Loading...
Copepod summer grazing and fecal pellet production along theWestern Antarctic Peninsula
Gleiber, MR Steinberg, Deborah K. Schofield, OME
Gleiber, MR
Steinberg, Deborah K.
Schofield, OME
Abstract
Copepods are important grazers on phytoplankton and contributors to carbon export, but their role is poorly understood in theWestern Antarctic Peninsula (WAP), a region of high productivity and rapid climate warming. We conducted grazing and egestion experiments with large, dominant copepods each January from 2012 to 2014. We found higher gut evacuation rates (k), initial gut pigment and ingestion rates (I) for Calanus propinquus and Rhincalanus gigas compared with Calanoides acutus. Since k and I linearly increased with chlorophyll a for most species, ingestion rates were 4-70 times greater in more productive coastal regions than offshore, slope waters. Copepods have a low grazing impact on phytoplankton biomass (< 1%) and productivity (1%, up to 11%) compared with the dominant WAP macro-and microzooplankton. Egestion rates were high (0.8-37.3 mu gC ind.(-1) day(-1)); however, similar to 58% of fecal pellets are retained in the upper water column. Daily carbon rations of similar to 1% indicated feeding on other carbon sources (protozoans and metazoans) to meet metabolic demands. However, during a coastal phytoplankton bloom, daily C rations increased to up to 13%, indicating increased reliance on phytoplankton. Future changes in theWAP plankton community may affect food web carbon flow and export.
Description
Date
2016-01-01
Journal Title
Journal ISSN
Volume Title
Publisher
Collections
Download Dataset
Rights Holder
Usage License
Embargo
Research Projects
Organizational Units
Journal Issue
Keywords
Biological Sciences Peer-Reviewed Articles, Rhincalanus-Gigas Copepoda; Particulate Organic-Carbon; Northern Barents Sea; Polar Frontal Zone; Marginal Ice-Zone; Southern-Ocean; Vertical Flux; Calanoides-Acutus; Atlantic Sector; Austral Summer
Citation
Advisor
Department
Virginia Institute of Marine Science
DOI
https://doi.org/10.1093/plankt/fbv070