Sea urchin response to rising pCO2 shows ocean acidification may fundamentally alter the chemistry of marine skeletons
Ocean acidification caused by an increase in pCO2 is expected to drastically affect marine ecosystem composition, yet there is much uncertainty about the mechanisms through which ecosystems may be affected. Here we studied sea urchins that are common and important grazers in the Mediterranean (Parac...
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| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
Hellenic Centre for Marine Research
2014
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| Online Access: | https://ejournals.epublishing.ekt.gr/index.php/hcmr-med-mar-sc/article/view/12521 |
| _version_ | 1821672050776866816 |
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| author | BRAY, L. PANCUCCI-PAPADOPOULOU, M.A. HALL-SPENCER, J. M. |
| author_facet | BRAY, L. PANCUCCI-PAPADOPOULOU, M.A. HALL-SPENCER, J. M. |
| author_sort | BRAY, L. |
| collection | EKT ePublishing (National Documentation Centre, Greece) |
| description | Ocean acidification caused by an increase in pCO2 is expected to drastically affect marine ecosystem composition, yet there is much uncertainty about the mechanisms through which ecosystems may be affected. Here we studied sea urchins that are common and important grazers in the Mediterranean (Paracentrotus lividus and Arbacia lixula). Our study included a natural CO2 seep plus reference sites in the Aegean Sea off Greece. The distribution of A. lixula was unaffected by the low pH environment, whereas densities of P. lividus were much reduced. There was skeletal degradation in both species living in acidified waters compared to reference sites and remarkable increases in skeletal manganese levels (P. lividus had a 541% increase, A. lixula a 243% increase), presumably due to changes in mineral crystalline structure. Levels of strontium and zinc were also altered. It is not yet known whether such dramatic changes in skeletal chemistry will affect coastal systems but our study reveals a mechanism that may alter inter-species interactions. |
| format | Article in Journal/Newspaper |
| genre | Ocean acidification |
| genre_facet | Ocean acidification |
| id | ftektojs:oai:ojs.pkp.sfu.ca:article/12521 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftektojs |
| op_relation | https://ejournals.epublishing.ekt.gr/index.php/hcmr-med-mar-sc/article/view/12521/12399 https://ejournals.epublishing.ekt.gr/index.php/hcmr-med-mar-sc/article/view/12521 |
| op_source | Mediterranean Marine Science; Vol 15, No 3 (2014); 510-519 1791-6763 1108-393X |
| publishDate | 2014 |
| publisher | Hellenic Centre for Marine Research |
| record_format | openpolar |
| spelling | ftektojs:oai:ojs.pkp.sfu.ca:article/12521 2025-01-17T00:03:19+00:00 Sea urchin response to rising pCO2 shows ocean acidification may fundamentally alter the chemistry of marine skeletons BRAY, L. PANCUCCI-PAPADOPOULOU, M.A. HALL-SPENCER, J. M. 2014-04-25 application/pdf https://ejournals.epublishing.ekt.gr/index.php/hcmr-med-mar-sc/article/view/12521 eng eng Hellenic Centre for Marine Research https://ejournals.epublishing.ekt.gr/index.php/hcmr-med-mar-sc/article/view/12521/12399 https://ejournals.epublishing.ekt.gr/index.php/hcmr-med-mar-sc/article/view/12521 Mediterranean Marine Science; Vol 15, No 3 (2014); 510-519 1791-6763 1108-393X Skeletal element composition Paracentrotus lividus Arbacia lixula Crystalline structure Ocean acidification info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2014 ftektojs 2024-07-18T03:59:06Z Ocean acidification caused by an increase in pCO2 is expected to drastically affect marine ecosystem composition, yet there is much uncertainty about the mechanisms through which ecosystems may be affected. Here we studied sea urchins that are common and important grazers in the Mediterranean (Paracentrotus lividus and Arbacia lixula). Our study included a natural CO2 seep plus reference sites in the Aegean Sea off Greece. The distribution of A. lixula was unaffected by the low pH environment, whereas densities of P. lividus were much reduced. There was skeletal degradation in both species living in acidified waters compared to reference sites and remarkable increases in skeletal manganese levels (P. lividus had a 541% increase, A. lixula a 243% increase), presumably due to changes in mineral crystalline structure. Levels of strontium and zinc were also altered. It is not yet known whether such dramatic changes in skeletal chemistry will affect coastal systems but our study reveals a mechanism that may alter inter-species interactions. Article in Journal/Newspaper Ocean acidification EKT ePublishing (National Documentation Centre, Greece) |
| spellingShingle | Skeletal element composition Paracentrotus lividus Arbacia lixula Crystalline structure Ocean acidification BRAY, L. PANCUCCI-PAPADOPOULOU, M.A. HALL-SPENCER, J. M. Sea urchin response to rising pCO2 shows ocean acidification may fundamentally alter the chemistry of marine skeletons |
| title | Sea urchin response to rising pCO2 shows ocean acidification may fundamentally alter the chemistry of marine skeletons |
| title_full | Sea urchin response to rising pCO2 shows ocean acidification may fundamentally alter the chemistry of marine skeletons |
| title_fullStr | Sea urchin response to rising pCO2 shows ocean acidification may fundamentally alter the chemistry of marine skeletons |
| title_full_unstemmed | Sea urchin response to rising pCO2 shows ocean acidification may fundamentally alter the chemistry of marine skeletons |
| title_short | Sea urchin response to rising pCO2 shows ocean acidification may fundamentally alter the chemistry of marine skeletons |
| title_sort | sea urchin response to rising pco2 shows ocean acidification may fundamentally alter the chemistry of marine skeletons |
| topic | Skeletal element composition Paracentrotus lividus Arbacia lixula Crystalline structure Ocean acidification |
| topic_facet | Skeletal element composition Paracentrotus lividus Arbacia lixula Crystalline structure Ocean acidification |
| url | https://ejournals.epublishing.ekt.gr/index.php/hcmr-med-mar-sc/article/view/12521 |