Keystone species: toward an operational concept for marine biodiversity conservation

19 pages, 7 figures, 1 plate, 3 tables, appendices A–C and the supplement are available online: http://dx.doi.org/10.1890/14-0306.1.sm Various definitions and indices have been proposed in the literature to identify keystone species. In this study, we intended to make the concept of keystone species...

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Bibliographic Details
Published in:Ecological Monographs
Main Authors: Valls, Audrey, Coll, Marta, Christensen, Villy
Format: Article in Journal/Newspaper
Language:unknown
Published: Ecological Society of America 2015
Subjects:
Classification Trees
Ecopath model
Food-web structure
Index of keystoneness
Keystone species
Marine ecosystems
Mixed-trophic impact
Rank correlation tests
Scoring method
Meta-analysis
toothed whales
Alaska
Online Access:http://hdl.handle.net/10261/114129
https://doi.org/10.1890/14-0306.1
Description
Summary:19 pages, 7 figures, 1 plate, 3 tables, appendices A–C and the supplement are available online: http://dx.doi.org/10.1890/14-0306.1.sm Various definitions and indices have been proposed in the literature to identify keystone species. In this study, we intended to make the concept of keystone species operational for marine biodiversity conservation. We used an exclusive definition of keystone species, based on the original concept of keystone predator, and derived a new functional index of keystoneness (KS) from an ecosystem-modeling approach. First, several KS indices were formulated, by combining measures of the mixed-trophic impact (MTI) and biomass of species. Then, a meta-analysis was performed, based on 101 published Ecopath food-web models, selected with a scoring method, and representative of the variety of marine ecosystems worldwide. The indices were applied to the models, and two statistical methods were compared to select the most promising KS index. Rank correlation tests were performed to assess the balance between the contribution of the impact and biomass components to the different KS indices. In addition, a classification tree was implemented, based on ecosystemspecific thresholds applied to the latter species traits, and used to confirm the identified keystone species. The selected index obtained the highest number of models with positive results from both the rank correlation tests and the classification tree. We also demonstrated the limitations of existing KS indices previously applied in the literature. Species were ranked according to their estimates of keystoneness with the selected KS index, so that potential keystone species were quantitatively identified in the 101 modeled food webs. The standardized modeling approach allowed for a comparison of the identified keystone species across models: cartilaginous fishes and toothed whales obtained the highest occurrences. Finally, the selected KS index was applied to the well-known case study of Prince William Sound (Alaska, USA). ...

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