Seawater carbonate chemistry and survival, swimming activity, feeding rate of Northern shrimp (Pandalus borealis)

Increasing use of fish feed containing the chitin synthesis inhibiting anti-parasitic drug diflubenzuron (DFB) in salmon aquaculture has raised concerns over its impact on coastal ecosystems. Larvae of Northern shrimp (Pandalus borealis) were exposed to DFB medicated feed under Control conditions (7...

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Bibliographic Details
Main Authors: Bechmann, Renée Katrin, Lyng, Emily, Westerlund, Stig, Bamber, Shaw D, Berry, Mark, Arnberg, Maj, Kringstad, Alfhild, Calosi, Piero, Seear, Paul J
Format: Dataset
Language:English
Published: PANGAEA 2018
Subjects:
Alkalinity
total
Animalia
Aragonite saturation state
Arthropoda
Behaviour
Bicarbonate ion
Bottles or small containers/Aquaria (<20 L)
Calcite saturation state
Calculated using seacarb after Nisumaa et al. (2010)
Carbon
inorganic
dissolved
Carbonate ion
Carbonate system computation flag
Carbon dioxide
Coast and continental shelf
EXP
Experiment
Feeding rate per individual
Fugacity of carbon dioxide (water) at sea surface temperature (wet air)
Gene expression
fold change
relative
standard error
Gene expression (incl. proteomics)
Gene name
Hillefjord
Individuals
Laboratory experiment
Mortality/Survival
North Atlantic
Number
OA-ICC
Ocean Acidification International Coordination Centre
Other
Pandalus borealis
Partial pressure of carbon dioxide (water) at sea surface temperature (wet air)
Pelagos
Percentage
standard deviation
pH
Registration number of species
Salinity
Single species
Species
northern shrimp
Ocean acidification
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.903546
https://doi.org/10.1594/PANGAEA.903546
Description
Summary:Increasing use of fish feed containing the chitin synthesis inhibiting anti-parasitic drug diflubenzuron (DFB) in salmon aquaculture has raised concerns over its impact on coastal ecosystems. Larvae of Northern shrimp (Pandalus borealis) were exposed to DFB medicated feed under Control conditions (7.0 °C, pH 8.0) and under Ocean Acidification and Warming conditions (OAW, 9.5 °C and pH 7.6). Two weeks' exposure to DFB medicated feed caused significantly increased mortality. The effect of OAW and DFB on mortality of shrimp larvae was additive; 10% mortality in Control, 35% in OAW, 66% in DFB and 92% in OAW + DFB. In OAW + DFB feeding and swimming activity were reduced for stage II larvae and none of the surviving larvae developed to stage IV. Two genes involved in feeding (GAPDH and PRLP) and one gene involved in moulting (DD9B) were significantly downregulated in larvae exposed to OAW + DFB relative to the Control. Due to a shorter intermoult period under OAW conditions, the OAW + DFB larvae were exposed throughout two instead of one critical pre-moult period. This may explain the more serious sub-lethal effects for OAW + DFB than DFB larvae. A single day exposure at 4 days after hatching did not affect DFB larvae, but high mortality was observed for OAW + DFB larvae, possibly because they were exposed closer to moulting. High mortality of shrimp larvae exposed to DFB medicated feed, indicates that the use of DFB in salmon aquaculture is a threat to crustacean zooplankton.

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