Abstract
Nitrogen stable isotopes (δ15N) are used to study food web and foraging dynamics due to the step-wise enrichment of tissues with increasing trophic level, but they rely on the isoscape baseline that varies markedly in the Arctic due to the interplay between Atlantic- and Pacific-origin waters. Using a hierarchy of simulations with a state-of-the-art ocean-biogeochemical model, we demonstrate that the canonical isotopic gradient of 2–3‰ between the Pacific and Atlantic sectors of the Arctic Ocean has grown to 3–4‰ and will continue to expand under a high emissions climate change scenario by the end of the twenty-first century. δ15N increases in the Pacific-influenced high Arctic due to increased primary production, while Atlantic sector decreases result from the integrated effects of Atlantic inflow and anthropogenic inputs. While these trends will complicate longitudinal food web studies using δ15N, they may aid those focussed on movement as the Arctic isoscape becomes more regionally distinct.
Highlights
The Arctic Ocean is experiencing the most rapid environmental and ecological changes on the planet
For the purposes of this study, we focus our analysis on the isotopic signature of the particulate organic matter (POM) (d15NPOM) that is the integrated product of this low-level marine ecosystem model, and represents the base of marine food webs
Warming and a decline in sea ice are important for the isoscape if phytoplankton production of organic matter increases, which would elevate d15N values (Karsh et al 2012; Sigman and Fripiat 2019)
Summary
The Arctic Ocean is experiencing the most rapid environmental and ecological changes on the planet. Processes of relevance for the Arctic Ocean nitrogen isoscape include changes in the contribution of Pacific and Atlantic water, phytoplankton assimilation of nitrogen (i.e. primary production), sedimentary denitrification, and external inputs of nitrogen from rivers and atmospheric deposition.
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