Seed predation increases from the Arctic to the Equator and from high to low elevations

A. L. Hargreaves; Esteban Suarez; Klaus Mehltreter; Isla Myers-Smith; Sula E. Vanderplank; Heather L. Slinn; Yalma L. Vargas-Rodriguez; Sybille Haeussler; Santiago David; Jenny Munoz; R. Carlos Almazan-Nunez; Deirdre Loughnan; John W. Benning; David A. Moeller; Jedediah F. Brodie; Haydn J.D. Thomas; P. A. Morales M

doi:10.1126/SCIADV.ABN8360

Seed predation increases from the Arctic to the Equator and from high to low elevations

A. L. Hargreaves^*
, Esteban Suarez
, Klaus Mehltreter
, Isla Myers-Smith
, Sula E. Vanderplank
, Heather L. Slinn
, Yalma L. Vargas-Rodriguez
, Sybille Haeussler
, Santiago David
, Jenny Munoz
, R. Carlos Almazan-Nunez
, Deirdre Loughnan
, John W. Benning
, David A. Moeller
, Jedediah F. Brodie
, Haydn J.D. Thomas
, P. A. Morales M

^*Autor correspondiente de este trabajo

McGill University
University of British Columbia
Instituto de Ecologia, A.C.
EaStCHEM School of Chemistry, University of Edinburgh
Centro de Investigación Científicay de Educación Superior de Ensenada (CICESE)
Botanical Research Institute of Texas
University of Nevada, Reno
Universidad de Guadalajara
University of Northern British Columbia
Universidad Autónoma de Guerrero
University of Minnesota-Twin Cities
University of Montana
Universidad de Antioquia

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Resumen

Species interactions have long been predicted to increase in intensity toward the tropics and low elevations because of gradients in climate, productivity, or biodiversity. Despite their importance for understanding global ecological and evolutionary processes, plant-animal interaction gradients are particularly difficult to test systematically across large geographic gradients, and evidence from smaller, disparate studies is inconclusive. By systematically measuring postdispersal seed predation using 6995 standardized seed depots along 18 mountains in the Pacific cordillera, we found that seed predation intensity more than doubled from the Arctic to the Equator and from 4000 meters above sea level to sea level. Clines in total predation, likely driven by invertebrates, were consistent across treeline ecotones and within continuous forest and were better explained by climate seasonality than by productivity, biodiversity, or latitude. These results suggest that species interactions play predictably greater ecological and evolutionary roles in tropical, lowland, and other less seasonal ecosystems.

Idioma original	Inglés
Número de artículo	eaau4403
Publicación	Science Advances
Volumen	8
N.º	4
DOI	https://doi.org/10.1126/SCIADV.ABN8360
Estado	Publicada - ene. 2022

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Hargreaves, A. L., Suarez, E., Mehltreter, K., Myers-Smith, I., Vanderplank, S. E., Slinn, H. L., Vargas-Rodriguez, Y. L., Haeussler, S., David, S., Munoz, J., Carlos Almazan-Nunez, R., Loughnan, D., Benning, J. W., Moeller, D. A., Brodie, J. F., Thomas, H. J. D., & Morales M, P. A. (2022). Seed predation increases from the Arctic to the Equator and from high to low elevations. Science Advances, 8(4), Artículo eaau4403. https://doi.org/10.1126/SCIADV.ABN8360

@article{631a8a2525144423af4246f386b4c1fb,

title = "Seed predation increases from the Arctic to the Equator and from high to low elevations",

abstract = "Species interactions have long been predicted to increase in intensity toward the tropics and low elevations because of gradients in climate, productivity, or biodiversity. Despite their importance for understanding global ecological and evolutionary processes, plant-animal interaction gradients are particularly difficult to test systematically across large geographic gradients, and evidence from smaller, disparate studies is inconclusive. By systematically measuring postdispersal seed predation using 6995 standardized seed depots along 18 mountains in the Pacific cordillera, we found that seed predation intensity more than doubled from the Arctic to the Equator and from 4000 meters above sea level to sea level. Clines in total predation, likely driven by invertebrates, were consistent across treeline ecotones and within continuous forest and were better explained by climate seasonality than by productivity, biodiversity, or latitude. These results suggest that species interactions play predictably greater ecological and evolutionary roles in tropical, lowland, and other less seasonal ecosystems.",

author = "Hargreaves, \{A. L.\} and Esteban Suarez and Klaus Mehltreter and Isla Myers-Smith and Vanderplank, \{Sula E.\} and Slinn, \{Heather L.\} and Vargas-Rodriguez, \{Yalma L.\} and Sybille Haeussler and Santiago David and Jenny Munoz and \{Carlos Almazan-Nunez\}, R. and Deirdre Loughnan and Benning, \{John W.\} and Moeller, \{David A.\} and Brodie, \{Jedediah F.\} and Thomas, \{Haydn J.D.\} and \{Morales M\}, \{P. A.\}",

year = "2022",

month = jan,

doi = "10.1126/SCIADV.ABN8360",

language = "Ingl{\'e}s",

volume = "8",

journal = "Science Advances",

issn = "2375-2548",

publisher = "American Association for the Advancement of Science",

number = "4",

}

Hargreaves, AL, Suarez, E, Mehltreter, K, Myers-Smith, I, Vanderplank, SE, Slinn, HL, Vargas-Rodriguez, YL, Haeussler, S, David, S, Munoz, J, Carlos Almazan-Nunez, R, Loughnan, D, Benning, JW, Moeller, DA, Brodie, JF, Thomas, HJD & Morales M, PA 2022, 'Seed predation increases from the Arctic to the Equator and from high to low elevations', Science Advances, vol. 8, n.º 4, eaau4403. https://doi.org/10.1126/SCIADV.ABN8360

TY - JOUR

T1 - Seed predation increases from the Arctic to the Equator and from high to low elevations

AU - Hargreaves, A. L.

AU - Suarez, Esteban

AU - Mehltreter, Klaus

AU - Myers-Smith, Isla

AU - Vanderplank, Sula E.

AU - Slinn, Heather L.

AU - Vargas-Rodriguez, Yalma L.

AU - Haeussler, Sybille

AU - David, Santiago

AU - Munoz, Jenny

AU - Carlos Almazan-Nunez, R.

AU - Loughnan, Deirdre

AU - Benning, John W.

AU - Moeller, David A.

AU - Brodie, Jedediah F.

AU - Thomas, Haydn J.D.

AU - Morales M, P. A.

PY - 2022/1

Y1 - 2022/1

N2 - Species interactions have long been predicted to increase in intensity toward the tropics and low elevations because of gradients in climate, productivity, or biodiversity. Despite their importance for understanding global ecological and evolutionary processes, plant-animal interaction gradients are particularly difficult to test systematically across large geographic gradients, and evidence from smaller, disparate studies is inconclusive. By systematically measuring postdispersal seed predation using 6995 standardized seed depots along 18 mountains in the Pacific cordillera, we found that seed predation intensity more than doubled from the Arctic to the Equator and from 4000 meters above sea level to sea level. Clines in total predation, likely driven by invertebrates, were consistent across treeline ecotones and within continuous forest and were better explained by climate seasonality than by productivity, biodiversity, or latitude. These results suggest that species interactions play predictably greater ecological and evolutionary roles in tropical, lowland, and other less seasonal ecosystems.

AB - Species interactions have long been predicted to increase in intensity toward the tropics and low elevations because of gradients in climate, productivity, or biodiversity. Despite their importance for understanding global ecological and evolutionary processes, plant-animal interaction gradients are particularly difficult to test systematically across large geographic gradients, and evidence from smaller, disparate studies is inconclusive. By systematically measuring postdispersal seed predation using 6995 standardized seed depots along 18 mountains in the Pacific cordillera, we found that seed predation intensity more than doubled from the Arctic to the Equator and from 4000 meters above sea level to sea level. Clines in total predation, likely driven by invertebrates, were consistent across treeline ecotones and within continuous forest and were better explained by climate seasonality than by productivity, biodiversity, or latitude. These results suggest that species interactions play predictably greater ecological and evolutionary roles in tropical, lowland, and other less seasonal ecosystems.

UR - https://www.scopus.com/pages/publications/85129863416

U2 - 10.1126/SCIADV.ABN8360

DO - 10.1126/SCIADV.ABN8360

M3 - Artículo

AN - SCOPUS:85129863416

SN - 2375-2548

VL - 8

JO - Science Advances

JF - Science Advances

IS - 4

M1 - eaau4403

ER -

Seed predation increases from the Arctic to the Equator and from high to low elevations

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