Biological traits, and egg and fecal pellet production of Calanus finmarchicus and Calanus glacialis in situ and during experiments

The effects of temperature and food was examined for Calanus finmarchicus and C. glacialis during 3 phases of the phytoplankton spring bloom in Disko Bay, western Greenland. The 2 species were collected during pre-bloom, bloom, and post-bloom and exposed to temperatures from 0 to 10°C, combined with...

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Bibliographic Details
Main Authors: Kjellerup, Sanne, Dünweber, Michael, Swalethorp, Rasmus, Nielsen, Torkel Gissel, Møller, Eva Friis, Markager, Stiig, Hansen, Benni Winding
Format: Dataset
Language:English
Published: PANGAEA 2012
Subjects:
Basin Scale Analysis
Synthesis and Integration
Bottle
Niskin 10-L
Disko_Bay_Q08
Disko Bay
Greenland
EURO-BASIN
International Polar Year (2007-2008)
IPY
NIS_10L
off Qeqertarsuaq
Qeqertarsuaq
Calanus finmarchicus
Calanus glacialis
International Polar Year
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.811933
https://doi.org/10.1594/PANGAEA.811933
Description
Summary:The effects of temperature and food was examined for Calanus finmarchicus and C. glacialis during 3 phases of the phytoplankton spring bloom in Disko Bay, western Greenland. The 2 species were collected during pre-bloom, bloom, and post-bloom and exposed to temperatures from 0 to 10°C, combined with deficient or excess food. Fecal pellet and egg production were measured as indices for grazing and secondary production, respectively. Furthermore, changes in body carbon, nitrogen, and lipid content were measured. C. glacialis sampled before the bloom and incubated with excess food exhibited high specific egg production at temperatures between 0 and 2.5°C. Higher temperatures did not increase egg production considerably, whereas egg production for C. finmarchicus more than tripled between 2.5 and 5°C. Starved C. glacialis produced eggs at all temperatures stimulated by increasing temperatures, whereas starved C. finmarchicus needed temperatures above 5°C to produce eggs fueled by their lipid stores. Few C. finmarchicus had mature gonads at the initiation of the pre-bloom and bloom experiment, and egg production of C. finmarchicus therefore only increased as the ratio of individuals with mature gonads increased. During the bloom, both C. glacialis and C. finmarchicus used the high food availability for egg production, while refueling or exhausting their lipid stores, respectively. Finally, during the post-bloom experiment, production was low by C. finmarchicus, whereas C. glacialis had terminated production. Our results suggest that a future warmer ocean will reduce the advantage of early spawning by C. glacialis and that C. finmarchicus will become increasingly prevalent.

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