Ocean warming and acidification adjust inter‑ and intra‑specific variability in the functional trait expression of polar invertebrates
Ocean warming and acidification adjust inter‑ and intra‑specific variability in the functional trait expression of polar invertebrates
Climate change is known to affect the distribution and composition of species, but concomitant alterations to functionally important aspects of behaviour and species-environment relations are poorly constrained. Here, we examine the ecosystem ramifications of changes in sediment-dwelling invertebrate bioturbation behaviour—a key process mediating nutrient cycling—associated with near-future environmental conditions (+ 1.5 °C, 550 ppm [pCO2]) for species from polar regions experiencing rapid rates of climate change. We find that responses to warming and acidification vary between species and lead to a reduction in intra-specific variability in behavioural trait expression that adjusts the magnitude and direction of nutrient concentrations. Our analyses also indicate that species behaviour is not predetermined, but can be dependent on local variations in environmental history that set population capacities for phenotypic plasticity. We provide evidence that certain, but subtle, aspects of inter- and intra-specific variation in behavioural trait expression, rather than the presence or proportional representation of species per se, is an important and under-appreciated determinant of benthic biogeochemical responses to climate change. Such changes in species behaviour may act as an early warning for impending ecological transitions associated with progressive climate forcing.
Animals, Antarctic, Arctic, Carbon Dioxide/metabolism, Climate Change, Ecosystem, Global Warming, Hydrogen-Ion Concentration, Invertebrates/physiology, Oceans and Seas, Seawater, benthic, bioturbation, climate futures, plasticity, polar front
14985
Williams, Thomas J.
efc97aa3-a180-46ac-b451-15ff48860a1f
Reed, Adam J.
ec734ee2-469c-4259-91d6-4abcfbe65e3b
Peck, Lloyd S.
a6d85315-4c46-41db-b1b6-b90888c1b682
Godbold, Jasmin A.
df6da569-e7ea-43ca-8a95-a563829fb88a
Solan, Martin
c28b294a-1db6-4677-8eab-bd8d6221fecf
1 July 2024
Williams, Thomas J.
efc97aa3-a180-46ac-b451-15ff48860a1f
Reed, Adam J.
ec734ee2-469c-4259-91d6-4abcfbe65e3b
Peck, Lloyd S.
a6d85315-4c46-41db-b1b6-b90888c1b682
Godbold, Jasmin A.
df6da569-e7ea-43ca-8a95-a563829fb88a
Solan, Martin
c28b294a-1db6-4677-8eab-bd8d6221fecf
Williams, Thomas J., Reed, Adam J., Peck, Lloyd S., Godbold, Jasmin A. and Solan, Martin
(2024)
Ocean warming and acidification adjust inter‑ and intra‑specific variability in the functional trait expression of polar invertebrates.
Scientific Reports, 14 (1), , [14985].
(doi:10.1038/s41598-024-65808-5).
Abstract
Climate change is known to affect the distribution and composition of species, but concomitant alterations to functionally important aspects of behaviour and species-environment relations are poorly constrained. Here, we examine the ecosystem ramifications of changes in sediment-dwelling invertebrate bioturbation behaviour—a key process mediating nutrient cycling—associated with near-future environmental conditions (+ 1.5 °C, 550 ppm [pCO2]) for species from polar regions experiencing rapid rates of climate change. We find that responses to warming and acidification vary between species and lead to a reduction in intra-specific variability in behavioural trait expression that adjusts the magnitude and direction of nutrient concentrations. Our analyses also indicate that species behaviour is not predetermined, but can be dependent on local variations in environmental history that set population capacities for phenotypic plasticity. We provide evidence that certain, but subtle, aspects of inter- and intra-specific variation in behavioural trait expression, rather than the presence or proportional representation of species per se, is an important and under-appreciated determinant of benthic biogeochemical responses to climate change. Such changes in species behaviour may act as an early warning for impending ecological transitions associated with progressive climate forcing.
Text
williams_et_al_SciRep_Manuscript_acceptedversion
- Accepted Manuscript
Text
s41598-024-65808-5
- Version of Record
More information
Accepted/In Press date: 24 June 2024
Published date: 1 July 2024
Additional Information:
© 2024. The Author(s).
Keywords:
Animals, Antarctic, Arctic, Carbon Dioxide/metabolism, Climate Change, Ecosystem, Global Warming, Hydrogen-Ion Concentration, Invertebrates/physiology, Oceans and Seas, Seawater, benthic, bioturbation, climate futures, plasticity, polar front
Identifiers
Local EPrints ID: 491707
URI: http://eprints.soton.ac.uk/id/eprint/491707
ISSN: 2045-2322
PURE UUID: 00bf408f-8841-456b-b219-cab860d9e800
Catalogue record
Date deposited: 03 Jul 2024 16:15
Last modified: 23 Jul 2024 02:09
Export record
Altmetrics
Contributors
Author:
Thomas J. Williams
Author:
Lloyd S. Peck
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics