Seawater carbonate chemistry and larval development and settlement of the sea urchin Arbacia lixula in a laboratory experiment

We studied the effects of temperature and pH on larval development, settlement and juvenile survival of a Mediterranean population of the sea urchin Arbacia lixula. Three temperatures (16, 17.5 and 19 °C) were tested at present pH conditions (pHT 8.1). At 19 °C, two pH levels were compared to reflec...

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Bibliographic Details
Main Authors: Wangensteen, Owen S, Dupont, Sam, Casties, Isabel, Turon, Xavier, Palacín, Creu
Format: Dataset
Language:English
Published: PANGAEA 2013
Subjects:
Alkalinity
total
standard deviation
Animalia
Aragonite saturation state
Arbacia lixula
Bicarbonate ion
Body length
Bottles or small containers/Aquaria (<20 L)
Calcite saturation state
Calculated using CO2calc
Calculated using seacarb after Nisumaa et al. (2010)
Carbon
inorganic
dissolved
Carbonate ion
Carbonate system computation flag
Carbon dioxide
Coast and continental shelf
Distance
Echinodermata
EXP
Experiment
Fugacity of carbon dioxide (water) at sea surface temperature (wet air)
Growth/Morphology
Identification
Incubation duration
Individuals
Laboratory experiment
Larvae
Length
Mortality/Survival
North Atlantic
OA-ICC
Ocean Acidification International Coordination Centre
Partial pressure of carbon dioxide
Partial pressure of carbon dioxide (water) at sea surface temperature (wet air)
Pelagos
pH
Ocean acidification
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.833259
https://doi.org/10.1594/PANGAEA.833259
Description
Summary:We studied the effects of temperature and pH on larval development, settlement and juvenile survival of a Mediterranean population of the sea urchin Arbacia lixula. Three temperatures (16, 17.5 and 19 °C) were tested at present pH conditions (pHT 8.1). At 19 °C, two pH levels were compared to reflect present average (pHT 8.1) and near-future average conditions (pHT 7.7, expected by 2100). Larvae were reared for 52-days to achieve the full larval development and complete the metamorphosis to the settler stage. We analyzed larval survival, growth, morphology and settlement success. We also tested the carry-over effect of acidification on juvenile survival after 3 days. Our results showed that larval survival and size significantly increased with temperature. Acidification resulted in higher survival rates and developmental delay. Larval morphology was significantly altered by low temperatures, which led to narrower larvae with relatively shorter skeletal rods, but larval morphology was only marginally affected by acidification. No carry-over effects between larvae and juveniles were detected in early settler survival, though settlers from larvae reared at pH 7.7 were significantly smaller than their counterparts developed at pH 8.1. These results suggest an overall positive effect of environmental parameters related to global change on the reproduction of A. lixula, and reinforce the concerns about the increasing negative impact on shallow Mediterranean ecosystems of this post-glacial colonizer.

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