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

  1. Fabian Jörg Fischer
  2. Jérôme Chave
  3. Amy Zanne
  4. Tommaso Jucker
  5. Alex Fajardo
  6. Adeline Fayolle
  7. Renato Augusto Ferreira de Lima
  8. Ghislain Vieilledent
  9. Hans Beeckman
  10. Wannes Hubau
  11. Tom De Mil
  12. Daniel Wallenus
  13. Ana María Aldana
  14. Esteban Alvarez-Dávila
  15. Luciana F. Alves
  16. Deborah M. G. Apgaua
  17. Fátima Arcanjo
  18. Jean-François Bastin
  19. Andrii Bilous
  20. Philippe Birnbaum
  21. Volodymyr Blyshchyk
  22. Joli Borah
  23. Vanessa Boukili
  24. J. Julio Camarero
  25. Luisa Casas
  26. Roberto Cazzolla Gatti
  27. Jeffrey Q. Chambers
  28. Ezequiel Chimbioputo Fabiano
  29. Brendan Choat
  30. Georgina Conti
  31. Will Cornwell
  32. Javid Ahmad Dar
  33. Ashesh Kumar Das
  34. Magnus Dobler
  35. Dao Dougabka
  36. David P. Edwards
  37. Robert Evans
  38. Daniel Falster
  39. Philip Fearnside
  40. Olivier Flores
  41. Nikolaos Fyllas
  42. Jean Gérard
  43. Rosa C. Goodman
  44. Daniel Guibal
  45. L. Francisco Henao-Diaz
  46. Vincent Hervé
  47. Peter Hietz
  48. Jürgen Homeier
  49. Thomas Ibanez
  50. Jugo Ilic
  51. Steven Jansen
  52. Rinku Moni Kalita
  53. Tanaka Kenzo
  54. Liana Kindermann
  55. Subashree Kothandaraman
  56. Martyna Kotowska
  57. Yasuhiro Kubota
  58. Patrick Langbour
  59. James Lawson
  60. André Luiz Alves de Lima
  61. Roman Mathias Link
  62. Anja Linstädter
  63. Rosana López
  64. Cate Macinnis-Ng
  65. Luiz Fernando S. Magnago
  66. Adam R. Martin
  67. Ashley M. Matheny
  68. James K. McCarthy
  69. Regis B. Miller
  70. Arun Jyoti Nath
  71. Bruce Walker Nelson
  72. Marco Njana
  73. Euler Melo Nogueira
  74. Alexandre Oliveira
  75. Rafael Oliveira
  76. Mark Olson
  77. Yusuke Onoda
  78. Keryn Paul
  79. Daniel Piotto
  80. Phil Radtke
  81. Onja Razafindratsima
  82. Tahiana Ramananantoandro
  83. Jennifer Read
  84. Sarah Richardson
  85. Enrique G. de la Riva
  86. Oris Rodríguez-Reyes
  87. Samir G. Rolim
  88. Victor Rolo
  89. Julieta A. Rosell
  90. Roberto Salguero-Gómez
  91. Nadia S. Santini
  92. Bernhard Schuldt
  93. Luitgard Schwendenmann
  94. Arne Sellin
  95. Timothy Staples
  96. Pablo R Stevenson
  97. Somaiah Sundarapandian
  98. Masha T van der Sande
  99. Bernard Thibaut
  100. David Yue Phin Tng
  101. José Marcelo Domingues Torezan
  102. Boris Villanueva
  103. Aaron Weiskittel
  104. Jessie Wells
  105. S. Joseph Wright
  106. Kasia Zieminska
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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 (GWDD v.2), including 109,626 records from 16,829 plant species across woody life forms and biomes. Using the GWDD v.2, we explored the sources of variation in wood density within individuals, within species, and across environmental gradients.

Intraspecific variation accounted for up to 15% of overall wood density variation (sd = 0.068 g cm -3 ). Sapwood densities varied 50% less than heartwood densities, and branchwood densities varied 30% less than trunkwood densities. Individuals in extreme environments (dry, hot, acidic soils) had higher wood density than conspecifics elsewhere (+0.02 g cm -3 , ∼4% of the mean). Intraspecific environmental effects strongly tracked interspecific patterns (r = 0.83) but were only 20–30% as large and varied considerably among taxa.

Individual plant wood density was difficult to predict (RMSE > 0.08 g cm -3 ; single-measurement R 2 = 0.59). We recommend (i) systematic within-species sampling for local applications, and (ii) expanded taxonomic coverage combined with integrative models for robust estimates across ecological scales.

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  1. Version published to 10.1101/2025.08.25.671896 on bioRxiv