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Original Article

Facilitation displaces hotspots of diversity and allows communities to persist in heavily stressed and disturbed environments

Authors

Abstract

Question

What are the interacting effects of stress and disturbance on both competition and facilitation, and ultimately their impact on diversity and species ranges?

Location

Simulated data.

Method

We extended the spatially explicit model of Xiao et al. (Oikos, 118, 2009, 1343) to consider how stress and disturbance – operating alone or together – affect species distributions through varying biotic interactions.

Results

In the absence of facilitation, species ranges only occurred within the limits of a triangular zone, which can be considered equivalent to Grime's C-S-R triangle. Competitive species were distributed in low stress and disturbance conditions. Stress- and disturbance-tolerant species occurred in more stressed and disturbed environments. Species richness followed a hump-shaped relationship with a hotspot of diversity occurring close to the centre of the C-S-R triangle. In contrast, facilitation was able to dampen the negative impacts of stress and disturbance acting either solely or simultaneously, but this influence was not simply the sum of the effects of the processes operating independently on the two environmental gradients. Facilitation extended species distributions along both the stress and disturbance gradients and displaced the hotspot of diversity into the centre of the response surface.

Conclusions

Facilitation was able to promote the occurrence and persistence of communities in highly stressed and disturbed conditions, i.e. allowing a stable community to exist beyond the limits of the C-S-R triangle. We also showed that facilitation can be an important mechanism driving the displacement of hotspots of diversity from benign toward intermediate stressed and disturbed environments.

Ancillary

Article Information

DOI

10.1111/jvs.12064

Format Available

Full text: HTML | PDF

© 2013 International Association for Vegetation Science

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Keywords

  • Community theory;
  • C-S-R triangle;
  • Environmental gradients;
  • Expansion and extinction of communities;
  • Facilitation;
  • Hotspots of diversity;
  • Simulation;
  • Species distributions

Publication History

  • Issue online:
  • Version of record online:
  • Manuscript Accepted:
  • Manuscript Received:

Funded by

  • Deutsche Forschungsgemeinschaft (DFG). Grant Number: ANR 09 – STRA – 09 O2LA
  • Postdoc USB. Grant Number: CZ.1.07/2.3.00/30.0006
  • EU Education for Competitiveness Operational Programme
  • European Social Fund
  • Czech State Budget
  • State Key Program of National Natural Science of China. Grant Number: 31230014
  • National Natural Science Foundation of China. Grant Numbers: 40901019, 31000203, 31000178
  • Scottish Government Rural and Environment Science and Analytical Services Division (RESAS)

Supporting Information

FilenameDescription
jvs12064-sup-0001-AppendixS1.pdfapplication/PDF, 1642KAppendix S1. The spatial distributions of competitive, stress-tolerant and disturbance-tolerant species along gradients during the modelling progress.

Please note: Wiley-Blackwell is not responsible for the content or functionality of any supporting information supplied by the authors. Any queries (other than missing content) should be directed to the corresponding author for the article.

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  1. 1Natalie T. Jones, Benjamin Gilbert, Biotic forcing: the push–pull of plant ranges, Plant Ecology, 2016, 217, 11, 1331CrossRef
  2. 2Lei He, Lulu Cheng, Liangliang Hu, Jianjun Tang, Xin Chen, Deviation from niche optima affects the nature of plant–plant interactions along a soil acidity gradient, Biology Letters, 2016, 12, 1, 20150925CrossRef
  3. 3Ana I. García-Cervigón, José M. Iriondo, Juan C. Linares, José M. Olano, Disentangling Facilitation Along the Life Cycle: Impacts of Plant–Plant Interactions at Vegetative and Reproductive Stages in a Mediterranean Forb, Frontiers in Plant Science, 2016, 7CrossRef
  4. 4Richard Michalet, Francisco I. Pugnaire, Facilitation in communities: underlying mechanisms, community and ecosystem implications, Functional Ecology, 2016, 30, 1, 3Wiley Online Library
  5. 5András Kelemen, Péter Török, Orsolya Valkó, Balázs Deák, Katalin Tóth, Béla Tóthmérész, Both facilitation and limiting similarity shape the species coexistence in dry alkali grasslands, Ecological Complexity, 2015, 21, 34CrossRef
  6. 6Richard Michalet, Jean-Paul Maalouf, Philippe Choler, Bernard Clément, David Rosebery, Jean-Marie Royer, Christian Schöb, Christopher J. Lortie, Competition, facilitation and environmental severity shape the relationship between local and regional species richness in plant communities, Ecography, 2015, 38, 4, 335Wiley Online Library
  7. 7Nicolas Gross, Pierre Liancourt, Robyn Butters, Richard P. Duncan, Philip E. Hulme, Functional equivalence, competitive hierarchy and facilitation determine species coexistence in highly invaded grasslands, New Phytologist, 2015, 206, 1, 175Wiley Online Library
  8. 8Antonio I. Arroyo, Yolanda Pueyo, Hugo Saiz, Concepción L. Alados, Plant-plant interactions as a mechanism structuring plant diversity in a Mediterranean semi-arid ecosystem, Ecology and Evolution, 2015, 5, 22, 5305Wiley Online Library
  9. 9Michael D. Reisner, Paul S. Doescher, David A. Pyke, Richard Michalet, Stress-gradient hypothesis explains susceptibility toBromus tectoruminvasion and community stability in North America's semi-aridArtemisia tridentata wyomingensisecosystems, Journal of Vegetation Science, 2015, 26, 6, 1212Wiley Online Library
  10. 10Yoann Le Bagousse-Pinguet, Jean-Paul Maalouf, Blaise Touzard, Richard Michalet, Importance, but not intensity of plant interactions relates to species diversity under the interplay of stress and disturbance, Oikos, 2014, 123, 7, 777Wiley Online Library
  11. 11Fabien Anthelme, Lorena Gómez-Aparicio, Rommel Montúfar, J. Moore, Nurse-based restoration of degraded tropical forests with tussock grasses: experimental support from the Andean cloud forest, Journal of Applied Ecology, 2014, 51, 6, 1534Wiley Online Library
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  13. 13Richard Michalet, Yoann Le Bagousse-Pinguet, Jean-Paul Maalouf, Christopher J. Lortie, Michael Palmer, Two alternatives to the stress-gradient hypothesis at the edge of life: the collapse of facilitation and the switch from facilitation to competition, Journal of Vegetation Science, 2014, 25, 2, 609Wiley Online Library