Masting is uncommon in trees that depend on mutualist dispersers in the context of global climate and fertility gradients - Archive ouverte HAL
Article Dans Une Revue Nature Plants Année : 2023

Masting is uncommon in trees that depend on mutualist dispersers in the context of global climate and fertility gradients

Tong Qiu (1) , Marie-Claire Aravena (2) , Davide Ascoli (3) , Yves Bergeron (4) , Michal Bogdziewicz , Thomas Boivin (5) , Raul Bonal (6) , Thomas Caignard (7) , Maxime Cailleret (8) , Rafael Calama (9) , Sergio Donoso Calderon (10) , J. Julio Camarero (9) , Chia-Hao Chang-Yang (11) , Jérôme Chave (12) , Francesco Chianucci (13) , Benoit Courbaud (14) , Andrea Cutini (13) , Adrian Das (15) , Nicolas Delpierre (16) , Sylvain Delzon (7) , Michael Dietze (17) , Laurent Dormont (18) , Josep Maria Espelta (19) , Timothy Fahey (20) , William Farfan-Rios (21) , Jerry Franklin (22) , Catherine Gehring , Gregory Gilbert (23) , Georg Gratzer (24) , Cathryn Greenberg (25) , Arthur Guignabert (26) , Qinfeng Guo (25) , Andrew Hacket-Pain (27) , Arndt Hampe (7) , Qingmin Han (28) , Jan Holik (29) , Kazuhiko Hoshizaki (30) , Ines Ibanez (31) , Jill Johnstone (32) , Valentin Journé (14) , Thomas Kitzberger (33) , Johannes Knops (27) , Georges Kunstler (14) , Hiroko Kurokawa , Jonathan Lageard (34) , Jalene Lamontagne (35) , Francois Lefevre (5) , Theodor Leininger (36) , Jean-Marc Limousin (18) , James Lutz (37) , Diana Macias (38) , Anders Marell (39) , Eliot Mcintire , Christopher Moore (40) , Emily Moran , Renzo Motta (3) , Jonathan Myers (41) , Thomas Nagel (42) , Shoji Naoe , Mahoko Noguchi , Michio Oguro , Robert Parmenter , Ian Pearse , Ignacio Perez-Ramos , Lukasz Piechnik , Tomasz Podgorski , John Poulsen , Miranda Redmond , Chantal Reid , Kyle Rodman , Francisco Rodriguez-Sanchez , Pavel Samonil , Javier Sanguinetti , C. Lane Scher , Barbara Seget , Shubhi Sharma , Mitsue Shibata , Miles Silman , Michael Steele , Nathan Stephenson , Jacob Straub , Samantha Sutton , Jennifer Swenson , Margaret Swift , Peter Thomas , Maria Uriarte , Giorgio Vacchiano , Amy Whipple , Thomas Whitham , Andreas Wion , S. Joseph Wright , Kai Zhu , Jess Zimmerman , Magdalena Zywiec , James Clark
1 Nicholas School of the Environment
2 UCHILE - Universidad de Chile = University of Chile [Santiago]
3 UNITO - Università degli studi di Torino = University of Turin
4 UQAT - Université du Québec en Abitibi-Témiscamingue
5 URFM - Ecologie des Forêts Méditerranéennes
6 UCM - Universidad Complutense de Madrid = Complutense University of Madrid [Madrid]
7 BioGeCo - Biodiversité, Gènes & Communautés
8 RECOVER - Risques, Ecosystèmes, Vulnérabilité, Environnement, Résilience
9 CSIC - Consejo Superior de Investigaciones Cientificas [España] = Spanish National Research Council [Spain]
10 Universidad de Chili / Departamento de Ciencias de la Computation
11 NSYSU - National Sun Yat-sen University
12 EDB - Evolution et Diversité Biologique
13 Centro di Viticoltura ed Enologia [CREA]
14 UR LESSEM - Laboratoire des EcoSystèmes et des Sociétés en Montagne
15 Western Ecological Research Center
16 ESE - Ecologie Systématique et Evolution
17 BU - Boston University [Boston]
18 CEFE - Centre d’Ecologie Fonctionnelle et Evolutive
19 CREAF - Centre for Ecological Research and Applied Forestries
20 Cornell University [New York]
21 WUSTL - Washington University in Saint Louis
22 University of Washington [Seattle]
23 UC - University of California
24 BOKU - Universität für Bodenkultur Wien = University of Natural Resources and Life Sciences [Vienne, Autriche]
25 USDA Forest Service Rocky Mountain Forest and Range Experiment Station
26 UMR ISPA - Interactions Sol Plante Atmosphère
27 University of Liverpool
28 FFPRI - Forestry and Forest Products Research Institute
29 The Silva Tarouca Research Institute for Landscape and Ornamental Gardening
30 Akita Prefectural University
31 University of Michigan [Ann Arbor]
32 UAS - University of Alaska [Southeast]
33 UNCOMA - Universidad Nacional del Comahue [Neuquén]
34 MMU - Manchester Metropolitan University
35 DePaul University [Chicago]
36 USDA - USDA Agricultural Research Service [Maricopa, AZ]
37 USU - Utah State University
38 New Mexico State University
39 UR EFNO - Ecosystèmes forestiers
40 Colby College
41 Washington University School of Medicine in St. Louis
42 University of Ljubljana
Tong Qiu
Michal Bogdziewicz
Thomas Boivin
Thomas Caignard
Jérôme Chave
Andrea Cutini
Nicolas Delpierre
Michael Dietze
Catherine Gehring
Gregory Gilbert
Arthur Guignabert
Andrew Hacket-Pain
Arndt Hampe
Kazuhiko Hoshizaki
Ines Ibanez
Jill Johnstone
Hiroko Kurokawa
  • Fonction : Auteur
Jonathan Lageard
Jalene Lamontagne
James Lutz
Anders Marell
Eliot Mcintire
  • Fonction : Auteur
Christopher Moore
Emily Moran
  • Fonction : Auteur
Thomas Nagel
Shoji Naoe
  • Fonction : Auteur
Mahoko Noguchi
Michio Oguro
  • Fonction : Auteur
Robert Parmenter
Ian Pearse
  • Fonction : Auteur
Ignacio Perez-Ramos
  • Fonction : Auteur
Lukasz Piechnik
  • Fonction : Auteur
Tomasz Podgorski
John Poulsen
Miranda Redmond
  • Fonction : Auteur
Chantal Reid
  • Fonction : Auteur
Kyle Rodman
Francisco Rodriguez-Sanchez
Pavel Samonil
  • Fonction : Auteur
Javier Sanguinetti
  • Fonction : Auteur
C. Lane Scher
  • Fonction : Auteur
Barbara Seget
Shubhi Sharma
  • Fonction : Auteur
Mitsue Shibata
  • Fonction : Auteur
Miles Silman
  • Fonction : Auteur
Michael Steele
  • Fonction : Auteur
Nathan Stephenson
Jacob Straub
  • Fonction : Auteur
Samantha Sutton
  • Fonction : Auteur
Jennifer Swenson
  • Fonction : Auteur
Margaret Swift
Peter Thomas
Maria Uriarte
Giorgio Vacchiano
Amy Whipple
  • Fonction : Auteur
Thomas Whitham
Andreas Wion
  • Fonction : Auteur
S. Joseph Wright
Kai Zhu
Jess Zimmerman
  • Fonction : Auteur
Magdalena Zywiec
James Clark

Résumé

The benefits of masting (volatile, quasi-synchronous seed production at lagged intervals) include satiation of seed predators, but these benefits come with a cost to mutualist pollen and seed dispersers. If the evolution of masting represents a balance between these benefits and costs, we expect mast avoidance in species that are heavily reliant on mutualist dispersers. These effects play out in the context of variable climate and site fertility among species that vary widely in nutrient demand. Meta-analyses of published data have focused on variation at the population scale, thus omitting periodicity within trees and synchronicity between trees. From raw data on 12 million tree-years worldwide, we quantified three components of masting that have not previously been analysed together: (i) volatility, defined as the frequency-weighted year-to-year variation; (ii) periodicity, representing the lag between high-seed years; and (iii) synchronicity, indicating the tree-to-tree correlation. Results show that mast avoidance (low volatility and low synchronicity) by species dependent on mutualist dispersers explains more variation than any other effect. Nutrient-demanding species have low volatility, and species that are most common on nutrient-rich and warm/wet sites exhibit short periods. The prevalence of masting in cold/dry sites coincides with climatic conditions where dependence on vertebrate dispersers is less common than in the wet tropics. Mutualist dispersers neutralize the benefits of masting for predator satiation, further balancing the effects of climate, site fertility and nutrient demands.
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hal-04174525 , version 1 (05-07-2024)

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Tong Qiu, Marie-Claire Aravena, Davide Ascoli, Yves Bergeron, Michal Bogdziewicz, et al.. Masting is uncommon in trees that depend on mutualist dispersers in the context of global climate and fertility gradients. Nature Plants, 2023, 9 (7), pp.1044-1056. ⟨10.1038/s41477-023-01446-5⟩. ⟨hal-04174525⟩
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