - Miller, Regis B.

AU - Nath, Arun Jyoti

AU - Nelson, Bruce Walker

AU - Njana, Marco

AU - Nogueira, Euler Melo

AU - Oliveira, Alexandre

AU - Oliveira, Rafael

AU - Olson, Mark

AU - Onoda, Yusuke

AU - Paul, Keryn

AU - Piotto, Daniel

AU - Radtke, Phil

AU - Razafindratsima, Onja

AU - Ramananantoandro, Tahiana

AU - Read, Jennifer

AU - Richardson, Sarah

AU - de la Riva, Enrique G.

AU - Rodríguez-Reyes, Oris

AU - Rolim, Samir G.

AU - Rolo, Victor

AU - Rosell, Julieta A.

AU - Salguero-Gómez, Roberto

AU - Santini, Nadia S.

AU - Schuldt, Bernhard

AU - Schwendenmann, Luitgard

AU - Sellin, Arne

AU - Staples, Timothy

AU - Stevenson, Pablo R.

AU - Sundarapandian, Somaiah

AU - van der Sande, Masha T.

AU - Thibaut, Bernard

AU - Tng, David Yue Phin

AU - Torezan, José Marcelo Domingues

AU - Villanueva, Boris

AU - Weiskittel, Aaron

AU - Wells, Jessie

AU - Wright, S. Joseph

AU - Zieminska, Kasia

PY - 2026/3

Y1 - 2026/3

N2 - Wood density is central for estimating vegetation carbon storage and a plant functional trait of great ecological and evolutionary importance. However, the global extent of wood density variation is unclear, especially at the intraspecific level. We assembled the most comprehensive wood density collection to date, including 109 626 records from 16 829 plant species across woody life forms and biomes (GWDD v.2, available here: doi: 10.5281/zenodo.16919509). Using the GWDD v.2, we explored the sources of wood density variation within individuals, within species and across environmental gradients. Intraspecific variation accounted for c. 15% of overall wood density variation (SD = 0.068 g cm−3). Variance was 50% smaller in sapwood than heartwood, and 30% smaller in branchwood than trunkwood. Individuals in extreme environments (dry, hot and acidic soils) had higher wood density than conspecifics elsewhere (+0.02 g cm−3, c. 4% of the mean). Intraspecific environmental effects strongly tracked interspecific patterns (r = 0.83) but were 70–80% smaller and varied considerably among taxa. Individual plant wood density was difficult to predict (root mean square error > 0.08 g cm−3; single-measurement R2 = 0.59). We recommend: (1) systematic sampling of multiple individuals and tissues for local applications; and (2) expanded taxonomic coverage combined with integrative models for robust estimates across ecological scales.

AB - Wood density is central for estimating vegetation carbon storage and a plant functional trait of great ecological and evolutionary importance. However, the global extent of wood density variation is unclear, especially at the intraspecific level. We assembled the most comprehensive wood density collection to date, including 109 626 records from 16 829 plant species across woody life forms and biomes (GWDD v.2, available here: doi: 10.5281/zenodo.16919509). Using the GWDD v.2, we explored the sources of wood density variation within individuals, within species and across environmental gradients. Intraspecific variation accounted for c. 15% of overall wood density variation (SD = 0.068 g cm−3). Variance was 50% smaller in sapwood than heartwood, and 30% smaller in branchwood than trunkwood. Individuals in extreme environments (dry, hot and acidic soils) had higher wood density than conspecifics elsewhere (+0.02 g cm−3, c. 4% of the mean). Intraspecific environmental effects strongly tracked interspecific patterns (r = 0.83) but were 70–80% smaller and varied considerably among taxa. Individual plant wood density was difficult to predict (root mean square error > 0.08 g cm−3; single-measurement R2 = 0.59). We recommend: (1) systematic sampling of multiple individuals and tissues for local applications; and (2) expanded taxonomic coverage combined with integrative models for robust estimates across ecological scales.

KW - aridity

KW - biomass

KW - functional trait

KW - hierarchical modelling

KW - intraspecific variation

KW - wood density

UR - https://www.scopus.com/pages/publications/105029441797

U2 - 10.1111/nph.70860

DO - 10.1111/nph.70860

M3 - Article

AN - SCOPUS:105029441797

SN - 0028-646X

VL - 249

SP - 2630

EP - 2651

JO - New Phytologist

JF - New Phytologist

IS - 6

M1 - PMID 9882884

ER -

Beyond species means: the intraspecific contribution to global wood density variation

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Keywords

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