Differences in heavy metal concentrations and in the response of the antioxidant system to hypoxia and air exposure in the Antarctic limpet Nacella concinna

Abstract During the austral spring and summer months, the Antarctic limpet Nacella concinna colonizes intertidal environments in the Western Antarctica Peninsula region. The species is divided into a permanently sub-littoral and a seasonally intertidal, migratory subpopulation. We investigate the ph...

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Published in:Marine Environmental Research
Language:English
Published: Elsevier 2011
Subjects:
Nacella concinna
oxidative stress
glutathione
heavy metals
hypoxia
air exposure
Antarctic
The Antarctic
Austral
Nacella
Antarc*
Antarctica
Online Access:http://hdl.handle.net/2262/50433
https://doi.org/10.1016/j.marenvres.2009.09.003
id fttrinitycoll:oai:tara.tcd.ie:2262/50433
record_format openpolar
spelling fttrinitycoll:oai:tara.tcd.ie:2262/50433 2023-05-15T13:46:17+02:00 Differences in heavy metal concentrations and in the response of the antioxidant system to hypoxia and air exposure in the Antarctic limpet Nacella concinna 2011-02-11T02:49:16Z http://hdl.handle.net/2262/50433 https://doi.org/10.1016/j.marenvres.2009.09.003 en eng Elsevier 01411136 (ISSN) S0141-1136(09)00120-2 (PII) S0141-1136(09)00120-2 (publisherID) http://hdl.handle.net/2262/50433 69 3 127 doi:10.1016/j.marenvres.2009.09.003 Marine Environmental Research (abbrev) 2009 12 months Nacella concinna oxidative stress glutathione heavy metals hypoxia air exposure 2011 fttrinitycoll https://doi.org/10.1016/j.marenvres.2009.09.003 2020-02-16T13:51:11Z Abstract During the austral spring and summer months, the Antarctic limpet Nacella concinna colonizes intertidal environments in the Western Antarctica Peninsula region. The species is divided into a permanently sub-littoral and a seasonally intertidal, migratory subpopulation. We investigate the physiological differentiation between the two limpet groups to identify cellular and molecular changes that accompany adaptation of stenothermal Antarctic invertebrates to life under more stressful intertidal habitat conditions. A major difference between the two groups is the significantly higher concentrations of heavy metals (Fe, Al, Zn) from ingested sediments in sub-littoral limpet digestive glands (DG), associated with higher rates of reactive oxygen species (ROS) formation in this organ. ROS formation is accompanied by significantly higher SOD activity in sub-littoral limpet DG. These high SOD activities are, however, not conserved during either air exposure or hypoxic stress exposure of the sub-littoral limpets, when ROS production is slowed due to the absence of oxygen. The intertidal animals maintain higher levels of SOD and also conserve catalase activity at higher levels during hypoxia or air exposure compared to sub-littoral individuals under the same exposure conditions. More oxidized redox potential in gills and foot muscle and higher antioxidant enzyme activities in gills indicate that intertidal limpets maintain more oxygenated tissues during air exposure, in keeping with more intense ventilation of shell water in the intertidal subpopulation which migrates up the shore in the spring and down in the autumn. An increase of the redox ratio (GSSG/GSH) and accumulation of the lipid oxidation derived malonedialdehyde in intertidal limpet foot muscle during 12h of exposure to air shows that indeed this tissue becomes more oxidized before the limpets eventually contract their shells tightly to minimize water loss and eventually become anaerobic. Intertidal limpets obviously avoid early onset of anaerobic energy production seen in their sub-littoral congeners when exposed to air and are still able to maintain tissue redox ratio balance when exposed to air. correspondance: Corresponding author. (Abele, Doris) Doris.abele@awi.de (Abele, Doris) Alfred-Wegener-Institut fur Polar und Meeresforschung--> , Dept.: Functional Ecology--> , Am Handelshafen 12--> , 27570 Bremerhaven--> - GERMANY (Weihe, Ellen) Alfred-Wegener-Institut fur Polar und Meeresforschung--> , Dept.: Functional Ecology--> , Am Handelshafen 12--> , 27570 Bremerhaven--> - GERMANY (Kriews, Michael) Alfred-Wegener-Institut fur Polar und Meeresforschung--> , Dept.: Functional Ecology--> , Am Handelshafen 12--> , 27570 Bremerhaven--> - GERMANY (Abele, Doris) GERMANY Received: 2009-05-21 Revised: 2009-09-02 Accepted: 2009-09-04 Other/Unknown Material Antarc* Antarctic Antarctica The University of Dublin, Trinity College: TARA (Trinity's Access to Research Archive) Antarctic The Antarctic Austral Nacella ENVELOPE(-60.783,-60.783,-62.467,-62.467) Marine Environmental Research 69 3 127 135
institution Open Polar
collection The University of Dublin, Trinity College: TARA (Trinity's Access to Research Archive)
op_collection_id fttrinitycoll
language English
topic Nacella concinna
oxidative stress
glutathione
heavy metals
hypoxia
air exposure
spellingShingle Nacella concinna
oxidative stress
glutathione
heavy metals
hypoxia
air exposure
Differences in heavy metal concentrations and in the response of the antioxidant system to hypoxia and air exposure in the Antarctic limpet Nacella concinna
topic_facet Nacella concinna
oxidative stress
glutathione
heavy metals
hypoxia
air exposure
description Abstract During the austral spring and summer months, the Antarctic limpet Nacella concinna colonizes intertidal environments in the Western Antarctica Peninsula region. The species is divided into a permanently sub-littoral and a seasonally intertidal, migratory subpopulation. We investigate the physiological differentiation between the two limpet groups to identify cellular and molecular changes that accompany adaptation of stenothermal Antarctic invertebrates to life under more stressful intertidal habitat conditions. A major difference between the two groups is the significantly higher concentrations of heavy metals (Fe, Al, Zn) from ingested sediments in sub-littoral limpet digestive glands (DG), associated with higher rates of reactive oxygen species (ROS) formation in this organ. ROS formation is accompanied by significantly higher SOD activity in sub-littoral limpet DG. These high SOD activities are, however, not conserved during either air exposure or hypoxic stress exposure of the sub-littoral limpets, when ROS production is slowed due to the absence of oxygen. The intertidal animals maintain higher levels of SOD and also conserve catalase activity at higher levels during hypoxia or air exposure compared to sub-littoral individuals under the same exposure conditions. More oxidized redox potential in gills and foot muscle and higher antioxidant enzyme activities in gills indicate that intertidal limpets maintain more oxygenated tissues during air exposure, in keeping with more intense ventilation of shell water in the intertidal subpopulation which migrates up the shore in the spring and down in the autumn. An increase of the redox ratio (GSSG/GSH) and accumulation of the lipid oxidation derived malonedialdehyde in intertidal limpet foot muscle during 12h of exposure to air shows that indeed this tissue becomes more oxidized before the limpets eventually contract their shells tightly to minimize water loss and eventually become anaerobic. Intertidal limpets obviously avoid early onset of anaerobic energy production seen in their sub-littoral congeners when exposed to air and are still able to maintain tissue redox ratio balance when exposed to air. correspondance: Corresponding author. (Abele, Doris) Doris.abele@awi.de (Abele, Doris) Alfred-Wegener-Institut fur Polar und Meeresforschung--> , Dept.: Functional Ecology--> , Am Handelshafen 12--> , 27570 Bremerhaven--> - GERMANY (Weihe, Ellen) Alfred-Wegener-Institut fur Polar und Meeresforschung--> , Dept.: Functional Ecology--> , Am Handelshafen 12--> , 27570 Bremerhaven--> - GERMANY (Kriews, Michael) Alfred-Wegener-Institut fur Polar und Meeresforschung--> , Dept.: Functional Ecology--> , Am Handelshafen 12--> , 27570 Bremerhaven--> - GERMANY (Abele, Doris) GERMANY Received: 2009-05-21 Revised: 2009-09-02 Accepted: 2009-09-04
title Differences in heavy metal concentrations and in the response of the antioxidant system to hypoxia and air exposure in the Antarctic limpet Nacella concinna
title_short Differences in heavy metal concentrations and in the response of the antioxidant system to hypoxia and air exposure in the Antarctic limpet Nacella concinna
title_full Differences in heavy metal concentrations and in the response of the antioxidant system to hypoxia and air exposure in the Antarctic limpet Nacella concinna
title_fullStr Differences in heavy metal concentrations and in the response of the antioxidant system to hypoxia and air exposure in the Antarctic limpet Nacella concinna
title_full_unstemmed Differences in heavy metal concentrations and in the response of the antioxidant system to hypoxia and air exposure in the Antarctic limpet Nacella concinna
title_sort differences in heavy metal concentrations and in the response of the antioxidant system to hypoxia and air exposure in the antarctic limpet nacella concinna
publisher Elsevier
publishDate 2011
url http://hdl.handle.net/2262/50433
https://doi.org/10.1016/j.marenvres.2009.09.003
long_lat ENVELOPE(-60.783,-60.783,-62.467,-62.467)
geographic Antarctic
The Antarctic
Austral
Nacella
geographic_facet Antarctic
The Antarctic
Austral
Nacella
genre Antarc*
Antarctic
Antarctica
genre_facet Antarc*
Antarctic
Antarctica
op_relation 01411136 (ISSN)
S0141-1136(09)00120-2 (PII)
S0141-1136(09)00120-2 (publisherID)
http://hdl.handle.net/2262/50433
69
3
127
doi:10.1016/j.marenvres.2009.09.003
Marine Environmental Research (abbrev)
op_rights 2009
12 months
op_doi https://doi.org/10.1016/j.marenvres.2009.09.003
container_title Marine Environmental Research
container_volume 69
container_issue 3
container_start_page 127
op_container_end_page 135
_version_ 1766239794402164736

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