Ocean change within shoreline communities: from biomechanics to behaviour and beyond

Humans are changing the physical properties of Earth. In marine systems, elevated carbon dioxide concentrations are driving notable shifts in temperature and seawater chemistry. Here, we consider consequences of such perturbations for organism biomechanics and linkages amongst species within communi...

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Bibliographic Details
Published in:Conservation Physiology
Main Authors: Gaylord, Brian, Barclay, Kristina M., Jellison, Brittany M., Jurgens, Laura L., Ninokawa, Aaron T., Rivest, Emily B., Leighton, Lindsey R.
Format: Text
Language:unknown
Published: W&M ScholarWorks 2019
Subjects:
Behavioural responses
functional ecology
global environmentalchange
global warming
ocean acidification
species interactions
Biological Sciences Peer-Reviewed Articles
Climate
Marine Biology
Oceanography
Ocean acidification
Online Access:https://scholarworks.wm.edu/vimsarticles/1802
https://scholarworks.wm.edu/context/vimsarticles/article/2803/viewcontent/Rivest2019ConservationPhysiology.pdf
Description
Summary:Humans are changing the physical properties of Earth. In marine systems, elevated carbon dioxide concentrations are driving notable shifts in temperature and seawater chemistry. Here, we consider consequences of such perturbations for organism biomechanics and linkages amongst species within communities.In particular,we examine case examples of altered morphologies and material properties, disrupted consumer–prey behaviours, and the potential for modulated positive (i.e. facilitative) interactions amongst taxa, as incurred through increasing ocean acidity and rising temperatures. We focus on intertidal rocky shores of temperate seas as model systems, acknowledging the longstanding role of these communities in deciphering ecological principles. Our survey illustrates the broad capacity for biomechanical and behavioural shifts in organisms to influence the ecology of a transforming world

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