Identifying biotic drivers of population dynamics in a benthic–pelagic community

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http://hdl.handle.net/10138/331345

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Forsblom, L, Lindén, A, Engström-Öst, J, Lehtiniemi, M, Bonsdorff, E. Identifying biotic drivers of population dynamics in a benthic–pelagic community. Ecol Evol. 2021; 11: 4035– 4045. https://doi.org/10.1002/ece3.7298

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Title: Identifying biotic drivers of population dynamics in a benthic–pelagic community
Author: Forsblom, Louise; Lindén, Andreas; Engström‐Öst, Jonna; Lehtiniemi, Maiju; Bonsdorff, Erik
Publisher: Blackwell Publishing Ltd
Date: 2021
Language: en
Belongs to series: Ecology and Evolution 11:9
ISSN: 2045-7758
URI: http://hdl.handle.net/10138/331345
Abstract: Benthic species and communities are linked to pelagic zooplankton through life-stages encompassing both benthic and pelagic habitats and through a mutual dependency on primary producers as a food source. Many zooplankton taxa contribute to the sedimentary system as benthic eggs. Our main aim was to investigate the nature of the population level biotic interactions between and within these two seemingly independent communities, both dependent on the pelagic primary production, while simultaneously accounting for environmental drivers (salinity, temperature, and oxygen conditions). To this end, we applied multivariate autoregressive state-space models to long (1966–2007) time series of annual abundance data, comparing models with and without interspecific interactions, and models with and without environmental variables included. We were not able to detect any direct coupling between sediment-dwelling benthic taxa and pelagic copepods and cladocerans on the annual scale, but the most parsimonious model indicated that interactions within the benthic community are important. There were also positive residual correlations between the copepods and cladocerans potentially reflecting the availability of a shared resource or similar seasonal dependence, whereas both groups tended to correlate negatively with the zoobenthic taxa. The most notable single interaction within the benthic community was a tendency for a negative effect of Limecola balthica on the amphipods Monoporeia affinis and Pontoporeia femorata which can help explain the observed decrease in amphipods due to increased competitive interference.
Subject: Baltic Sea
benthic–pelagic coupling
density dependence
interactions
population dynamics
state‐space model
Subject (ysa): ekologia
merenpohja
eliöyhteisöt
lajit
tiheys
populaatiodynamiikka
vuorovaikutus
mallit
mallintaminen
Itämeri


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