Increased frequency of freeze-thaw events in a future climate can significantly increase negative effects of copper on enchytraeids

Many anthropogenic activities negatively affect the environment and stress the organisms living there. Metals are some of the most common contaminants in temperate climate soils, and recent mining activities in subarctic and arctic regions further emphasize the need for focus on the environmental im...

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Published in:Applied Soil Ecology
Main Authors: Boas, Sara W., Slotsbo, Stine, Patricio Silva, Ana L., Larsen, Martin M., Damgaard, Christian, Holmstrup, Martin
Format: Article in Journal/Newspaper
Language:English
Published: 2016
Subjects:
Climate change
Copper
Enchytraeus albidus
Freeze-thaw
Freeze tolerance
Glucose
ALBIDUS OLIGOCHAETA
SOIL INVERTEBRATES
OXIDATIVE STRESS
COLD TOLERANCE
FOREST SOIL
SALINITY
TOXICITY
REPRODUCTION
GREENLAND
CHEMICALS
Arctic
Greenland
Subarctic
Online Access:https://pure.au.dk/portal/en/publications/ad6b7abf-9219-418e-91a8-b0337330ef32
https://doi.org/10.1016/j.apsoil.2016.06.011
id ftuniaarhuspubl:oai:pure.atira.dk:publications/ad6b7abf-9219-418e-91a8-b0337330ef32
record_format openpolar
spelling ftuniaarhuspubl:oai:pure.atira.dk:publications/ad6b7abf-9219-418e-91a8-b0337330ef32 2024-06-23T07:50:51+00:00 Increased frequency of freeze-thaw events in a future climate can significantly increase negative effects of copper on enchytraeids Boas, Sara W. Slotsbo, Stine Patricio Silva, Ana L. Larsen, Martin M. Damgaard, Christian Holmstrup, Martin 2016-11 https://pure.au.dk/portal/en/publications/ad6b7abf-9219-418e-91a8-b0337330ef32 https://doi.org/10.1016/j.apsoil.2016.06.011 eng eng https://pure.au.dk/portal/en/publications/ad6b7abf-9219-418e-91a8-b0337330ef32 info:eu-repo/semantics/restrictedAccess Boas , S W , Slotsbo , S , Patricio Silva , A L , Larsen , M M , Damgaard , C & Holmstrup , M 2016 , ' Increased frequency of freeze-thaw events in a future climate can significantly increase negative effects of copper on enchytraeids ' , Agriculture, Ecosystems & Environment , vol. 107 , pp. 272-278 . https://doi.org/10.1016/j.apsoil.2016.06.011 Climate change Copper Enchytraeus albidus Freeze-thaw Freeze tolerance Glucose ALBIDUS OLIGOCHAETA SOIL INVERTEBRATES OXIDATIVE STRESS COLD TOLERANCE FOREST SOIL SALINITY TOXICITY REPRODUCTION GREENLAND CHEMICALS article 2016 ftuniaarhuspubl https://doi.org/10.1016/j.apsoil.2016.06.011 2024-06-04T14:19:21Z Many anthropogenic activities negatively affect the environment and stress the organisms living there. Metals are some of the most common contaminants in temperate climate soils, and recent mining activities in subarctic and arctic regions further emphasize the need for focus on the environmental impact in cold climate regions. The present study investigated how the combination of sub-zero temperatures and copper (Cu) contamination of soil affected the freeze tolerant oligochaete worm, Enchytraeus albidus. Worms were exposed to one of three temperature treatments (constant +1.5 degrees C, constant -6 degrees C, or repeated daily cycles between +1.5 to -6 degrees C) in combination with one of several different Cu (CuCl2) concentrations in soil. The results showed that concentrations of Cu that are sublethal under benign temperatures (+1.5 degrees C) caused a reduced cold tolerance of worms. We estimated that LC50 values for Cu were 470 mu g Cu g(-1) dry soil at +1.5 degrees C, 300 mu g Cu g(-1) dry soil at constant -6 degrees C, but only 95 mu g Cu g(-1) dry soil after exposure to repeated daily freezing and thawing (+1.5 to -6 degrees C). Levels of the main cryoprotectant of these worms, glucose, were significantly lower in worms exposed to elevated Cu, which may have contributed to the reduced cold tolerance. These results imply that detrimental effects of Cu in the environment may be considerably worse in a cold environment where freezing and thawing of the habitat occurs on a regular basis than in a climate with periods of constant freezing, or in a temperate climate where freezing of soils never takes place. (C) 2016 Elsevier B.V. All rights reserved. Article in Journal/Newspaper Arctic Climate change Greenland Subarctic Aarhus University: Research Arctic Greenland Applied Soil Ecology 107 272 278
institution Open Polar
collection Aarhus University: Research
op_collection_id ftuniaarhuspubl
language English
topic Climate change
Copper
Enchytraeus albidus
Freeze-thaw
Freeze tolerance
Glucose
ALBIDUS OLIGOCHAETA
SOIL INVERTEBRATES
OXIDATIVE STRESS
COLD TOLERANCE
FOREST SOIL
SALINITY
TOXICITY
REPRODUCTION
GREENLAND
CHEMICALS
spellingShingle Climate change
Copper
Enchytraeus albidus
Freeze-thaw
Freeze tolerance
Glucose
ALBIDUS OLIGOCHAETA
SOIL INVERTEBRATES
OXIDATIVE STRESS
COLD TOLERANCE
FOREST SOIL
SALINITY
TOXICITY
REPRODUCTION
GREENLAND
CHEMICALS
Boas, Sara W.
Slotsbo, Stine
Patricio Silva, Ana L.
Larsen, Martin M.
Damgaard, Christian
Holmstrup, Martin
Increased frequency of freeze-thaw events in a future climate can significantly increase negative effects of copper on enchytraeids
topic_facet Climate change
Copper
Enchytraeus albidus
Freeze-thaw
Freeze tolerance
Glucose
ALBIDUS OLIGOCHAETA
SOIL INVERTEBRATES
OXIDATIVE STRESS
COLD TOLERANCE
FOREST SOIL
SALINITY
TOXICITY
REPRODUCTION
GREENLAND
CHEMICALS
description Many anthropogenic activities negatively affect the environment and stress the organisms living there. Metals are some of the most common contaminants in temperate climate soils, and recent mining activities in subarctic and arctic regions further emphasize the need for focus on the environmental impact in cold climate regions. The present study investigated how the combination of sub-zero temperatures and copper (Cu) contamination of soil affected the freeze tolerant oligochaete worm, Enchytraeus albidus. Worms were exposed to one of three temperature treatments (constant +1.5 degrees C, constant -6 degrees C, or repeated daily cycles between +1.5 to -6 degrees C) in combination with one of several different Cu (CuCl2) concentrations in soil. The results showed that concentrations of Cu that are sublethal under benign temperatures (+1.5 degrees C) caused a reduced cold tolerance of worms. We estimated that LC50 values for Cu were 470 mu g Cu g(-1) dry soil at +1.5 degrees C, 300 mu g Cu g(-1) dry soil at constant -6 degrees C, but only 95 mu g Cu g(-1) dry soil after exposure to repeated daily freezing and thawing (+1.5 to -6 degrees C). Levels of the main cryoprotectant of these worms, glucose, were significantly lower in worms exposed to elevated Cu, which may have contributed to the reduced cold tolerance. These results imply that detrimental effects of Cu in the environment may be considerably worse in a cold environment where freezing and thawing of the habitat occurs on a regular basis than in a climate with periods of constant freezing, or in a temperate climate where freezing of soils never takes place. (C) 2016 Elsevier B.V. All rights reserved.
format Article in Journal/Newspaper
author Boas, Sara W.
Slotsbo, Stine
Patricio Silva, Ana L.
Larsen, Martin M.
Damgaard, Christian
Holmstrup, Martin
author_facet Boas, Sara W.
Slotsbo, Stine
Patricio Silva, Ana L.
Larsen, Martin M.
Damgaard, Christian
Holmstrup, Martin
author_sort Boas, Sara W.
title Increased frequency of freeze-thaw events in a future climate can significantly increase negative effects of copper on enchytraeids
title_short Increased frequency of freeze-thaw events in a future climate can significantly increase negative effects of copper on enchytraeids
title_full Increased frequency of freeze-thaw events in a future climate can significantly increase negative effects of copper on enchytraeids
title_fullStr Increased frequency of freeze-thaw events in a future climate can significantly increase negative effects of copper on enchytraeids
title_full_unstemmed Increased frequency of freeze-thaw events in a future climate can significantly increase negative effects of copper on enchytraeids
title_sort increased frequency of freeze-thaw events in a future climate can significantly increase negative effects of copper on enchytraeids
publishDate 2016
url https://pure.au.dk/portal/en/publications/ad6b7abf-9219-418e-91a8-b0337330ef32
https://doi.org/10.1016/j.apsoil.2016.06.011
geographic Arctic
Greenland
geographic_facet Arctic
Greenland
genre Arctic
Climate change
Greenland
Subarctic
genre_facet Arctic
Climate change
Greenland
Subarctic
op_source Boas , S W , Slotsbo , S , Patricio Silva , A L , Larsen , M M , Damgaard , C & Holmstrup , M 2016 , ' Increased frequency of freeze-thaw events in a future climate can significantly increase negative effects of copper on enchytraeids ' , Agriculture, Ecosystems & Environment , vol. 107 , pp. 272-278 . https://doi.org/10.1016/j.apsoil.2016.06.011
op_relation https://pure.au.dk/portal/en/publications/ad6b7abf-9219-418e-91a8-b0337330ef32
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.1016/j.apsoil.2016.06.011
container_title Applied Soil Ecology
container_volume 107
container_start_page 272
op_container_end_page 278
_version_ 1802641796535156736

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