Respiratory-locomotor coupling in Hb+ N . coriiceps during thermally induced C-bend maneuvers.
Data points and error bars represent mean and SD of angular velocity (red symbols) and opercula opening amplitude (black symbols), during C-bend turns of a single specimen of N . coriiceps (Cor #4 in S3 and S5 Figs depicting locomotor and respiratory responses), normalized to their maximum and minim...
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ftsmithonian:oai:figshare.com:article/17076876 2023-05-15T13:37:58+02:00 Respiratory-locomotor coupling in Hb+ N . coriiceps during thermally induced C-bend maneuvers. Iskander I. Ismailov (11751816) Jordan B. Scharping (11751819) Iraida E. Andreeva (11751822) Michael J. Friedlander (11751825) 2021-11-24T18:25:36Z https://doi.org/10.1371/journal.pone.0252359.g008 unknown https://figshare.com/articles/figure/Respiratory-locomotor_coupling_in_Hb_i_N_i_i_coriiceps_i_during_thermally_induced_C-bend_maneuvers_/17076876 doi:10.1371/journal.pone.0252359.g008 CC BY 4.0 CC-BY Genetics Physiology Evolutionary Biology Ecology Sociology Inorganic Chemistry Environmental Sciences not elsewhere classified Biological Sciences not elsewhere classified unavoidable progressive hyperthermia recent studies forecast notothenia coriiceps </ increasing metabolic demand include avoidance reactions essential thermoregulatory mechanism especially aquatic stenotherms ecologically relevant setting chaenocephalus aceratus </ call much attention augment gill ventilation many ectothermic animals >) lacks hemoglobin div >< p acute ambient warming limited thermal range ambient warming thermal stress many ectotherms expresses hemoglobin thus facilitating temperature continues specific maneuvers specific locomotor scaleless integument respiratory responses repetitive startle obligatory thermoconformation manifests respiratory locomotor coupling like maneuvers less tolerant habitat selection detrimental effects deleterious effects branchial respiration antarctic teleosts Image Figure 2021 ftsmithonian https://doi.org/10.1371/journal.pone.0252359.g008 2021-12-19T20:51:37Z Data points and error bars represent mean and SD of angular velocity (red symbols) and opercula opening amplitude (black symbols), during C-bend turns of a single specimen of N . coriiceps (Cor #4 in S3 and S5 Figs depicting locomotor and respiratory responses), normalized to their maximum and minimum values, respectively, and averaged for all successive turns within each 1°C interval of temperature change (see numbers in the panels (A) through (G) ). See S3 Table for numerical data. Still Image Antarc* Antarctic Unknown Antarctic |
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ftsmithonian |
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topic |
Genetics Physiology Evolutionary Biology Ecology Sociology Inorganic Chemistry Environmental Sciences not elsewhere classified Biological Sciences not elsewhere classified unavoidable progressive hyperthermia recent studies forecast notothenia coriiceps </ increasing metabolic demand include avoidance reactions essential thermoregulatory mechanism especially aquatic stenotherms ecologically relevant setting chaenocephalus aceratus </ call much attention augment gill ventilation many ectothermic animals >) lacks hemoglobin div >< p acute ambient warming limited thermal range ambient warming thermal stress many ectotherms expresses hemoglobin thus facilitating temperature continues specific maneuvers specific locomotor scaleless integument respiratory responses repetitive startle obligatory thermoconformation manifests respiratory locomotor coupling like maneuvers less tolerant habitat selection detrimental effects deleterious effects branchial respiration antarctic teleosts |
spellingShingle |
Genetics Physiology Evolutionary Biology Ecology Sociology Inorganic Chemistry Environmental Sciences not elsewhere classified Biological Sciences not elsewhere classified unavoidable progressive hyperthermia recent studies forecast notothenia coriiceps </ increasing metabolic demand include avoidance reactions essential thermoregulatory mechanism especially aquatic stenotherms ecologically relevant setting chaenocephalus aceratus </ call much attention augment gill ventilation many ectothermic animals >) lacks hemoglobin div >< p acute ambient warming limited thermal range ambient warming thermal stress many ectotherms expresses hemoglobin thus facilitating temperature continues specific maneuvers specific locomotor scaleless integument respiratory responses repetitive startle obligatory thermoconformation manifests respiratory locomotor coupling like maneuvers less tolerant habitat selection detrimental effects deleterious effects branchial respiration antarctic teleosts Iskander I. Ismailov (11751816) Jordan B. Scharping (11751819) Iraida E. Andreeva (11751822) Michael J. Friedlander (11751825) Respiratory-locomotor coupling in Hb+ N . coriiceps during thermally induced C-bend maneuvers. |
topic_facet |
Genetics Physiology Evolutionary Biology Ecology Sociology Inorganic Chemistry Environmental Sciences not elsewhere classified Biological Sciences not elsewhere classified unavoidable progressive hyperthermia recent studies forecast notothenia coriiceps </ increasing metabolic demand include avoidance reactions essential thermoregulatory mechanism especially aquatic stenotherms ecologically relevant setting chaenocephalus aceratus </ call much attention augment gill ventilation many ectothermic animals >) lacks hemoglobin div >< p acute ambient warming limited thermal range ambient warming thermal stress many ectotherms expresses hemoglobin thus facilitating temperature continues specific maneuvers specific locomotor scaleless integument respiratory responses repetitive startle obligatory thermoconformation manifests respiratory locomotor coupling like maneuvers less tolerant habitat selection detrimental effects deleterious effects branchial respiration antarctic teleosts |
description |
Data points and error bars represent mean and SD of angular velocity (red symbols) and opercula opening amplitude (black symbols), during C-bend turns of a single specimen of N . coriiceps (Cor #4 in S3 and S5 Figs depicting locomotor and respiratory responses), normalized to their maximum and minimum values, respectively, and averaged for all successive turns within each 1°C interval of temperature change (see numbers in the panels (A) through (G) ). See S3 Table for numerical data. |
format |
Still Image |
author |
Iskander I. Ismailov (11751816) Jordan B. Scharping (11751819) Iraida E. Andreeva (11751822) Michael J. Friedlander (11751825) |
author_facet |
Iskander I. Ismailov (11751816) Jordan B. Scharping (11751819) Iraida E. Andreeva (11751822) Michael J. Friedlander (11751825) |
author_sort |
Iskander I. Ismailov (11751816) |
title |
Respiratory-locomotor coupling in Hb+ N . coriiceps during thermally induced C-bend maneuvers. |
title_short |
Respiratory-locomotor coupling in Hb+ N . coriiceps during thermally induced C-bend maneuvers. |
title_full |
Respiratory-locomotor coupling in Hb+ N . coriiceps during thermally induced C-bend maneuvers. |
title_fullStr |
Respiratory-locomotor coupling in Hb+ N . coriiceps during thermally induced C-bend maneuvers. |
title_full_unstemmed |
Respiratory-locomotor coupling in Hb+ N . coriiceps during thermally induced C-bend maneuvers. |
title_sort |
respiratory-locomotor coupling in hb+ n . coriiceps during thermally induced c-bend maneuvers. |
publishDate |
2021 |
url |
https://doi.org/10.1371/journal.pone.0252359.g008 |
geographic |
Antarctic |
geographic_facet |
Antarctic |
genre |
Antarc* Antarctic |
genre_facet |
Antarc* Antarctic |
op_relation |
https://figshare.com/articles/figure/Respiratory-locomotor_coupling_in_Hb_i_N_i_i_coriiceps_i_during_thermally_induced_C-bend_maneuvers_/17076876 doi:10.1371/journal.pone.0252359.g008 |
op_rights |
CC BY 4.0 |
op_rightsnorm |
CC-BY |
op_doi |
https://doi.org/10.1371/journal.pone.0252359.g008 |
_version_ |
1766100010057859072 |