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Recurrent jellyfish blooms are a consequence of global oscillations

Recurrent jellyfish blooms are a consequence of global oscillations
Recurrent jellyfish blooms are a consequence of global oscillations
A perceived recent increase in global jellyfish abundance has been portrayed as a symptom of degraded oceans. This perception is based primarily on a few case studies and anecdotal evidence, but a formal analysis of global temporal trends in jellyfish populations has been missing. Here, we analyze all available long-term datasets on changes in jellyfish abundance across multiple coastal stations, using linear and logistic mixed models and effect-size analysis to show that there is no robust evidence for a global increase in jellyfish. Although there has been a small linear increase in jellyfish since the 1970s, this trend was unsubstantiated by effect-size analysis that showed no difference in the proportion of increasing vs. decreasing jellyfish populations over all time periods examined. Rather, the strongest nonrandom trend indicated jellyfish populations undergo larger, worldwide oscillations with an approximate 20-y periodicity, including a rising phase during the 1990s that contributed to the perception of a global increase in jellyfish abundance. Sustained monitoring is required over the next decade to elucidate with statistical confidence whether the weak increasing linear trend in jellyfish after 1970 is an actual shift in the baseline or part of an oscillation. Irrespective of the nature of increase, given the potential damage posed by jellyfish blooms to fisheries, tourism, and other human industries, our findings foretell recurrent phases of rise and fall in jellyfish populations that society should be prepared to face.
decadal cycles, synchrony
0027-8424
1000-1005
Condon, R.H.
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Duarte, C.M.
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Pitt, K.A.
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Robinson, K.L.
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Lucas, C.H.
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Sutherland, K.R.
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Mianzan, H.W.
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Bogeberg, M.
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Purcell, J.E.
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Decker, M.B.
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Uye, S.-i.
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Madin, L.P.
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Brodeur, R.D.
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Haddock, S.H.D.
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Malej, A.
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Parry, G.D.
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Eriksen, E.
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Quinones, J.
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Acha, M.
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Harvey, M.
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Arthur, J.M.
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Graham, W.M.
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Condon, R.H.
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Duarte, C.M.
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Pitt, K.A.
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Robinson, K.L.
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Lucas, C.H.
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Sutherland, K.R.
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Mianzan, H.W.
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Bogeberg, M.
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Purcell, J.E.
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Decker, M.B.
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Uye, S.-i.
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Madin, L.P.
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Brodeur, R.D.
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Haddock, S.H.D.
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Malej, A.
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Parry, G.D.
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Eriksen, E.
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Quinones, J.
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Acha, M.
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Harvey, M.
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Arthur, J.M.
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Graham, W.M.
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Condon, R.H., Duarte, C.M., Pitt, K.A., Robinson, K.L., Lucas, C.H., Sutherland, K.R., Mianzan, H.W., Bogeberg, M., Purcell, J.E., Decker, M.B., Uye, S.-i., Madin, L.P., Brodeur, R.D., Haddock, S.H.D., Malej, A., Parry, G.D., Eriksen, E., Quinones, J., Acha, M., Harvey, M., Arthur, J.M. and Graham, W.M. (2013) Recurrent jellyfish blooms are a consequence of global oscillations. Proceedings of the National Academy of Sciences, 110 (3), 1000-1005. (doi:10.1073/pnas.1210920110).

Record type: Article

Abstract

A perceived recent increase in global jellyfish abundance has been portrayed as a symptom of degraded oceans. This perception is based primarily on a few case studies and anecdotal evidence, but a formal analysis of global temporal trends in jellyfish populations has been missing. Here, we analyze all available long-term datasets on changes in jellyfish abundance across multiple coastal stations, using linear and logistic mixed models and effect-size analysis to show that there is no robust evidence for a global increase in jellyfish. Although there has been a small linear increase in jellyfish since the 1970s, this trend was unsubstantiated by effect-size analysis that showed no difference in the proportion of increasing vs. decreasing jellyfish populations over all time periods examined. Rather, the strongest nonrandom trend indicated jellyfish populations undergo larger, worldwide oscillations with an approximate 20-y periodicity, including a rising phase during the 1990s that contributed to the perception of a global increase in jellyfish abundance. Sustained monitoring is required over the next decade to elucidate with statistical confidence whether the weak increasing linear trend in jellyfish after 1970 is an actual shift in the baseline or part of an oscillation. Irrespective of the nature of increase, given the potential damage posed by jellyfish blooms to fisheries, tourism, and other human industries, our findings foretell recurrent phases of rise and fall in jellyfish populations that society should be prepared to face.

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More information

e-pub ahead of print date: 2012
Published date: 15 January 2013
Keywords: decadal cycles, synchrony
Organisations: Ocean Biochemistry & Ecosystems

Identifiers

Local EPrints ID: 346710
URI: http://eprints.soton.ac.uk/id/eprint/346710
DOI: doi:10.1073/pnas.1210920110
ISSN: 0027-8424
PURE UUID: b1f7f053-a377-49c3-99a2-597e6e851dc6
ORCID for C.H. Lucas: ORCID iD orcid.org/0000-0002-5929-7481

Catalogue record

Date deposited: 07 Jan 2013 14:30
Last modified: 15 Mar 2024 02:47

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Contributors

Author: R.H. Condon
Author: C.M. Duarte
Author: K.A. Pitt
Author: K.L. Robinson
Author: C.H. Lucas ORCID iD
Author: K.R. Sutherland
Author: H.W. Mianzan
Author: M. Bogeberg
Author: J.E. Purcell
Author: M.B. Decker
Author: S.-i. Uye
Author: L.P. Madin
Author: R.D. Brodeur
Author: S.H.D. Haddock
Author: A. Malej
Author: G.D. Parry
Author: E. Eriksen
Author: J. Quinones
Author: M. Acha
Author: M. Harvey
Author: J.M. Arthur
Author: W.M. Graham

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