Wind dispersed tree species have greater maximum height

Wind dispersed tree species have greater maximum height

Aim We test the hypothesis that wind dispersal is more common among emergent tree species given that being tall increases the likelihood of effective seed dispersal. Location Americas, Africa and the Asia‐Pacific. Time period 1970–2020. Major taxa studied Gymnosperms and Angiosperms. Methods We used...

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Bibliographic Details
Published in:Global ecology and biogeography Vol. 33; no. 9
Main Authors: Slik, Ferry, Pinho, Bruno X., Griffith, Daniel M., Quaresma, Adriano C., Cuni Sanchez, Aida, Sultana, Aisha, Souza, Alexandre F., Ensslin, Andreas, Hemp, Andreas, Lowe, Andrew, Marshall, Andrew R., Anitha, Kamalakumari, Lykke, Anne Mette, Armadyanto, Mansor, Asyraf, Honam, Atsri K., Poulsen, Axel D., Sparrow, Ben, Albuquerque, Bianca Weiss, Schmitt, Christine B., Mohandass, Dharmalingam, Rocha, Diogo S. B., Sheil, Douglas, Pérez‐García, Eduardo A., Catharino, Eduardo, Berg, Eduardo, Rutishauser, Ervan, Brambach, Fabian, Saiter, Felipe Zamborlini, Senbeta, Feyera, Wittmann, Florian, Rovero, Francesco, Mora Ardila, Francisco, Bongers, Frans, Fredriksson, Gabriella M., Rutten, Gemma, Imani, Gerard, Aymard Corredor, Gerardo A., Durigan, Giselda, Shukla, Gopal, Williams‐Linera, Guadalupe, Culmsee, Heike, Segah, Hendrik, Granzow‐de la Cerda, Iñigo, Singh, Jamuna S., Grogan, James, Reitsma, Jan, Bastin, Jean‐François, Lindsell, Jeremy, Millet, Jerome, Schoengart, Jochen, Vandermeer, John H., Lovett, Jon, Meave, Jorge A., Roberto Rodrigues Pinto, José, Ruokolainen, Kalle, Mahmud, Khairil Bin, Demarchi, Layon O., Poorter, Lourens, Bernacci, Luis, Satdichanh, Manichanh, Seiji Suganuma, Marcio, Piedade, Maria T. F., Niun, Mariarty A., Schulze, Mark, Fischer, Markus, Kessler, Michael, Castillo, Miguel, Imron, Muhammad Ali, Parthasarathy, Narayanaswamy, Seuaturien, Naret, Targhetta, Natalia, Mahayani, Ni Putu Diana, Pitman, Nigel C. A., Rangel, Orlando, Munishi, Pantaleo, Balvanera, Patricia, Ashton, Peter, Parolin, Pia, Conceição Bispo, Polyanna, Davidar, Priya, Sukri, Rahayu, Zakaria, Rahmad, Prasad, Rama Chandra, Chaturvedi, Ravi K., Steinmetz, Robert, Zakaria, Rozainah Mohamad, DeWalt, Saara J., Van Sam, Hoang, Rolim, Samir, Mukul, Sharif Ahmed, Maimunah, Siti, Sunderland, Terry, Gillespie, Thomas, Andel, Tinde, Van Do, Tran, Zang, Runguo, Lu, Xinghui, Laumonier, Yves, Hemati, Zhila
Format: Journal Article
Language:English
Published: Oxford Wiley Subscription Services, Inc 01-09-2024
Wiley
Subjects:
Angiosperms
Biogeography
Datasets
Dispersal
emergent trees
Environmental Sciences
evolution
Forests
functional traits
Gymnosperms
Height
Plant species
Seed dispersal
Species
Statistical analysis
tree species maximum height
Trees
Wind
wind dispersal
Asia
Africa
Tree species maximum height
Evolution
Functional traits
Wind dispersal
Seed dispersal
Emergent trees
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Summary:Aim We test the hypothesis that wind dispersal is more common among emergent tree species given that being tall increases the likelihood of effective seed dispersal. Location Americas, Africa and the Asia‐Pacific. Time period 1970–2020. Major taxa studied Gymnosperms and Angiosperms. Methods We used a dataset consisting of tree inventories from 2821 plots across three biogeographic regions (Americas, Africa and Asia‐Pacific), including dry and wet forests, to determine the maximum height and dispersal strategy of 5314 tree species. A web search was used to determine whether species were wind‐dispersed. We compared differences in tree species maximum height between biogeographic regions and examined the relationship between species maximum height and wind dispersal using logistic regression. We also tested whether emergent tree species, that is species with at least one individual taller than the 95% height percentile in one or more plots, were disproportionally wind‐dispersed in dry and wet forests within each biogeographic region. Results Our dataset provides maximum height values for 5314 tree species, of which more than half (2914) had no record of this trait in existing global databases. We found that, on average, tree species in the Americas have lower maximum heights compared to those in Africa and the Asia Pacific. The probability of wind dispersal increased significantly with tree species maximum height and was significantly higher among emergent than non‐emergent tree species in both dry and wet forests in all three biogeographic regions. Main conclusion Wind dispersal is more prevalent in tall, emergent tree species than in non‐emergent species and may thus be an important factor in the evolution of tree species maximum height. By providing the most comprehensive dataset so far of tree species maximum height and wind dispersal strategies, this study paves the way for advancing our understanding of the eco‐evolutionary drivers of tree size.
ISSN:1466-822X
1466-8238
1466-822X
DOI:10.1111/geb.13878