Journal Article10.1111/ELE.12217
Facilitative plant interactions and climate simultaneously drive alpine plant diversity
Lohengrin A. Cavieres,Rob W. Brooker,Bradley J. Butterfield,Bradley J. Cook,Zaal Kikvidze,Christopher J. Lortie,Richard Michalet,Francisco I. Pugnaire,Christian Schöb,Sa Xiao,Fabien Anthelme,Fabien Anthelme,Robert G. Björk,Katharine J. M. Dickinson,Brittany H. Cranston,Rosario G. Gavilán,Alba Gutiérrez-Girón,Robert Kanka,Jean-Paul Maalouf,Alan F. Mark,Jalil Noroozi,Rabindra Parajuli,Gareth K. Phoenix,Anya M. Reid,Wendy M. Ridenour,Christian Rixen,Sonja Wipf,Liang Zhao,Adrián Escudero,Benjamin F. Zaitchik,Emanuele Lingua,Erik T. Aschehoug,Ragan M. Callaway +32 more
325
TL;DR: Although the effect of cushion species on diversity was lower than that of climate, its contribution was still substantial, demonstrating that climate and species interactions should be integrated when predicting future biodiversity effects of climate change.
read more
Abstract: Interactions among species determine local-scale diversity, but local interactions are thought to have minor effects at larger scales. However, quantitative comparisons of the importance of biotic interactions relative to other drivers are rarely made at larger scales. Using a data set spanning 78 sites and five continents, we assessed the relative importance of biotic interactions and climate in determining plant diversity in alpine ecosystems dominated by nurse-plant cushion species. Climate variables related with water balance showed the highest correlation with richness at the global scale. Strikingly, although the effect of cushion species on diversity was lower than that of climate, its contribution was still substantial. In particular, cushion species enhanced species richness more in systems with inherently impoverished local diversity. Nurse species appear to act as a ‘safety net’ sustaining diversity under harsh conditions, demonstrating that climate and species interactions should be integrated when predicting future biodiversity effects of climate change.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Lags in the response of mountain plant communities to climate change
James Alexander,James Alexander,Loïc Chalmandrier,Jonathan Lenoir,Treena I. Burgess,Franz Essl,Sylvia Haider,Christoph Kueffer,Keith L. McDougall,Ann Milbau,Martin A. Nuñez,Aníbal Pauchard,Wolfgang Rabitsch,Lisa J. Rew,Nathan J. Sanders,Nathan J. Sanders,Nathan J. Sanders,Loïc Pellissier +17 more
TL;DR: A mechanistic community model is developed to illustrate how species turnover in future communities might lag behind simple expectations based on species' range shifts with unlimited dispersal, and support the view that accounting for disequilibrium range dynamics will be essential for realistic forecasts of patterns of biodiversity under climate change.
Range dynamics of mountain plants decrease with elevation.
Sabine B. Rumpf,Karl Hülber,Günther Klonner,Dietmar Moser,Martin Schütz,Johannes Wessely,Wolfgang Willner,Niklaus E. Zimmermann,Stefan Dullinger +8 more
TL;DR: It is demonstrated that, over recent decades, increases in abundance were more pronounced than range shifts, suggesting an in-filling process which decreases in intensity with increasing elevation.
343
Relative importance of competition and plant–soil feedback, their synergy, context dependency and implications for coexistence
Ylva Lekberg,James D. Bever,Rebecca A. Bunn,Ragan M. Callaway,Miranda M. Hart,Stephanie N. Kivlin,John N. Klironomos,Beau Larkin,John L. Maron,Kurt O. Reinhart,Michael J. Remke,Wim H. van der Putten +11 more
TL;DR: It is shown that effects of interspecific competition and plant-soil feedback depended on treatments but were predominantly negative, broadly comparable in magnitude, and additive or synergistic, and PSF could prevent competitive dominance and promote coexistence.
252
The origin and maintenance of montane diversity: integrating evolutionary and ecological processes
Catherine H. Graham,Ana Carolina Carnaval,Carlos Daniel Cadena,Kelly R. Zamudio,Trina E. Roberts,Trina E. Roberts,Juan L. Parra,Juan L. Parra,Christy M. McCain,Rauri C. K. Bowie,Craig Moritz,Stephen B. Baines,Christopher J. Schneider,Jeremy VanDerWal,Carsten Rahbek,Kenneth H. Kozak,Nathan J. Sanders,Nathan J. Sanders +17 more
TL;DR: It is proposed that elucidating the relative infl uence of ecological and evolutionary mechanisms can be achieved by taking advantage of the replicated settings aff orded by mountains, combined with targeted experiments along elevational gradients.
Abundance of kinless hubs within soil microbial networks are associated with high functional potential in agricultural ecosystems
Yu Shi,Manuel Delgado-Baquerizo,Yuntao Li,Yunfeng Yang,Yong-Guan Zhu,Josep Peñuelas,Haiyan Chu +6 more
TL;DR: A correlation network of fungal and bacterial taxa is built using a large-scale survey across functionally and economically important agricultural ecosystems and found that the relative abundance of taxa classified as kinless hubs within the ecological network are positively and significantly correlated with the abundance of functional genes.
243
References
•Journal Article
R: A language and environment for statistical computing.
TL;DR: Copyright (©) 1999–2012 R Foundation for Statistical Computing; permission is granted to make and distribute verbatim copies of this manual provided the copyright notice and permission notice are preserved on all copies.
410.8K
Very high resolution interpolated climate surfaces for global land areas.
Robert J. Hijmans,Susan E. Cameron,Susan E. Cameron,Juan L. Parra,Peter G. Jones,Andy Jarvis +5 more
TL;DR: In this paper, the authors developed interpolated climate surfaces for global land areas (excluding Antarctica) at a spatial resolution of 30 arc s (often referred to as 1-km spatial resolution).
The Global Land Data Assimilation System
Mathew Rodell,Paul R. Houser,U. Jambor,Jon Gottschalck,Kenneth E. Mitchell,C. J. Meng,Kristi R. Arsenault,B. Cosgrove,J Radakovich,Michael G. Bosilovich,Jared Entin,Jeffrey P. Walker,Dag Lohmann,David Toll +13 more
TL;DR: The Global Land Data Assimilation System (GLDAS) as mentioned in this paper is an uncoupled land surface modeling system that drives multiple models, integrates a huge quantity of observation-based data, runs globally at high resolution (0.25°), and produces results in near-real time (typically within 48 h of the present).
5.2K
Positive interactions in communities.
TL;DR: Evidence for the importance of positive interactions - facilitations - in community organization and dynamics has accrued to the point where it warrants formal inclusion into community ecology theory, as it has been in evolutionary biology.
3.6K
Related Papers (5)
Rob W. Brooker,Fernando T. Maestre,Ragan M. Callaway,Christopher L. Lortie,Lohengrin A. Cavieres,Georges Kunstler,Pierre Liancourt,Katja Tielbörger,Justin M. J. Travis,Fabien Anthelme,Cristina Armas,Lluís Coll,Emmanuel Corcket,Sylvain Delzon,Estelle Forey,Zaal Kikvidze,Johan Olofsson,Francisco I. Pugnaire,Constanza L. Quiroz,Patrick Saccone,Katja Schiffers,Merav Seifan,Blaize Touzard,Richard Michalet +23 more