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• W2334356739 abstract "MEPS Marine Ecology Progress Series Contact the journal Facebook Twitter RSS Mailing List Subscribe to our mailing list via Mailchimp HomeLatest VolumeAbout the JournalEditorsTheme Sections MEPS 513:1-15 (2014) - DOI: https://doi.org/10.3354/meps10978 FEATURE ARTICLE Variability in predator abundance links winter temperatures and bivalve recruitment: correlative evidence from long-term data in a tidal flat J. J. Beukema*, R. Dekker** Royal Netherlands Institute for Sea Research, PO Box 59, 1790AB Den Burg, Texel, The Netherlands *Corresponding author: jan.beukema@nioz.nl**Raw data available upon request to rob.dekker@nioz.nl ABSTRACT: In the Wadden Sea, annual recruitment in the major bivalve species is mostly successful in summers following severe winters, whereas it usually fails after mild winters. On the basis of a 40 yr data series, we corroborated this relationship between winter temperatures and subsequent summer abundance of recruits in 3 bivalves: Macoma balthica, Cerastoderma edule, and Mytilus edulis. A 30 yr data series showed that annual abundance of their main epibenthic predators (0-group shrimp Crangon crangon and 0- and 1-group shore crabs Carcinus maenas) was higher in springs after mild winters compared to cold ones. Summer recruit numbers in 4 bivalve species (the above and Mya arenaria) were higher when predator biomass had been lower in the preceding spring. We argue that the latter relationship was probably of a causal nature and might explain not only the relationship between winter temperatures and bivalve recruitment success, but also the observed synchronies of annual recruitment success between bivalve species and between distant parts of the Wadden Sea. Shrimp abundance in May showed a significantly increasing long-term trend that might partly explain the declining trends in recruitment success, biomass, and annual production observed in the western Wadden Sea in M. balthica and M. edulis. We conclude that top-down effects by predation on early bottom stages of bivalves strongly affect biomass and production of some of the most important members of the benthic community of the Wadden Sea, keeping this system well below its carrying capacity for bivalves in nearly all years. KEY WORDS: Crangon crangon · Carcinus maenas · Temperature rise · Tidal flats · Wadden Sea · Macoma balthica · Cerastoderma edule · Mytilus edulis · Mya arenaria Full text in pdf format Information about this Feature Article NextCite this article as: Beukema JJ, Dekker R (2014) Variability in predator abundance links winter temperatures and bivalve recruitment: correlative evidence from long-term data in a tidal flat. Mar Ecol Prog Ser 513:1-15. https://doi.org/10.3354/meps10978 Export citation RSS - Facebook - Tweet - linkedIn Cited by Published in MEPS Vol. 513. Online publication date: October 22, 2014 Print ISSN: 0171-8630; Online ISSN: 1616-1599 Copyright © 2014 Inter-Research." @default.
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• W2334356739 title "Variability in predator abundance links winter temperatures and bivalve recruitment: correlative evidence from long-term data in a tidal flat" @default.
• W2334356739 cites W1966644761 @default.
• W2334356739 cites W1968220260 @default.
• W2334356739 cites W1968240112 @default.
• W2334356739 cites W1975994134 @default.
• W2334356739 cites W1979494476 @default.
• W2334356739 cites W1981320412 @default.
• W2334356739 cites W1983948876 @default.
• W2334356739 cites W1985054671 @default.
• W2334356739 cites W2000507501 @default.
• W2334356739 cites W2001802285 @default.
• W2334356739 cites W2006362377 @default.
• W2334356739 cites W2007513128 @default.
• W2334356739 cites W2009672876 @default.
• W2334356739 cites W2010313080 @default.
• W2334356739 cites W2010476204 @default.
• W2334356739 cites W2015826747 @default.
• W2334356739 cites W2018365810 @default.
• W2334356739 cites W2018439563 @default.
• W2334356739 cites W2021871883 @default.
• W2334356739 cites W2022857252 @default.
• W2334356739 cites W2023613784 @default.
• W2334356739 cites W2026504592 @default.
• W2334356739 cites W2030475203 @default.
• W2334356739 cites W2034913041 @default.
• W2334356739 cites W2036865115 @default.
• W2334356739 cites W2042798069 @default.
• W2334356739 cites W2042848901 @default.
• W2334356739 cites W2043184448 @default.
• W2334356739 cites W2044809327 @default.
• W2334356739 cites W2045284586 @default.
• W2334356739 cites W2052217767 @default.
• W2334356739 cites W2054203796 @default.
• W2334356739 cites W2055255137 @default.
• W2334356739 cites W2056672521 @default.
• W2334356739 cites W2060930960 @default.
• W2334356739 cites W2064997090 @default.
• W2334356739 cites W2072859606 @default.
• W2334356739 cites W2073606627 @default.
• W2334356739 cites W2081788589 @default.
• W2334356739 cites W2085705901 @default.
• W2334356739 cites W2087981714 @default.
• W2334356739 cites W2088079496 @default.
• W2334356739 cites W2090955612 @default.
• W2334356739 cites W2095116448 @default.
• W2334356739 cites W2096135877 @default.
• W2334356739 cites W2112846754 @default.
• W2334356739 cites W2113279990 @default.
• W2334356739 cites W2115325289 @default.
• W2334356739 cites W2116968203 @default.
• W2334356739 cites W2120411734 @default.
• W2334356739 cites W2123012683 @default.
• W2334356739 cites W2128473827 @default.
• W2334356739 cites W2147945170 @default.
• W2334356739 cites W2147979447 @default.
• W2334356739 cites W2151074972 @default.
• W2334356739 cites W2154774649 @default.
• W2334356739 cites W2156886554 @default.
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• W2334356739 cites W2171755737 @default.
• W2334356739 cites W2318381465 @default.
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• W2334356739 cites W2332221138 @default.
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• W2334356739 cites W2478165742 @default.
• W2334356739 cites W4231151577 @default.
• W2334356739 cites W4246794729 @default.
• W2334356739 cites W6911881 @default.
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