Ocean sunfish as indicators for the ‘rise of slime’

David Grémillet, Craig R. White, Matthieu Authier, Ghislain Dorémus, Vincent Ridoux, Emeline Pettex

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4 Citations (Scopus)

Abstract

Overfishing and ocean warming are drastically altering the community composition and size structure of marine ecosystems, eliminating large bodied species [1]. Against a backdrop of such environmental change, the heaviest of all bony fish, the ocean sunfish (Mola mola), seems an improbable survivor. Indeed this indolent giant is killed globally as bycatch, and is listed as ‘Vulnerable’ [2]. We undertook the most extensive aerial surveys of sunfish ever conducted and found surprisingly high abundances off the Atlantic and Mediterranean coasts of Western Europe. With up to 475 individuals per 100 km2, these figures are one order of magnitude higher than abundance estimates for other areas [3–5. Using bioenergetic modelling, we estimate that each sunfish requires 71 kg day–1 of jellyfish, a biomass intake more than an order of magnitude greater than predicted for a similarly sized teleost. Scaled up to the population level, this equates to a remarkable 20,774 tonnes day–1 of predated jellyfish across our study area in summer. Sunfish abundance may be facilitated by overfishing and ocean warming, which together cause reduced predation of sunfish by sharks and elevated jellyfish biomass. Our combined survey and bioenergetic data provide the first-ever estimate of spatialized ocean sunfish daily food requirements, and stress the importance of this species as a global indicator for the ‘rise of slime’. This hypothesis posits that, in an overfished world ocean exposed to global warming, gelatinous zooplankton should flourish, to the detriment of other mesotrophic species such as small pelagic fish, causing irreversible trophic cascades as well as a series of other environmental and economic issues. The Ocean Sunfish is the heaviest of all bony fish, and is listed as vulnerable by the IUCN. Grémillet et al. conducted aerial surveys off the Atlantic and Mediterranean coasts of Western Europe, finding up to 475 sunfish per 100 km2. The sunfish population in this region is estimated to consume over 20,000 tonnes of jellyfish per day in summer.

Original languageEnglish
Pages (from-to)R1263-R1264
Number of pages2
JournalCurrent Biology
Volume27
Issue number23
DOIs
Publication statusPublished - 4 Dec 2017

Cite this

Grémillet, D., White, C. R., Authier, M., Dorémus, G., Ridoux, V., & Pettex, E. (2017). Ocean sunfish as indicators for the ‘rise of slime’. Current Biology, 27(23), R1263-R1264. https://doi.org/10.1016/j.cub.2017.09.027