Supplementary material from "Positive species interactions strengthen in a high-CO 2 ocean"

Negative interactions among species are a major force shaping natural communities and are predicted to strengthen as climate change intensifies. Similarly, positive interactions are anticipated to intensify, and could buffer the consequences of climate-driven disturbances. We used in situ experiment...

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Bibliographic Details
Main Authors: Ferreira, Camilo M., Connell, Sean D., Goldenberg, Silvan U., Nagelkerken, Ivan
Format: Article in Journal/Newspaper
Language:unknown
Published: The Royal Society 2021
Subjects:
Ecology
FOS Biological sciences
60801 Animal Behaviour
Parma
Ocean acidification
Online Access:https://dx.doi.org/10.6084/m9.figshare.c.5479633
https://rs.figshare.com/collections/Supplementary_material_from_Positive_species_interactions_strengthen_in_a_high-CO_sub_2_sub_ocean_/5479633
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Summary:Negative interactions among species are a major force shaping natural communities and are predicted to strengthen as climate change intensifies. Similarly, positive interactions are anticipated to intensify, and could buffer the consequences of climate-driven disturbances. We used in situ experiments at volcanic CO 2 vents within a temperate rocky reef to show that ocean acidification can drive community reorganization through indirect and direct positive pathways. A keystone species, the algal-farming damselfish Parma alboscapularis, enhanced primary productivity through its weeding of algae whose productivity was also boosted by elevated CO 2 . The accelerated primary productivity was associated with increased densities of primary consumers (herbivorous invertebrates), which indirectly supported increased secondary consumers densities (predatory fish) (i.e. strengthening of bottom-up fuelling). However, this keystone species also reduced predatory fish densities through behavioural interference, releasing invertebrate prey from predation pressure and enabling a further boost in prey densities (i.e. weakening of top-down control). We uncover a novel mechanism where a keystone herbivore mediates bottom-up and top-down processes simultaneously to boost populations of a coexisting herbivore, resulting in altered food web interactions and predator populations under future ocean acidification.

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