Data from: Metabolic costs imposed by hydrostatic pressure constrain bathymetric range in the lithodid crab Lithodes maja

Changing climate is shifting the distributions of marine species, yet the potential for shifts in depth distributions is virtually unexplored. Hydrostatic pressure is proposed to contribute to a physiological bottleneck constraining depth range extension in shallow-water taxa. However, bathymetric l...

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Main Authors: Brown, Alastair, Thatje, Sven, Morris, James P., Oliphant, Andrew, Morgan, Elizabeth A., Hauton, Chris, Jones, Daniel O. B., Pond, David W.
Format: Other/Unknown Material
Language:unknown
Published: Zenodo 2017
Subjects:
Heart rate
Respiration rate
Lithodes maja
Metabolic theory
Hydrostatic pressure
Hyperbaric physiology
Biogeographic range limitation
Online Access:https://doi.org/10.5061/dryad.2538d
id ftzenodo:oai:zenodo.org:4967279
record_format openpolar
spelling ftzenodo:oai:zenodo.org:4967279 2024-09-15T18:17:52+00:00 Data from: Metabolic costs imposed by hydrostatic pressure constrain bathymetric range in the lithodid crab Lithodes maja Brown, Alastair Thatje, Sven Morris, James P. Oliphant, Andrew Morgan, Elizabeth A. Hauton, Chris Jones, Daniel O. B. Pond, David W. 2017-10-05 https://doi.org/10.5061/dryad.2538d unknown Zenodo https://doi.org/10.1242/jeb.158543 https://zenodo.org/communities/dryad https://doi.org/10.5061/dryad.2538d oai:zenodo.org:4967279 info:eu-repo/semantics/openAccess Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode Heart rate Respiration rate Lithodes maja Metabolic theory Hydrostatic pressure Hyperbaric physiology Biogeographic range limitation info:eu-repo/semantics/other 2017 ftzenodo https://doi.org/10.5061/dryad.2538d10.1242/jeb.158543 2024-07-26T19:32:23Z Changing climate is shifting the distributions of marine species, yet the potential for shifts in depth distributions is virtually unexplored. Hydrostatic pressure is proposed to contribute to a physiological bottleneck constraining depth range extension in shallow-water taxa. However, bathymetric limitation by hydrostatic pressure remains undemonstrated, and the mechanism limiting hyperbaric tolerance remains hypothetical. Here, we assess the effects of hydrostatic pressure in the lithodid crab Lithodes maja (bathymetric range 4-790 m depth, approximately equivalent to 0.1 to 7.9 MPa hydrostatic pressure). Heart rate decreased with increasing hydrostatic pressure, and was significantly lower at ≥10.0 MPa than at 0.1 MPa. Oxygen consumption increased with increasing hydrostatic pressure to 12.5 MPa, before decreasing as hydrostatic pressure increased to 20.0 MPa: oxygen consumption was significantly higher at 7.5-17.5 MPa than at 0.1 MPa. Increases in expression of genes associated with neurotransmission, metabolism and stress were observed between 7.5 and 12.5 MPa. We suggest that hyperbaric tolerance in L. maja may be oxygen-limited by hyperbaric effects on heart rate and metabolic rate, but that L. maja's bathymetric range is limited by metabolic costs imposed by the effects of high hydrostatic pressure. These results advocate including hydrostatic pressure in a complex model of environmental tolerance, where energy-limitation constrains biogeographic range, and facilitate incorporating hydrostatic pressure into the broader metabolic framework for ecology and evolution. Such an approach is crucial for accurately projecting biogeographic responses to changing climate, and for understanding the ecology and evolution of life at depth. Acute hyperbaric tolerance heart rate and molar oxygen consumption data Acute hyperbaric tolerance mass-normalised heart rate and mass-normalised mass-specific molar oxygen consumption. Brown&al._J_Exp_Biol_17_acute_hyperbaric_tolerance.xlsx Sustained hyperbaric tolerance ... Other/Unknown Material Lithodes maja Zenodo
institution Open Polar
collection Zenodo
op_collection_id ftzenodo
language unknown
topic Heart rate
Respiration rate
Lithodes maja
Metabolic theory
Hydrostatic pressure
Hyperbaric physiology
Biogeographic range limitation
spellingShingle Heart rate
Respiration rate
Lithodes maja
Metabolic theory
Hydrostatic pressure
Hyperbaric physiology
Biogeographic range limitation
Brown, Alastair
Thatje, Sven
Morris, James P.
Oliphant, Andrew
Morgan, Elizabeth A.
Hauton, Chris
Jones, Daniel O. B.
Pond, David W.
Data from: Metabolic costs imposed by hydrostatic pressure constrain bathymetric range in the lithodid crab Lithodes maja
topic_facet Heart rate
Respiration rate
Lithodes maja
Metabolic theory
Hydrostatic pressure
Hyperbaric physiology
Biogeographic range limitation
description Changing climate is shifting the distributions of marine species, yet the potential for shifts in depth distributions is virtually unexplored. Hydrostatic pressure is proposed to contribute to a physiological bottleneck constraining depth range extension in shallow-water taxa. However, bathymetric limitation by hydrostatic pressure remains undemonstrated, and the mechanism limiting hyperbaric tolerance remains hypothetical. Here, we assess the effects of hydrostatic pressure in the lithodid crab Lithodes maja (bathymetric range 4-790 m depth, approximately equivalent to 0.1 to 7.9 MPa hydrostatic pressure). Heart rate decreased with increasing hydrostatic pressure, and was significantly lower at ≥10.0 MPa than at 0.1 MPa. Oxygen consumption increased with increasing hydrostatic pressure to 12.5 MPa, before decreasing as hydrostatic pressure increased to 20.0 MPa: oxygen consumption was significantly higher at 7.5-17.5 MPa than at 0.1 MPa. Increases in expression of genes associated with neurotransmission, metabolism and stress were observed between 7.5 and 12.5 MPa. We suggest that hyperbaric tolerance in L. maja may be oxygen-limited by hyperbaric effects on heart rate and metabolic rate, but that L. maja's bathymetric range is limited by metabolic costs imposed by the effects of high hydrostatic pressure. These results advocate including hydrostatic pressure in a complex model of environmental tolerance, where energy-limitation constrains biogeographic range, and facilitate incorporating hydrostatic pressure into the broader metabolic framework for ecology and evolution. Such an approach is crucial for accurately projecting biogeographic responses to changing climate, and for understanding the ecology and evolution of life at depth. Acute hyperbaric tolerance heart rate and molar oxygen consumption data Acute hyperbaric tolerance mass-normalised heart rate and mass-normalised mass-specific molar oxygen consumption. Brown&al._J_Exp_Biol_17_acute_hyperbaric_tolerance.xlsx Sustained hyperbaric tolerance ...
format Other/Unknown Material
author Brown, Alastair
Thatje, Sven
Morris, James P.
Oliphant, Andrew
Morgan, Elizabeth A.
Hauton, Chris
Jones, Daniel O. B.
Pond, David W.
author_facet Brown, Alastair
Thatje, Sven
Morris, James P.
Oliphant, Andrew
Morgan, Elizabeth A.
Hauton, Chris
Jones, Daniel O. B.
Pond, David W.
author_sort Brown, Alastair
title Data from: Metabolic costs imposed by hydrostatic pressure constrain bathymetric range in the lithodid crab Lithodes maja
title_short Data from: Metabolic costs imposed by hydrostatic pressure constrain bathymetric range in the lithodid crab Lithodes maja
title_full Data from: Metabolic costs imposed by hydrostatic pressure constrain bathymetric range in the lithodid crab Lithodes maja
title_fullStr Data from: Metabolic costs imposed by hydrostatic pressure constrain bathymetric range in the lithodid crab Lithodes maja
title_full_unstemmed Data from: Metabolic costs imposed by hydrostatic pressure constrain bathymetric range in the lithodid crab Lithodes maja
title_sort data from: metabolic costs imposed by hydrostatic pressure constrain bathymetric range in the lithodid crab lithodes maja
publisher Zenodo
publishDate 2017
url https://doi.org/10.5061/dryad.2538d
genre Lithodes maja
genre_facet Lithodes maja
op_relation https://doi.org/10.1242/jeb.158543
https://zenodo.org/communities/dryad
https://doi.org/10.5061/dryad.2538d
oai:zenodo.org:4967279
op_rights info:eu-repo/semantics/openAccess
Creative Commons Zero v1.0 Universal
https://creativecommons.org/publicdomain/zero/1.0/legalcode
op_doi https://doi.org/10.5061/dryad.2538d10.1242/jeb.158543
_version_ 1810455996470919168

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