Back to Search Start Over

Plant diversity increases with the strength of negative density dependence at the global scale

Authors :
Hervé Memiaghe
William J. McShea
Jyh-Min Chiang
David Kenfack
Lisa Korte
George B. Chuyong
Sandra L. Yap
Keith Clay
Anuttara Nathalang
Amy Wolf
David Janík
Fangliang He
Daniel J. Johnson
Lawren Sack
Rebecca Ostertag
George D. Weiblen
Faith Inman-Narahari
Sean M. McMahon
Tucker J. Furniss
Benjamin L. Turner
Alfonso Alonso
I. A. U. Nimal Gunatilleke
J. Sebastián Tello
C. V. Savitri Gunatilleke
Richard Condit
Stuart J. Davies
Norman A. Bourg
Andrew J. Larson
Chang-Fu Hsieh
Scott A. Mangan
James A. Lutz
Dilys M. Vela Diaz
Li-Wan Chang
Robert W. Howe
Jonathan Myers
Vojtech Novotny
Tomáš Vrška
Perry S. Ong
Stephen P. Hubbell
Warren Y. Brockelman
Kamil Král
Geoffrey G. Parker
Joseph A. LaManna
Sarayudh Bunyavejchewin
David A. Orwig
Christian P. Giardina
Duncan W. Thomas
Richard P. Phillips
Susan Cordell
I-Fang Sun
Source :
Science. 356:1389-1392
Publication Year :
2017
Publisher :
American Association for the Advancement of Science (AAAS), 2017.

Abstract

Maintaining tree diversity Negative interaction among plant species is known as conspecific negative density dependence (CNDD). This ecological pattern is thought to maintain higher species diversity in the tropics. LaManna et al. tested this hypothesis by comparing how tree species diversity changes with the intensity of local biotic interactions in tropical and temperate latitudes (see the Perspective by Comita). Stronger local specialized biotic interactions seem to prevent erosion of biodiversity in tropical forests, not only by limiting populations of common species, but also by strongly stabilizing populations of rare species, which tend to show higher CNDD in the tropics. Science , this issue p. 1389 ; see also p. 1328

Details

ISSN :
10959203 and 00368075
Volume :
356
Database :
OpenAIRE
Journal :
Science
Accession number :
edsair.doi...........d785756851db774e88cc38df49b4b0ba
Full Text :
https://doi.org/10.1126/science.aam5678