Population genomic structure of the gelatinous zooplankton species
            Mnemiopsis leidyi
            in its nonindigenous range in the North Sea

Oceanographically based mechanisms are shown to explain the spatial variation in the climatic relationship between the abundance of medusae (Aurelia aurita and Cyanea spp. of the class Scyphozoa), in the North Sea between 1971 and 1986 during June–August, and the winter (December–March) North Atlantic Oscillation Index (NAOI). A scyphomedusa population to the west of Denmark shows a strong inverse relationship between medusa abundance and fluctuations in the NAOI; the NAOI correlates strongly (P < 0.001) with both annual sea surface temperature (SST) at 6.5°E 56.5°N (1950–2008) and with winter precipitation on the Danish coast at Nordby (1900–2008) suggesting a direct link between the influence of climate and medusae abundance. In contrast, scyphomedusa abundance and distribution in the northern North Sea appears to be influenced by oceanic and mixed water inflow, which may overwhelm or mask any direct climatic influence on jellyfish abundance. Similarly, advection can also explain much of the interannual variability (1959–2000) in the abundance of other gelatinous zooplankton taxa (Cnidaria, Ctenophora and Siphonophora) in the northern North Sea as identified by the capture of gelatinous tissue and nematocysts (stinging cells) in Continuous Plankton Recorder samples. Jellyfish (Scyphozoa) in the southern North Sea may benefit from low temperature anomalies and the long-term effects of global warming might suppress Aurelia aurita and Cyanea spp. populations there. However, the biological response to temperature is complex and future research is required in this area.

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Modelling survival and connectivity of <i>Mnemiopsis leidyi</i> in the southern North Sea and Scheldt estuaries

Ocean Science Discussions ◽

10.5194/osd-11-1561-2014 ◽

2014 ◽

Vol 11 (3) ◽

pp. 1561-1611 ◽

Cited By ~ 1

Author(s):

J. van der Molen ◽

J. van Beek ◽

S. Augustine ◽

L. Vansteenbrugge ◽

L. van Walraven ◽

...

Keyword(s):

North Sea ◽

Particle Tracking ◽

Climatic Conditions ◽

Mnemiopsis Leidyi ◽

Biogeochemical Model ◽

Southern North Sea ◽

The North ◽

Particle Tracking Model ◽

The North Sea ◽

Tracking Model

Abstract. Three different models were applied to study the reproduction, survival and dispersal of Mnemiopsis leidyi in the Scheldt estuaries and the southern North Sea: a high-resolution particle tracking model with passive particles, a low resolution particle tracking model with a reproduction model coupled to a biogeochemical model, and a dynamic energy budget (DEB) model. The results of the models, each with its strengths and weaknesses, suggest the following conceptual situation: (i) the estuaries possess enough retention capability to keep an overwintering population, and enough exchange with coastal waters of the North Sea to seed offshore populations; (ii) M. leidyi can survive in the North Sea, and be transported over considerable distances, thus facilitating connectivity between coastal embayments; (iii) under current climatic conditions, M. leidyi may not be able to reproduce in large numbers in coastal and offshore waters of the North Sea, but this may change with global warming – however this result is subject to substantial uncertainty. Further quantitative observational work is needed on the effects of temperature, salinity and food availability on reproduction and on mortality at different life stages to improve models such as used here.

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The invasive ctenophore Mnemiopsis leidyi: a threat to fish recruitment in the North Sea?

Journal of Plankton Research ◽

10.1093/plankt/fbq100 ◽

2010 ◽

Vol 33 (1) ◽

pp. 137-144 ◽

Cited By ~ 25

Author(s):

H. H. Hamer ◽

A. M. Malzahn ◽

M. Boersma

Keyword(s):

North Sea ◽

Mnemiopsis Leidyi ◽

The North ◽

Fish Recruitment ◽

The North Sea

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Modelling risk areas in the North Sea for blooms of the invasive comb jelly Mnemiopsis leidyi A. Agassiz, 1865

Aquatic Invasions ◽

10.3391/ai.2014.9.1.02 ◽

2014 ◽

Vol 9 (1) ◽

pp. 21-36 ◽

Cited By ~ 12

Author(s):

Kate Collingridge ◽

Johan van der Molen ◽

Sophie Pitois

Keyword(s):

North Sea ◽

Mnemiopsis Leidyi ◽

The North ◽

Comb Jelly ◽

The North Sea ◽

Risk Areas

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The invasive ctenophore Mnemiopsis leidyi A. Agassiz, 1865 along the English Channel and the North Sea French coasts: another introduction pathway in northern European waters?

Aquatic Invasions ◽

10.3391/ai.2014.9.2.05 ◽

2014 ◽

Vol 9 (2) ◽

pp. 167-173 ◽

Cited By ~ 19

Author(s):

Elvire Antajan

Keyword(s):

North Sea ◽

Mnemiopsis Leidyi ◽

English Channel ◽

The North ◽

Introduction Pathway ◽

Northern European ◽

The North Sea

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Gelatinous zooplankton in the Belgian part of the North Sea and the adjacent Schelde estuary: Spatio-temporal distribution patterns and population dynamics

Journal of Sea Research ◽

10.1016/j.seares.2014.12.008 ◽

2015 ◽

Vol 97 ◽

pp. 28-39 ◽

Cited By ~ 10

Author(s):

Lies Vansteenbrugge ◽

Tina Van Regenmortel ◽

Marleen De Troch ◽

Magda Vincx ◽

Kris Hostens

Keyword(s):

Population Dynamics ◽

North Sea ◽

Temporal Distribution ◽

Distribution Patterns ◽

Gelatinous Zooplankton ◽

The North ◽

The North Sea ◽

Spatio Temporal ◽

Schelde Estuary

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Modelling survival and connectivity of <i>Mnemiopsis leidyi</i> in the south-western North Sea and Scheldt estuaries

Ocean Science ◽

10.5194/os-11-405-2015 ◽

2015 ◽

Vol 11 (3) ◽

pp. 405-424 ◽

Cited By ~ 9

Author(s):

J. van der Molen ◽

J. van Beek ◽

S. Augustine ◽

L. Vansteenbrugge ◽

L. van Walraven ◽

...

Keyword(s):

North Sea ◽

Particle Tracking ◽

Climatic Conditions ◽

Mnemiopsis Leidyi ◽

Biogeochemical Model ◽

The North ◽

Large Numbers ◽

Particle Tracking Model ◽

The North Sea ◽

Tracking Model

Abstract. Three different models were applied to study the reproduction, survival and dispersal of Mnemiopsis leidyi in the Scheldt estuaries and the southern North Sea: a high-resolution particle tracking model with passive particles, a low-resolution particle tracking model with a reproduction model coupled to a biogeochemical model, and a dynamic energy budget (DEB) model. The results of the models, each with its strengths and weaknesses, suggest the following conceptual situation: (i) the estuaries possess enough retention capability to keep an overwintering population, and enough exchange with coastal waters of the North Sea to seed offshore populations; (ii) M. leidyi can survive in the North Sea, and be transported over considerable distances, thus facilitating connectivity between coastal embayments; (iii) under current climatic conditions, M. leidyi may not be able to reproduce in large numbers in coastal and offshore waters of the North Sea, but this may change with global warming; however, this result is subject to substantial uncertainty. Further quantitative observational work is needed on the effects of temperature, salinity and food availability on reproduction and on mortality at different life stages to improve models such as used here.

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