CO2-induced acidification affects hatching success in Calanus finmarchicus
CO2-induced acidification affects hatching success in Calanus finmarchicus
Bottle incubations were conducted to examine how exposure to seawater containing 8000 ppm carbon dioxide (CO2; pH 6.95) influenced the growth and reproduction of the keystone copepod Calanus finmarchicus. The chosen concentration of CO2 is expected to occur over 100s of cubic kilometres of seawater as a result of marine CO2 storage/disposal, and is also representative of the predicted ‘worst-case’ atmospheric CO2 scenario in the year 2300. Growth (egg production and biomass loss) in adult female copepods was not affected by the simulated ocean acidification. In contrast, a maximum of only 4% of the eggs successfully yielded nauplii after 72 h in the experimental treatment. Our results demonstrate that environmental risk assessments for marine CO2 storage/disposal must look beyond adult mortality as an endpoint. Furthermore, if CO2 is to be disposed of in the deep sea, the location and timing of such activities must take into consideration the overwintering populations of C. finmarchicus.
Carbon dioxide, Ocean acidification, Calanus finmarchicus, Egg production, Hatching success, Carbon capture and storage
91-97
Mayor, D.J.
461ddc80-a25d-45b5-873f-9cbf4aa93828
Matthews, C.
8df9e58e-a905-40b7-904c-ae2d8d57dd2f
Cook, K.
cfe82bfa-f54e-419d-8063-e0ab57e31f4d
Zuur, A.F.
4d7d1e01-36c9-47fa-bfc1-f2b0a9fb5c51
Hay, S.
6f4203df-69a5-45e7-b740-4a3384dd13c3
2007
Mayor, D.J.
461ddc80-a25d-45b5-873f-9cbf4aa93828
Matthews, C.
8df9e58e-a905-40b7-904c-ae2d8d57dd2f
Cook, K.
cfe82bfa-f54e-419d-8063-e0ab57e31f4d
Zuur, A.F.
4d7d1e01-36c9-47fa-bfc1-f2b0a9fb5c51
Hay, S.
6f4203df-69a5-45e7-b740-4a3384dd13c3
Mayor, D.J., Matthews, C., Cook, K., Zuur, A.F. and Hay, S.
(2007)
CO2-induced acidification affects hatching success in Calanus finmarchicus.
Marine Ecology Progress Series, 350, .
(doi:10.3354/meps07142).
Abstract
Bottle incubations were conducted to examine how exposure to seawater containing 8000 ppm carbon dioxide (CO2; pH 6.95) influenced the growth and reproduction of the keystone copepod Calanus finmarchicus. The chosen concentration of CO2 is expected to occur over 100s of cubic kilometres of seawater as a result of marine CO2 storage/disposal, and is also representative of the predicted ‘worst-case’ atmospheric CO2 scenario in the year 2300. Growth (egg production and biomass loss) in adult female copepods was not affected by the simulated ocean acidification. In contrast, a maximum of only 4% of the eggs successfully yielded nauplii after 72 h in the experimental treatment. Our results demonstrate that environmental risk assessments for marine CO2 storage/disposal must look beyond adult mortality as an endpoint. Furthermore, if CO2 is to be disposed of in the deep sea, the location and timing of such activities must take into consideration the overwintering populations of C. finmarchicus.
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Published date: 2007
Keywords:
Carbon dioxide, Ocean acidification, Calanus finmarchicus, Egg production, Hatching success, Carbon capture and storage
Organisations:
Marine Biogeochemistry
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Local EPrints ID: 380742
URI: http://eprints.soton.ac.uk/id/eprint/380742
PURE UUID: e04b2b20-a1d9-4927-90d7-0035e47daac3
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Date deposited: 19 Aug 2015 13:28
Last modified: 14 Mar 2024 21:03
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Author:
D.J. Mayor
Author:
C. Matthews
Author:
K. Cook
Author:
A.F. Zuur
Author:
S. Hay
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