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

Tong Qiu; Marie Claire Aravena; Davide Ascoli; Yves Bergeron; Michal Bogdziewicz; Thomas Boivin; Raul Bonal; Thomas Caignard; Maxime Cailleret; Rafael Calama; Sergio Donoso Calderon; J. Julio Camarero; Chia Hao Chang-Yang; Jerome Chave; Francesco Chianucci; Benoit Courbaud; Andrea Cutini; Adrian J. Das; Nicolas Delpierre; Sylvain Delzon; Michael Dietze; Laurent Dormont; Josep Maria Espelta; Timothy J. Fahey; William Farfan-Rios; Jerry F. Franklin; Catherine A. Gehring; Gregory S. Gilbert; Georg Gratzer; Cathryn H. Greenberg; Arthur Guignabert; Qinfeng Guo; Andrew Hacket-Pain; Arndt Hampe; Qingmin Han; Jan Holik; Kazuhiko Hoshizaki; Ines Ibanez; Jill F. Johnstone; Valentin Journé; Thomas Kitzberger; Johannes M.H. Knops; Georges Kunstler; Hiroko Kurokawa; Jonathan G.A. Lageard; Jalene M. LaMontagne; Francois Lefevre; Theodor Leininger; Jean Marc Limousin; James A. Lutz; Diana Macias; Anders Marell; Eliot J.B. McIntire; Christopher M. Moore; Emily Moran; Renzo Motta; Jonathan A. Myers; Thomas A. Nagel; Shoji Naoe; Mahoko Noguchi; Michio Oguro; Robert Parmenter; Ian S. Pearse; Ignacio M. Perez-Ramos; Lukasz Piechnik; Tomasz Podgorski; John Poulsen; Miranda D. Redmond; Chantal D. Reid; Kyle C. Rodman; Francisco Rodriguez-Sanchez; Pavel Samonil; Javier D. Sanguinetti; C. Lane Scher; Barbara Seget; Shubhi Sharma; Mitsue Shibata; Miles Silman; Michael A. Steele; Nathan L. Stephenson; Jacob N. Straub; Samantha Sutton; Jennifer J. Swenson; Margaret Swift; Peter A. Thomas; Maria Uriarte; Giorgio Vacchiano; Amy V. Whipple; Thomas G. Whitham; Andreas P. Wion; S. Joseph Wright; Kai Zhu; Jess K. Zimmerman; Magdalena Zywiec; James S. Clark

doi:10.1038/s41477-023-01446-5

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

Tong Qiu^*, Marie Claire Aravena, Davide Ascoli, Yves Bergeron, Michal Bogdziewicz, Thomas Boivin, Raul Bonal, Thomas Caignard, Maxime Cailleret, Rafael Calama, Sergio Donoso Calderon, J. Julio Camarero, Chia Hao Chang-Yang, Jerome Chave, Francesco Chianucci, Benoit Courbaud, Andrea Cutini, Adrian J. Das, Nicolas Delpierre, Sylvain DelzonMichael Dietze, Laurent Dormont, Josep Maria Espelta, Timothy J. Fahey, William Farfan-Rios, Jerry F. Franklin, Catherine A. Gehring, Gregory S. Gilbert, Georg Gratzer, Cathryn H. Greenberg, Arthur Guignabert, Qinfeng Guo, Andrew Hacket-Pain, Arndt Hampe, Qingmin Han, Jan Holik, Kazuhiko Hoshizaki, Ines Ibanez, Jill F. Johnstone, Valentin Journé, Thomas Kitzberger, Johannes M.H. Knops, Georges Kunstler, Hiroko Kurokawa, Jonathan G.A. Lageard, Jalene M. LaMontagne, Francois Lefevre, Theodor Leininger, Jean Marc Limousin, James A. Lutz, Diana Macias, Anders Marell, Eliot J.B. McIntire, Christopher M. Moore, Emily Moran, Renzo Motta, Jonathan A. Myers, Thomas A. Nagel, Shoji Naoe, Mahoko Noguchi, Michio Oguro, Robert Parmenter, Ian S. Pearse, Ignacio M. Perez-Ramos, Lukasz Piechnik, Tomasz Podgorski, John Poulsen, Miranda D. Redmond, Chantal D. Reid, Kyle C. Rodman, Francisco Rodriguez-Sanchez, Pavel Samonil, Javier D. Sanguinetti, C. Lane Scher, Barbara Seget, Shubhi Sharma, Mitsue Shibata, Miles Silman, Michael A. Steele, Nathan L. Stephenson, Jacob N. Straub, Samantha Sutton, Jennifer J. Swenson, Margaret Swift, Peter A. Thomas, Maria Uriarte, Giorgio Vacchiano, Amy V. Whipple, Thomas G. Whitham, Andreas P. Wion, S. Joseph Wright, Kai Zhu, Jess K. Zimmerman, Magdalena Zywiec, James S. Clark

^*Corresponding author for this work

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

7 Citations (Scopus)

Abstract

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.

Original language	English
Pages (from-to)	1044-1056
Number of pages	13
Journal	Nature Plants
Volume	9
Issue number	7
DOIs	https://doi.org/10.1038/s41477-023-01446-5
Publication status	Published - Jul 2023

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1038/s41477-023-01446-5

Cite this

Qiu, T., Aravena, M. C., Ascoli, D., Bergeron, Y., Bogdziewicz, M., Boivin, T., Bonal, R., Caignard, T., Cailleret, M., Calama, R., Calderon, S. D., Camarero, J. J., Chang-Yang, C. H., Chave, J., Chianucci, F., Courbaud, B., Cutini, A., Das, A. J., Delpierre, N., ... Clark, J. S. (2023). Masting is uncommon in trees that depend on mutualist dispersers in the context of global climate and fertility gradients. Nature Plants, 9(7), 1044-1056. https://doi.org/10.1038/s41477-023-01446-5

@article{2c35d25161bc4d56ac59297c92ffce3d,

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

abstract = "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.",

author = "Tong Qiu and Aravena, {Marie Claire} and Davide Ascoli and Yves Bergeron and Michal Bogdziewicz and Thomas Boivin and Raul Bonal and Thomas Caignard and Maxime Cailleret and Rafael Calama and Calderon, {Sergio Donoso} and Camarero, {J. Julio} and Chang-Yang, {Chia Hao} and Jerome Chave and Francesco Chianucci and Benoit Courbaud and Andrea Cutini and Das, {Adrian J.} and Nicolas Delpierre and Sylvain Delzon and Michael Dietze and Laurent Dormont and Espelta, {Josep Maria} and Fahey, {Timothy J.} and William Farfan-Rios and Franklin, {Jerry F.} and Gehring, {Catherine A.} and Gilbert, {Gregory S.} and Georg Gratzer and Greenberg, {Cathryn H.} and Arthur Guignabert and Qinfeng Guo and Andrew Hacket-Pain and Arndt Hampe and Qingmin Han and Jan Holik and Kazuhiko Hoshizaki and Ines Ibanez and Johnstone, {Jill F.} and Valentin Journ{\'e} and Thomas Kitzberger and Knops, {Johannes M.H.} and Georges Kunstler and Hiroko Kurokawa and Lageard, {Jonathan G.A.} and LaMontagne, {Jalene M.} and Francois Lefevre and Theodor Leininger and Limousin, {Jean Marc} and Lutz, {James A.} and Diana Macias and Anders Marell and McIntire, {Eliot J.B.} and Moore, {Christopher M.} and Emily Moran and Renzo Motta and Myers, {Jonathan A.} and Nagel, {Thomas A.} and Shoji Naoe and Mahoko Noguchi and Michio Oguro and Robert Parmenter and Pearse, {Ian S.} and Perez-Ramos, {Ignacio M.} and Lukasz Piechnik and Tomasz Podgorski and John Poulsen and Redmond, {Miranda D.} and Reid, {Chantal D.} and Rodman, {Kyle C.} and Francisco Rodriguez-Sanchez and Pavel Samonil and Sanguinetti, {Javier D.} and Scher, {C. Lane} and Barbara Seget and Shubhi Sharma and Mitsue Shibata and Miles Silman and Steele, {Michael A.} and Stephenson, {Nathan L.} and Straub, {Jacob N.} and Samantha Sutton and Swenson, {Jennifer J.} and Margaret Swift and Thomas, {Peter A.} and Maria Uriarte and Giorgio Vacchiano and Whipple, {Amy V.} and Whitham, {Thomas G.} and Wion, {Andreas P.} and Wright, {S. Joseph} and Kai Zhu and Zimmerman, {Jess K.} and Magdalena Zywiec and Clark, {James S.}",

note = "Funding Information: For access to sites and logistical support, we thank the National Ecological Observatory Network (NEON). The project has been funded continuously since 1992 by National Science Foundation grants to J.S.C., most recently DEB-1754443, and by the Belmont Forum (1854976), NASA (AIST16-0052, AIST18-0063) and the Programme d{\textquoteright}Investissement d{\textquoteright}Avenir under project FORBIC (18-MPGA-0004)({\textquoteleft}Make Our Planet Great Again{\textquoteright}). T.Q. acknowledges support from the start-up funds provided by Pennsylvania State University. Puerto Rico data were funded by NSF grants to M.U., most recently DEB 0963447 and LTREB 11222325. Data from the Andes Biodiversity and Ecosystem Research Group were funded by the Gordon and Betty Moore Foundation and NSF LTREB 1754647 to M.S. Additional funding to M.Z. came from the W. Szafer Institute of Botany of the Polish Academy of Sciences and the Polish National Science Foundation (2019/33/B/NZ8/0134). M.B. was supported by Polish National Agency for Academic Exchange Bekker programme PPN/BEK/2020/1/00009/U/00001. F.R.S. was supported by FEDER 2014–2020 and Consejeria de Economia, Conocimiento, Empresas y Universidad of Junta de Andalucia (grant US-1381388). J.F.F.{\textquoteright}s data remain accessible through NSF LTER DEB-1440409. USDA Forest Service and USGS research were funded by those agencies. Any use of trade, firm or product names does not imply endorsement by the US Government. Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2023",

month = jul,

doi = "10.1038/s41477-023-01446-5",

language = "English",

volume = "9",

pages = "1044--1056",

journal = "Nature Plants",

issn = "2055-0278",

number = "7",

}

Qiu, T, Aravena, MC, Ascoli, D, Bergeron, Y, Bogdziewicz, M, Boivin, T, Bonal, R, Caignard, T, Cailleret, M, Calama, R, Calderon, SD, Camarero, JJ, Chang-Yang, CH, Chave, J, Chianucci, F, Courbaud, B, Cutini, A, Das, AJ, Delpierre, N, Delzon, S, Dietze, M, Dormont, L, Espelta, JM, Fahey, TJ, Farfan-Rios, W, Franklin, JF, Gehring, CA, Gilbert, GS, Gratzer, G, Greenberg, CH, Guignabert, A, Guo, Q, Hacket-Pain, A, Hampe, A, Han, Q, Holik, J, Hoshizaki, K, Ibanez, I, Johnstone, JF, Journé, V, Kitzberger, T, Knops, JMH, Kunstler, G, Kurokawa, H, Lageard, JGA, LaMontagne, JM, Lefevre, F, Leininger, T, Limousin, JM, Lutz, JA, Macias, D, Marell, A, McIntire, EJB, Moore, CM, Moran, E, Motta, R, Myers, JA, Nagel, TA, Naoe, S, Noguchi, M, Oguro, M, Parmenter, R, Pearse, IS, Perez-Ramos, IM, Piechnik, L, Podgorski, T, Poulsen, J, Redmond, MD, Reid, CD, Rodman, KC, Rodriguez-Sanchez, F, Samonil, P, Sanguinetti, JD, Scher, CL, Seget, B, Sharma, S, Shibata, M, Silman, M, Steele, MA, Stephenson, NL, Straub, JN, Sutton, S, Swenson, JJ, Swift, M, Thomas, PA, Uriarte, M, Vacchiano, G, Whipple, AV, Whitham, TG, Wion, AP, Wright, SJ, Zhu, K, Zimmerman, JK, Zywiec, M & Clark, JS 2023, 'Masting is uncommon in trees that depend on mutualist dispersers in the context of global climate and fertility gradients', Nature Plants, vol. 9, no. 7, pp. 1044-1056. https://doi.org/10.1038/s41477-023-01446-5

TY - JOUR

T1 - Masting is uncommon in trees that depend on mutualist dispersers in the context of global climate and fertility gradients

AU - Qiu, Tong

AU - Aravena, Marie Claire

AU - Ascoli, Davide

AU - Bergeron, Yves

AU - Bogdziewicz, Michal

AU - Boivin, Thomas

AU - Bonal, Raul

AU - Caignard, Thomas

AU - Cailleret, Maxime

AU - Calama, Rafael

AU - Calderon, Sergio Donoso

AU - Camarero, J. Julio

AU - Chang-Yang, Chia Hao

AU - Chave, Jerome

AU - Chianucci, Francesco

AU - Courbaud, Benoit

AU - Cutini, Andrea

AU - Das, Adrian J.

AU - Delpierre, Nicolas

AU - Delzon, Sylvain

AU - Dietze, Michael

AU - Dormont, Laurent

AU - Espelta, Josep Maria

AU - Fahey, Timothy J.

AU - Farfan-Rios, William

AU - Franklin, Jerry F.

AU - Gehring, Catherine A.

AU - Gilbert, Gregory S.

AU - Gratzer, Georg

AU - Greenberg, Cathryn H.

AU - Guignabert, Arthur

AU - Guo, Qinfeng

AU - Hacket-Pain, Andrew

AU - Hampe, Arndt

AU - Han, Qingmin

AU - Holik, Jan

AU - Hoshizaki, Kazuhiko

AU - Ibanez, Ines

AU - Johnstone, Jill F.

AU - Journé, Valentin

AU - Kitzberger, Thomas

AU - Knops, Johannes M.H.

AU - Kunstler, Georges

AU - Kurokawa, Hiroko

AU - Lageard, Jonathan G.A.

AU - LaMontagne, Jalene M.

AU - Lefevre, Francois

AU - Leininger, Theodor

AU - Limousin, Jean Marc

AU - Lutz, James A.

AU - Macias, Diana

AU - Marell, Anders

AU - McIntire, Eliot J.B.

AU - Moore, Christopher M.

AU - Moran, Emily

AU - Motta, Renzo

AU - Myers, Jonathan A.

AU - Nagel, Thomas A.

AU - Naoe, Shoji

AU - Noguchi, Mahoko

AU - Oguro, Michio

AU - Parmenter, Robert

AU - Pearse, Ian S.

AU - Perez-Ramos, Ignacio M.

AU - Piechnik, Lukasz

AU - Podgorski, Tomasz

AU - Poulsen, John

AU - Redmond, Miranda D.

AU - Reid, Chantal D.

AU - Rodman, Kyle C.

AU - Rodriguez-Sanchez, Francisco

AU - Samonil, Pavel

AU - Sanguinetti, Javier D.

AU - Scher, C. Lane

AU - Seget, Barbara

AU - Sharma, Shubhi

AU - Shibata, Mitsue

AU - Silman, Miles

AU - Steele, Michael A.

AU - Stephenson, Nathan L.

AU - Straub, Jacob N.

AU - Sutton, Samantha

AU - Swenson, Jennifer J.

AU - Swift, Margaret

AU - Thomas, Peter A.

AU - Uriarte, Maria

AU - Vacchiano, Giorgio

AU - Whipple, Amy V.

AU - Whitham, Thomas G.

AU - Wion, Andreas P.

AU - Wright, S. Joseph

AU - Zhu, Kai

AU - Zimmerman, Jess K.

AU - Zywiec, Magdalena

AU - Clark, James S.

N1 - Funding Information: For access to sites and logistical support, we thank the National Ecological Observatory Network (NEON). The project has been funded continuously since 1992 by National Science Foundation grants to J.S.C., most recently DEB-1754443, and by the Belmont Forum (1854976), NASA (AIST16-0052, AIST18-0063) and the Programme d’Investissement d’Avenir under project FORBIC (18-MPGA-0004)(‘Make Our Planet Great Again’). T.Q. acknowledges support from the start-up funds provided by Pennsylvania State University. Puerto Rico data were funded by NSF grants to M.U., most recently DEB 0963447 and LTREB 11222325. Data from the Andes Biodiversity and Ecosystem Research Group were funded by the Gordon and Betty Moore Foundation and NSF LTREB 1754647 to M.S. Additional funding to M.Z. came from the W. Szafer Institute of Botany of the Polish Academy of Sciences and the Polish National Science Foundation (2019/33/B/NZ8/0134). M.B. was supported by Polish National Agency for Academic Exchange Bekker programme PPN/BEK/2020/1/00009/U/00001. F.R.S. was supported by FEDER 2014–2020 and Consejeria de Economia, Conocimiento, Empresas y Universidad of Junta de Andalucia (grant US-1381388). J.F.F.’s data remain accessible through NSF LTER DEB-1440409. USDA Forest Service and USGS research were funded by those agencies. Any use of trade, firm or product names does not imply endorsement by the US Government. Publisher Copyright: © 2023, The Author(s), under exclusive licence to Springer Nature Limited.

PY - 2023/7

Y1 - 2023/7

N2 - 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.

AB - 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.

UR - http://www.scopus.com/inward/record.url?scp=85163298034&partnerID=8YFLogxK

U2 - 10.1038/s41477-023-01446-5

DO - 10.1038/s41477-023-01446-5

M3 - Article

C2 - 37386149

AN - SCOPUS:85163298034

SN - 2055-0278

VL - 9

SP - 1044

EP - 1056

JO - Nature Plants

JF - Nature Plants

IS - 7

ER -

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

Abstract

UN SDGs

Access to Document

Other files and links

Fingerprint

Cite this