Seawater carbonate chemistry and biological processes during experiments with spider crab Hyas araneus, 2011

The combined effects of ocean warming and acidification were compared in larvae from two populations of the cold-eurythermal spider crab Hyas araneus, from one of its southernmost populations (around Helgoland, southern North Sea, 54°N, habitat temperature 3-18°C; collection: January 2008, hatch: Ja...

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Bibliographic Details
Main Authors: Walther, Kathleen, Sartoris, Franz-Josef, Pörtner, Hans-Otto
Format: Dataset
Language:English
Published: PANGAEA - Data Publisher for Earth & Environmental Science 2011
Subjects:
Experimental treatment
Site
Salinity
Temperature, water
Hyas araneus, calcium content, Zoea I
Hyas araneus, calcium content, megalopa
Alkalinity, total
Alkalinity, total, standard deviation
pH
pH, standard deviation
Partial pressure of carbon dioxide water at sea surface temperature wet air
Carbon dioxide, partial pressure, standard deviation
Carbon, inorganic, dissolved
Carbon, inorganic, dissolved, standard deviation
Bicarbonate ion
Bicarbonate ion, standard deviation
Calcite saturation state
Calcite saturation state, standard deviation
Aragonite saturation state
Aragonite saturation state, standard deviation
Carbonate system computation flag
Carbon dioxide
Fugacity of carbon dioxide water at sea surface temperature wet air
Carbonate ion
Ion chromatography ICS-2000 Dionex Corp.
Alkalinity, Gran titration Gran, 1950
WTW 340i pH-analyzer and WTW SenTix 81-electrode
Calculated using CO2SYS
Calculated using seacarb after Nisumaa et al. 2010
European Project on Ocean Acidification EPOCA
Helgoland
Svalbard
North Atlantic
Ocean acidification
Online Access:https://dx.doi.org/10.1594/pangaea.761761
https://doi.pangaea.de/10.1594/PANGAEA.761761
Description
Summary:The combined effects of ocean warming and acidification were compared in larvae from two populations of the cold-eurythermal spider crab Hyas araneus, from one of its southernmost populations (around Helgoland, southern North Sea, 54°N, habitat temperature 3-18°C; collection: January 2008, hatch: January-February 2008) and from one of its northernmost populations (Svalbard, North Atlantic, 79°N, habitat temperature 0-6°C; collection: July 2008, hatch: February-April 2009). Larvae were exposed to temperatures of 3, 9 and 15°C combined with present-day normocapnic (380 ppm CO2) and projected future CO2 concentrations (710 and 3,000 ppm CO2). Calcium content of whole larvae was measured in freshly hatched Zoea I and after 3, 7 and 14 days during the Megalopa stage. Significant differences between Helgoland and Svalbard Megalopae were observed at all investigated temperatures and CO2 conditions. Under 380 ppm CO2, the calcium content increased with rising temperature and age of the larvae. At 3 and 9°C, Helgoland Megalopae accumulated more calcium than Svalbard Megalopae. Elevated CO2 levels, especially 3,000 ppm, caused a reduction in larval calcium contents at 3 and 9°C in both populations. This effect set in early, at 710 ppm CO2 only in Svalbard Megalopae at 9°C. Furthermore, at 3 and 9°C Megalopae from Helgoland replenished their calcium content to normocapnic levels and more rapidly than Svalbard Megalopae. However, Svalbard Megalopae displayed higher calcium contents under 3,000 ppm CO2 at 15°C. The findings of a lower capacity for calcium incorporation in crab larvae living at the cold end of their distribution range suggests that they might be more sensitive to ocean acidification than those in temperate regions.

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