Carbon stable isotopes can be used to trace the sources of energy supporting
food chains and to estimate the contribution of different sources to a
consumer's diet. However, the δ13C signature of a consumer is not sufficient
to infer source without an appropriate isotopic baseline, because there is no
way to determine if differences in consumer δ13C reflect source changes or
baseline variation. Describing isotopic baselines is a considerable challenge
when applying stable isotope techniques at large spatial scales and/or to
interconnected food chains in open marine environments. One approach is to use
filter-feeding consumers to integrate the high frequency and small-scale
variation in the isotopic signature of phytoplankton and provide a surrogate
baseline, but it can be difficult to sample a single consumer species at large
spatial scales owing to rarity and/or discontinuous distribution. Here, we use
the isotopic signature of a widely distributed filter-feeder the queen scallop
( Aequipecten opercularis ) in the north-eastern Atlantic to develop a
model linking base δ13C to environmental variables. Data includes catch data,
isotope analysis data, environmental data and associated positional data.