Smaller fish species in a warm and oxygen-poor Humboldt Current system

Smaller fish species in a warm and oxygen-poor Humboldt Current system

Climate change is expected to result in smaller fish size, but the influence of fishing has made it difficult to substantiate the theorized link between size and ocean warming and deoxygenation. We reconstructed the fish community and oceanographic conditions of the most recent global warm period (l...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2022-01, Vol.375 (6576), p.101-104
Hauptverfasser: Salvatteci, Renato, Schneider, Ralph R, Galbraith, Eric, Field, David, Blanz, Thomas, Bauersachs, Thorsten, Crosta, Xavier, Martinez, Philippe, Echevin, Vincent, Scholz, Florian, Bertrand, Arnaud
Format: Artikel
Sprache:eng
Schlagworte:
Anchovies
Animals
Anthropogenic factors
Body Size
Climate Change
Climatology
Deoxygenation
Earth Sciences
Ecosystem
Fish
Fisheries
Fishes - anatomy & histology
Fishing
Food sources
Geologic Sediments
Marine sediments
Ocean temperature
Ocean, Atmosphere
Oceanography
Oxygen - analysis
Pacific Ocean
Paleontology
Peru
Sciences of the Universe
Seawater - chemistry
Sediments
Species
Temperature
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Beschreibung
Zusammenfassung:Climate change is expected to result in smaller fish size, but the influence of fishing has made it difficult to substantiate the theorized link between size and ocean warming and deoxygenation. We reconstructed the fish community and oceanographic conditions of the most recent global warm period (last interglacial; 130 to 116 thousand years before present) by using sediments from the northern Humboldt Current system off the coast of Peru, a hotspot of small pelagic fish productivity. In contrast to the present-day anchovy-dominated state, the last interglacial was characterized by considerably smaller (mesopelagic and goby-like) fishes and very low anchovy abundance. These small fish species are more difficult to harvest and are less palatable than anchovies, indicating that our rapidly warming world poses a threat to the global fish supply.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.abj0270