Synchronous dynamics of zooplankton competitors prevail in temperate lake ecosystems

Although competing species are expected to exhibit compensatory dynamics (negative temporal covariation), empirical work has demonstrated that competitive communities often exhibit synchronous dynamics (positive temporal covariation). This has led to the suggestion that environmental forcing dominat...

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Veröffentlicht in:	Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2014-08, Vol.281 (1788), p.20140633-20140633
Hauptverfasser:	Vasseur, David A., Fox, Jeremy W., Gonzalez, Andrew, Adrian, Rita, Beisner, Beatrix E., Helmus, Matthew R., Johnson, Catherine, Kratina, Pavel, Kremer, Colin, de Mazancourt, Claire, Miller, Elizabeth, Nelson, William A., Paterson, Michael, Rusak, James A., Shurin, Jonathan B., Steiner, Christopher F.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal biology Animals Biota Compensatory Dynamics Crustacea - physiology Europe Lakes Life Sciences Models, Biological North America Population Dynamics Seasons Synchrony Time Factors Wavelet Wavelet Analysis Zooplankton Zooplankton - physiology
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creator	Vasseur, David A. Fox, Jeremy W. Gonzalez, Andrew Adrian, Rita Beisner, Beatrix E. Helmus, Matthew R. Johnson, Catherine Kratina, Pavel Kremer, Colin de Mazancourt, Claire Miller, Elizabeth Nelson, William A. Paterson, Michael Rusak, James A. Shurin, Jonathan B. Steiner, Christopher F.
description	Although competing species are expected to exhibit compensatory dynamics (negative temporal covariation), empirical work has demonstrated that competitive communities often exhibit synchronous dynamics (positive temporal covariation). This has led to the suggestion that environmental forcing dominates species dynamics; however, synchronous and compensatory dynamics may appear at different length scales and/or at different times, making it challenging to identify their relative importance. We compiled 58 long-term datasets of zooplankton abundance in north-temperate and sub-tropical lakes and used wavelet analysis to quantify general patterns in the times and scales at which synchronous/compensatory dynamics dominated zooplankton communities in different regions and across the entire dataset. Synchronous dynamics were far more prevalent at all scales and times and were ubiquitous at the annual scale. Although we found compensatory dynamics in approximately 14% of all combinations of time period/scale/lake, there were no consistent scales or time periods during which compensatory dynamics were apparent across different regions. Our results suggest that the processes driving compensatory dynamics may be local in their extent, while those generating synchronous dynamics operate at much larger scales. This highlights an important gap in our understanding of the interaction between environmental and biotic forces that structure communities.
doi_str_mv	10.1098/rspb.2014.0633
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B, Biological sciences</title><addtitle>Proc. R. Soc. B</addtitle><addtitle>Proc. R. Soc. B</addtitle><description>Although competing species are expected to exhibit compensatory dynamics (negative temporal covariation), empirical work has demonstrated that competitive communities often exhibit synchronous dynamics (positive temporal covariation). This has led to the suggestion that environmental forcing dominates species dynamics; however, synchronous and compensatory dynamics may appear at different length scales and/or at different times, making it challenging to identify their relative importance. We compiled 58 long-term datasets of zooplankton abundance in north-temperate and sub-tropical lakes and used wavelet analysis to quantify general patterns in the times and scales at which synchronous/compensatory dynamics dominated zooplankton communities in different regions and across the entire dataset. 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subjects	Animal biology Animals Biota Compensatory Dynamics Crustacea - physiology Europe Lakes Life Sciences Models, Biological North America Population Dynamics Seasons Synchrony Time Factors Wavelet Wavelet Analysis Zooplankton Zooplankton - physiology
title	Synchronous dynamics of zooplankton competitors prevail in temperate lake ecosystems
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