Prediction of unprecedented biological shifts in the global ocean

Impermanence is an ecological principle 1 but there are times when changes occur nonlinearly as abrupt community shifts (ACSs) that transform the ecosystem state and the goods and services it provides 2 . Here, we present a model based on niche theory 3 to explain and predict ACSs at the global scal...

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Bibliographic Details
Published in:Nature climate change 2019-03, Vol.9 (3), p.237-243
Main Authors: Beaugrand, G., Conversi, A., Atkinson, A., Cloern, J., Chiba, S., Fonda-Umani, S., Kirby, R. R., Greene, C. H., Goberville, E., Otto, S. A., Reid, P. C., Stemmann, L., Edwards, M.
Format: Article
Language:English
Subjects:
631/158/2165
704/106/694/2739
704/158/2445
704/829/826
Bioclimatology
Climate
Climate Change
Climate Change/Climate Change Impacts
Communities
Earth and Environmental Science
Ecology, environment
El Nino
El Nino events
El Nino phenomena
Environment
Environmental Law/Policy/Ecojustice
Fish
Letter
Life Sciences
Mathematical models
Model testing
Niches
Northern Hemisphere
Oceans
Plankton
Predictions
Variation
Zooplankton
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Summary:Impermanence is an ecological principle 1 but there are times when changes occur nonlinearly as abrupt community shifts (ACSs) that transform the ecosystem state and the goods and services it provides 2 . Here, we present a model based on niche theory 3 to explain and predict ACSs at the global scale. We test our model using 14 multi-decadal time series of marine metazoans from zooplankton to fish, spanning all latitudes and the shelf to the open ocean. Predicted and observed fluctuations correspond, with both identifying ACSs at the end of the 1980s 4 – 7 and 1990s 5 , 8 . We show that these ACSs coincide with changes in climate that alter local thermal regimes, which in turn interact with the thermal niche of species to trigger long-term and sometimes abrupt shifts at the community level. A large-scale ACS is predicted after 2014—unprecedented in magnitude and extent—coinciding with a strong El Niño event and major shifts in Northern Hemisphere climate. Our results underline the sensitivity of the Arctic Ocean, where unprecedented melting may reorganize biological communities 5 , 9 , and suggest an increase in the size and consequences of ACS events in a warming world. Abrupt community shifts, for marine species from zooplankton to fish, are shown to occur with local climate changes in which warming pushes species beyond their thermal niche. This modelling approach suggests future events will be larger and have more broad-reaching impacts.
ISSN:1758-678X
1758-6798
DOI:10.1038/s41558-019-0420-1