Zooplankton excretion metabolites stimulate Southern Ocean phytoplankton growth

Warming over Antarctica is leading to changes in the zooplankton communities inhabiting the Southern Ocean. It has been observed that zooplankton not only regulates phytoplankton through grazing, but also through the recycling of nutrients that are essential for phytoplankton growth. In this way, th...

Full description

Bibliographic Details
Published in:Polar Biology
Main Authors: Camba, Alexandra, Llabrés, M., Duarte, Carlos M., Agusti, Susana
Other Authors: Biological and Environmental Sciences and Engineering (BESE) Division, Marine Science Program, Red Sea Research Center (RSRC), Department of Global Change Research, Instituto Mediterráneo de Estudios Avanzados, IMEDEA (CSIC-UIB), Esporles, Spain, Department of Arctic and Marine Biology, Faculty of Bioscience, Fishery and Economy, University of Tromsø, Tromso, Norway
Format: Article in Journal/Newspaper
Language:unknown
Published: Springer Nature 2017
Subjects:
Phytoplankton
Nutrient recycling
Ammonia Southern Ocean
Antarc*
Antarctic
Antarctic Peninsula
Antarctica
Euphausia superba
Polar Biology
Southern Ocean
Copepods
Online Access:http://hdl.handle.net/10754/623302
https://doi.org/10.1007/s00300-017-2123-2
Description
Summary:Warming over Antarctica is leading to changes in the zooplankton communities inhabiting the Southern Ocean. It has been observed that zooplankton not only regulates phytoplankton through grazing, but also through the recycling of nutrients that are essential for phytoplankton growth. In this way, the effects of warming on zooplankton populations will change the amount or proportion at which recycled nutrients are restored. To estimate how the recycled nutrients released by zooplankton populations, dominated by krill (Euphausia superba), amphipods or copepods, affect the phytoplankton uptake and communities, we performed four incubation experiments: two close to the Antarctic Peninsula and two at the Southern Atlantic Ocean. Our results showed a stimulating effect of the addition of metabolites on ammonia removal rates and on the net growth of phytoplankton communities, with different responses amongst the different phytoplankton groups. According to our results, phytoplankton net growth and community composition may be altered if this relevant source of nutrients is lost due to projected changes in the abundance or distribution of these zooplankton populations. This is a contribution to the projects ATOS (Aportes Atmosféricos de Carbono Orgánico y Contaminantes al Océano Polar) and ICEPOS (REN2002-04165-C03-02⁄ANT) funded by the Spanish Ministry of Education and Science, and to the LOHAFEX project, funded by the Max Planck Society. We thank S. W. A. Naqvi, chief scientist of the LOHAFEX project, for his leadership, Victor Smetacek, Regino Martínez for experiment setup and sampling, and Maria Grazia Mazzocchi (Stazione Zoologica Anton Dohrn, Napoli, Italy) for help with zooplankton information. We also thank the crew of the RV Polarstern and BIO Hespérides for their help.

Similar Items