Effects of climate and overfishing on zooplankton dynamics and ecosystem structure: regime shifts, trophic cascade, and feedback loops in a simple ecosystem

doi:10.1093/icesjms/fsm197

ICES Journal of Marine Science: Journal du Conseil Advance Access originally published online on February 1, 2008
ICES Journal of Marine Science: Journal du Conseil 2008 65(3):302-310; doi:10.1093/icesjms/fsm197

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This article appears in the following ICES Journal of Marine Science issue: 4th International Zooplankton Production Symposium: Human and Climate Forcing of Zooplankton Populations [View the issue table of contents]

Effects of climate and overfishing on zooplankton dynamics and ecosystem structure: regime shifts, trophic cascade, and feedback loops in a simple ecosystem

Christian Möllmann¹, Bärbel Müller-Karulis², Georgs Kornilovs³ and Michael A. St John¹

¹ Institute for Hydrobiology and Fisheries Science, University of Hamburg, Grosse Elbstr. 133, Hamburg D-22767, Germany
² Latvian Institute of Aquatic Ecology, Daugavgrivas Street 8, LV-1048 Riga, Latvia
³ Latvian Fish Resources Agency, Daugavgrivas Street 8, LV-1007 Riga, Latvia

Correspondence to C. Möllmann: tel: +49 40 42838 6621; fax: +49 40 42838 6618; e-mail: christian.moellmann{at}uni-hamburg.de

Möllmann, C., Müller-Karulis, B., Kornilovs, G., andSt John, M. A. 2008. Effects of climate and overfishing on zooplanktondynamics and ecosystem structure: regime shifts, trophic cascade,and feeback loops in a simple ecosystem. – ICES Journalof Marine Science, 65: 302–310.

The Central Baltic Seais the largest brackish waterbody in the world ocean, containinga highly productive but low-diversity ecosystem. Climate-inducedchanges in hydrography recently caused an ecosystem regime shiftwith changes at all trophic levels. The most pronounced changesin the ecosystem occurred at the zooplankton and fish trophiclevels. In the zooplankton, dominance changed between the copepodsPseudocalanus acuspes and Acartia spp., a result of reducedsalinities and increased temperatures. The change in hydrographyalso affected the reproductive success of the major fish species,resulting in a change in dominance from the piscivorous cod(Gadus morhua) to the planktivorous sprat (Sprattus sprattus).First, we investigate statistically the occurrence of regimeshifts in time-series of key hydrographic variables and thebiomass time-series of key species. Second, we demonstrate athree-level trophic cascade involving zooplankton. Finally,we model the ecosystem effects of the abiotic and biotic changeson copepod biomass and recruitment of fish stocks. Our resultsdemonstrate the linkage between climate-induced zooplanktonand fish regime changes, and how overfishing amplified the climate-inducedchanges at both trophic levels. Hence, our study demonstrates(i) the multiple pathways along which climatic and anthropogenicpressures can propagate through the foodweb; (ii) how both effectsact synergistically to cause and stabilize regime changes; and(iii) the crucial role of zooplankton in mediating these ecosystemchanges.

Keywords: Acartia spp., Baltic Sea, climate, cod, overfishing, prey-to-predator loops, Pseudocalanus acuspes, regime shifts, sprat, trophic cascade

Received 8 July 2007; accepted 10 November 2007; advance access publication 1 February 2008.

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