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W2783145679 endingPage "e2003446" @default.
W2783145679 startingPage "e2003446" @default.
W2783145679 abstract "Global warming and ocean acidification are forecast to exert significant impacts on marine ecosystems worldwide. However, most of these projections are based on ecological proxies or experiments on single species or simplified food webs. How energy fluxes are likely to change in marine food webs in response to future climates remains unclear, hampering forecasts of ecosystem functioning. Using a sophisticated mesocosm experiment, we model energy flows through a species-rich multilevel food web, with live habitats, natural abiotic variability, and the potential for intra- and intergenerational adaptation. We show experimentally that the combined stress of acidification and warming reduced energy flows from the first trophic level (primary producers and detritus) to the second (herbivores), and from the second to the third trophic level (carnivores). Warming in isolation also reduced the energy flow from herbivores to carnivores, the efficiency of energy transfer from primary producers and detritus to herbivores and detritivores, and the living biomass of detritivores, herbivores, and carnivores. Whilst warming and acidification jointly boosted primary producer biomass through an expansion of cyanobacteria, this biomass was converted to detritus rather than to biomass at higher trophic levels-i.e., production was constrained to the base of the food web. In contrast, ocean acidification affected the food web positively by enhancing trophic flow from detritus and primary producers to herbivores, and by increasing the biomass of carnivores. Our results show how future climate change can potentially weaken marine food webs through reduced energy flow to higher trophic levels and a shift towards a more detritus-based system, leading to food web simplification and altered producer-consumer dynamics, both of which have important implications for the structuring of benthic communities." @default.
W2783145679 created "2018-01-26" @default.
W2783145679 creator A5006184182 @default.
W2783145679 creator A5011298922 @default.
W2783145679 creator A5012369360 @default.
W2783145679 creator A5037665177 @default.
W2783145679 date "2018-01-09" @default.
W2783145679 modified "2023-10-18" @default.
W2783145679 title "Climate change could drive marine food web collapse through altered trophic flows and cyanobacterial proliferation" @default.
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W2783145679 doi "https://doi.org/10.1371/journal.pbio.2003446" @default.
W2783145679 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5760012" @default.
W2783145679 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29315309" @default.
W2783145679 hasPublicationYear "2018" @default.
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