Seawater carbonate chemistry and hatching success and hatching frequency of Ammodytes dubius

Rising oceanic pCO2 levels could affect many traits in fish early life stages, but only few species to date have shown direct CO2-induced survival reductions. This might partly be because species from less CO2-variable, offshore environments in higher latitudes are currently underrepresented in the...

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Bibliographic Details
Main Authors: Baumann, H, Jones, Lucas F, Murray, Christopher S, Siedlecki, S, Alexander, Michael, Cross, Emma L
Format: Dataset
Language:English
Published: PANGAEA 2022
Subjects:
Alkalinity
total
standard deviation
Animalia
Aragonite saturation state
Area
Bicarbonate ion
Bottles or small containers/Aquaria (<20 L)
Calcite saturation state
Calculated using CO2SYS
Calculated using seacarb after Nisumaa et al. (2010)
Carbon
inorganic
dissolved
Carbonate ion
Carbonate system computation flag
Carbon dioxide
Chordata
Coast and continental shelf
Date
Embryos
EXP
Experiment
Fugacity of carbon dioxide (water) at sea surface temperature (wet air)
Fugacity of carbon dioxide in seawater
Hatching frequency
cumulative
Hatching success
Identification
Individuals
Laboratory experiment
Length
standard
Location
Nekton
North Atlantic
Number
OA-ICC
Ocean Acidification International Coordination Centre
Partial pressure of carbon dioxide
Northwest Atlantic
Ocean acidification
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.945654
https://doi.org/10.1594/PANGAEA.945654
Description
Summary:Rising oceanic pCO2 levels could affect many traits in fish early life stages, but only few species to date have shown direct CO2-induced survival reductions. This might partly be because species from less CO2-variable, offshore environments in higher latitudes are currently underrepresented in the literature. We conducted new experimental work on northern sand lance Ammodytes dubius, a keystone forage fish on offshore Northwest Atlantic sand banks, which was recently suggested to be highly CO2-sensitive. In two complementary trials, we produced embryos from wild, Gulf of Maine (GoM) spawners and reared them at several pCO2 levels (400–2000 µatm) in combination with static (6, 7, 10°C) and dynamic (10->5°C) temperature treatments. Again, we consistently observed large, CO2-induced reductions in hatching success (–23% at 1000 µatm, -61% at 2000 µatm), and the effects were temperature-independent. To distinguish pCO2 effects during development from potential impacts on hatching itself, some embryos were switched between high and control pCO2 treatments just prior to hatch. This indeed altered hatching patterns consistent with the CO2-impaired hatching hypothesis. High CO2 also delayed the day of first hatch in one trial and peak hatch in the other, where later-hatched larvae were of similar size but with progressively less endogenous energy reserves. For context, we extracted seasonal pCO2 projections for Stellwagen Bank (GoM) from regional ensemble simulations, which indicated a CO2-induced reduction in sand lance hatching success to 71% of contemporary levels by 2100. The species' unusual CO2 sensitivity has large ecological and scientific ramifications that warrant future in-depth research.

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