Project: Assessing the biological capacity for marine ecosystem resilience: Acclimation and adaptation in a rapidly changing environment
2017-01-01 – 2025-06-30
- Abstract
Global change alters marine ecosystems and the services they provide. Whether these services are at risk depends on the resilience of organisms, populations and communities. We use a tight interplay of laboratory experiments and simulation modeling to unravel the potential of marine organisms and communities to acclimate, adapt and/or disperse, and to retain ecological functioning under realistic future ocean scenarios.
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- Journal Article
- A1
- open access
Temperature, pH, and diet interactively affect biosynthesis of polyunsaturated fatty acids in a benthic harpacticoid copepod
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- Journal Article
- A1
- open access
Resource diversity mitigates the effects of intraspecific competition in co-occurring cryptic nematode species
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- Journal Article
- A1
- open access
Temperature-driven dynamics : unraveling the impact of climate change on cryptic species interactions within the Litoditis marina complex
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- Journal Article
- A1
- open access
Environment‐dependent population dynamics emerging from dynamic energy budgets and individual‐scale movement behaviour
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Structurally stable but functionally disrupted marine microbial communities under a future climate change scenario : potential importance for nitrous oxide emissions
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Detailed whole‐body nutrient analysis identifies differences in feeding ecology between related fish species : the case of Orestias native Andean killifish in Lake Titicaca
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- Journal Article
- A1
- open access
Functional characterization reveals a diverse array of metazoan fatty acid biosynthesis genes