Abstract
Stable isotopes are often used to provide an indication of the trophic level (TL) of species. TLs may be derived by using food-web-specific enrichment factors in combination with a representative baseline species. It is challenging to sample stable isotopes for all species, regions and seasons in Arctic ecosystems, e.g. because of practical constraints. Species-specific TLs derived from a single region may be used as a proxy for TLs for the Arctic as a whole. However, its suitability is hampered by incomplete knowledge on the variation in TLs. We quantified variation in TLs of Arctic species by collating data on stable isotopes across the Arctic, including corresponding fractionation factors and baseline species. These were used to generate TL distributions for species in both pelagic and benthic food webs for four Arctic areas, which were then used to determine intra-sample, intra-study, intra-region and inter-region variation in TLs. Considerable variation in TLs of species between areas was observed. This is likely due to differences in parameter choice in estimating TLs (e.g. choice of baseline species) and seasonal, temporal and spatial influences. TLs between regions were higher than the variance observed within regions, studies or samples. This implies that TLs derived within one region may not be suitable as a proxy for the Arctic as a whole. The TL distributions derived in this study may be useful in bioaccumulation and climate change studies, as these provide insight in the variability of trophic levels of Arctic species.
Highlights
Food web and food chain models are generally constructed to evaluate the trophic structure and dynamics of ecological communities, typically serving one of three objectives: (1)
Levels of significance when comparing the trophic level of species between regions: ***P < 0.005, **P < 0.01, *P < 0.05, n.s. no significant difference stable nitrogen isotopes (δ15N) per species ranged from 4.8‰ in pelagic particulate organic matter to 20.1‰ in polar bears (U. maritimus) in pelagic food webs and from 3.9‰ to 15.2‰ for the eelpout Lycodes polaris in benthic food webs
All fractionation factors applied in estimating trophic level (TL) of Arctic species in benthic food webs were between 3.4 and 3.8
Summary
We aim to investigate and quantify these sources of variation in the trophic level of Arctic species by aggregating our data across four levels in a ‘variance model’. By determining the variance in TLs on an intrasample, intra-study, intra-region and inter-region level, we aim to evaluate the utility of using TL estimates for a single region as a proxy for the Arctic as a whole
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