Publikation: Diatom-mediated food web functioning under ocean artificial upwelling
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2024
Autor:innen
Goldenberg, Silvan Urs
Spisla, Carsten
Sánchez, Nicolás
Taucher, Jan
Spilling, Kristian
Sswat, Michael
Fernández-Méndez, Mar
Krock, Bernd
Hauss, Helena
et al.
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Institutionen der Bundesrepublik Deutschland: 03F0897A
European Union (EU): 695094
European Union (EU): 695094
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Core Facility der Universität Konstanz
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Scientific Reports. Springer. 2024, 14(1), 3955. eISSN 2045-2322. Verfügbar unter: doi: 10.1038/s41598-024-54345-w
Zusammenfassung
Enhancing ocean productivity by artificial upwelling is evaluated as a nature-based solution for food security and climate change mitigation. Fish production is intended through diatom-based plankton food webs as these are assumed to be short and efficient. However, our findings from mesocosm experiments on artificial upwelling in the oligotrophic ocean disagree with this classical food web model. Here, diatoms did not reduce trophic length and instead impaired the transfer of primary production to crustacean grazers and small pelagic fish. The diatom-driven decrease in trophic efficiency was likely mediated by changes in nutritional value for the copepod grazers. Whilst diatoms benefitted the availability of essential fatty acids, they also caused unfavorable elemental compositions via high carbon-to-nitrogen ratios (i.e. low protein content) to which the grazers were unable to adapt. This nutritional imbalance for grazers was most pronounced in systems optimized for CO 2 uptake through carbon-to-nitrogen ratios well beyond Redfield. A simultaneous enhancement of fisheries production and carbon sequestration via artificial upwelling may thus be difficult to achieve given their opposing stoichiometric constraints. Our study suggest that food quality can be more critical than quantity to maximize food web productivity during shorter-term fertilization of the oligotrophic ocean.
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570 Biowissenschaften, Biologie
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GOLDENBERG, Silvan Urs, Carsten SPISLA, Nicolás SÁNCHEZ, Jan TAUCHER, Kristian SPILLING, Michael SSWAT, Anna FIESINGER, Mar FERNÁNDEZ-MÉNDEZ, Bernd KROCK, Helena HAUSS, 2024. Diatom-mediated food web functioning under ocean artificial upwelling. In: Scientific Reports. Springer. 2024, 14(1), 3955. eISSN 2045-2322. Verfügbar unter: doi: 10.1038/s41598-024-54345-wBibTex
@article{Goldenberg2024-02-17Diato-69822,
title={Diatom-mediated food web functioning under ocean artificial upwelling},
year={2024},
doi={10.1038/s41598-024-54345-w},
number={1},
volume={14},
journal={Scientific Reports},
author={Goldenberg, Silvan Urs and Spisla, Carsten and Sánchez, Nicolás and Taucher, Jan and Spilling, Kristian and Sswat, Michael and Fiesinger, Anna and Fernández-Méndez, Mar and Krock, Bernd and Hauss, Helena},
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<dcterms:abstract>Enhancing ocean productivity by artificial upwelling is evaluated as a nature-based solution for food security and climate change mitigation. Fish production is intended through diatom-based plankton food webs as these are assumed to be short and efficient. However, our findings from mesocosm experiments on artificial upwelling in the oligotrophic ocean disagree with this classical food web model. Here, diatoms did not reduce trophic length and instead impaired the transfer of primary production to crustacean grazers and small pelagic fish. The diatom-driven decrease in trophic efficiency was likely mediated by changes in nutritional value for the copepod grazers. Whilst diatoms benefitted the availability of essential fatty acids, they also caused unfavorable elemental compositions via high carbon-to-nitrogen ratios (i.e. low protein content) to which the grazers were unable to adapt. This nutritional imbalance for grazers was most pronounced in systems optimized for CO 2 uptake through carbon-to-nitrogen ratios well beyond Redfield. A simultaneous enhancement of fisheries production and carbon sequestration via artificial upwelling may thus be difficult to achieve given their opposing stoichiometric constraints. Our study suggest that food quality can be more critical than quantity to maximize food web productivity during shorter-term fertilization of the oligotrophic ocean.</dcterms:abstract>
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