Impact of ocean acidification and warming on the larval development of the spider crab Hyas araneus from different latitudes (54° vs 79°N), 2010, supplement to: Walther, Kathleen; Anger, Klaus; Pörtner, Hans-Otto (2010): Impact of ocean acidification and warming on the larval development of the spider crab Hyas araneus from different latitudes (54° vs 79°N). Marine Ecology Progress Series, 417, 159-170

The combined impacts of future scenarios of ocean acidification and global warming on the larvae of a cold-eurythermal spider crab, Hyas araneus L., were investigated in one of its southernmost populations (living around Helgoland, southern North Sea, 54°N) and one of the northernmost populations (S...

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Bibliographic Details
Main Authors: Walther, Kathleen, Anger, Klaus, Pörtner, Hans-Otto
Format: Article in Journal/Newspaper
Language:English
Published: PANGAEA - Data Publisher for Earth & Environmental Science 2010
Subjects:
Animalia
Arthropoda
Biomass/Abundance/Elemental composition
Bottles or small containers/Aquaria <20 L
Coast and continental shelf
Development
Hyas araneus
Laboratory experiment
Mortality/Survival
North Atlantic
Pelagos
Polar
Single species
Temperate
Temperature
Zooplankton
Biological Impacts of Ocean Acidification BIOACID
European network of excellence for Ocean Ecosystems Analysis EUR-OCEANS
European Project on Ocean Acidification EPOCA
Ocean Acidification International Coordination Centre OA-ICC
Helgoland
Kathleen
Klaus
Svalbard
Ocean acidification
Online Access:https://dx.doi.org/10.1594/pangaea.752286
https://doi.pangaea.de/10.1594/PANGAEA.752286
Description
Summary:The combined impacts of future scenarios of ocean acidification and global warming on the larvae of a cold-eurythermal spider crab, Hyas araneus L., were investigated in one of its southernmost populations (living around Helgoland, southern North Sea, 54°N) and one of the northernmost populations (Svalbard, North Atlantic, 79°N). Larvae were exposed at temperatures of 3, 9 and 15°C to present day normocapnia (380 ppm CO2) and to CO2 conditions expected for the near or medium-term future (710 ppm by 2100 and 3000 ppm CO2 by 2300 and beyond). Larval development time and biochemical composition were studied in the larval stages Zoea I, II, and Megalopa. Permanent differences in instar duration between both populations were detected in all stages, likely as a result of evolutionary temperature adaptation. With the exception of Zoea II at 3°C and under all CO2 conditions, development in all instars from Svalbard was delayed compared to those from Helgoland, under all conditions. Most prominently, development was much longer and fewer specimens morphosed to the first crab instar in the Megalopa from Svalbard than from Helgoland. Enhanced CO2 levels (710 and particularly 3000 ppm), caused extended duration of larval development and reduced larval growth (measured as dry mass) and fitness (decreasing C/N ratio, a proxy of the lipid content). Such effects were strongest in the zoeal stages in Svalbard larvae, and during the Megalopa instar in Helgoland larvae.

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