FN Archimer Export Format PT J TI Changes in calcification of coccoliths under stable atmospheric CO2 BT AF BERGER, C. MEIER, K. J. S. KINKEL, H. BAUMANN, K. -H. AS 1:1;2:1;3:2;4:3; FF 1:;2:;3:;4:; C1 Univ Kiel, Inst Geosci, D-24118 Kiel, Germany. Univ Southern Denmark, DK-5230 Odense, Denmark. Univ Bremen, Dept Geosci, D-28334 Bremen, Germany. C2 UNIV KIEL, GERMANY UNIV SOUTHERN DENMARK, DENMARK UNIV BREMEN, GERMANY IN DOAJ IF 3.978 TC 14 UR https://archimer.ifremer.fr/doc/00291/40231/38677.pdf https://archimer.ifremer.fr/doc/00291/40231/38678.pdf https://archimer.ifremer.fr/doc/00291/40231/93130.pdf LA English DT Article CR GEOFAR IMAGES 1-MD101 MD 168 / AMOCINT (IMAGES XVII) BO Le Noroit Marion Dufresne AB The response of coccolithophore calcification to ocean acidification has been studied in culture experiments as well as in present and past oceans. The response, however, is different between species and strains, and for the relatively small carbonate chemistry changes observed in natural environments, a uniform response of the entire coccolithophore community has not been documented so far. Moreover, previous palaeo-studies basically focus on changes in coccolith weight due to increasing CO2 and the resulting changes in the carbonate system, and only few studies focus on the influence of other environmental factors. In order to untangle changes in coccolithophore calcification due to environmental factors such as temperature and/or productivity from changes caused by increasing pCO(2) and decreasing carbonate ion concentration, we here present a study on coccolith calcification from the Holocene North Atlantic Ocean. The pre-industrial Holocene, with its predominantly stable atmospheric CO2, provides the conditions for such a comprehensive analysis. For an analysis on changes in major components of Holocene coccolithophores under natural conditions, the family Noelaerhabdaceae was selected, which constitutes the main part of the assemblage in the North Atlantic. Records of average coccolith weights from three Holocene sediment cores along a north-south transect in the North Atlantic were analysed. During the Holocene, mean weight (and therefore calcification) of Noelaerhabdaceae (Emiliania huxleyi and Gephyrocapsa) coccoliths decreased at the Azores (Geofar KF 16) from around 7 to 6 pg, but increased at the Rockall Plateau (ODP site 980) from around 6 to 8 pg, and at the Voring Plateau (MD08-3192) from 7 to 10 pg. The amplitude of average weight variability is within the range of glacial-interglacial changes that were interpreted to be an effect of decreasing carbonate ion concentration. By comparison with SEM assemblage counts, we show that weight changes are not only partly due to variations in the coccolithophore assemblage but also an effect of a change in calcification and/or morphotype variability within single species. Our results indicate that there is no single key factor responsible for the observed changes in coccolith weight. A major increase in coccolith weight occurs during a slight decrease in carbonate ion concentration in the late Holocene at the Rockall Plateau and Voring Plateau. Here, more favourable productivity conditions apparently lead to an increase in coccolith weight, either due to the capability of coccolithophore species, especially E. huxleyi, to adapt to decreasing carbonate ion concentration or due to a shift towards heavier calcifying morphotypes. PY 2014 PD FEB SO Biogeosciences SN 1726-4170 PU Copernicus Gesellschaft Mbh VL 11 IS 4 UT 000334100300003 BP 929 EP 944 DI 10.5194/bg-11-929-2014 ID 40231 ER EF