However, we can determine which individuals are consuming little

However, we can determine which individuals are consuming little Trametinib research buy to no marine derived protein using δ15N. The lack of a clearer differentiation may be due to the fact that we have information on frequency of fish consumption rather than mass consumed; mass of the marine based diet is important since changes in C and N isotope signatures are altered based on the proportion of the amount of C and N containing macromolecules that are ingested and assimilated into the consumer based on the total amount of those constituents (proportion marine derived C and N nutrients

relative to total intake). This is illustrated by one individual who had the lowest δ15N (7.43‰), as well as the most enriched δ13C (-12.19‰), and the lowest mean [THg] (0.12 μg/g), and reported consuming no fish or shellfish and dairy only once a month. This individual is likely

a vegetarian and additionally is consuming very little dairy, and her diet explains her low [THg] fairly well. This individual could be removed if one were attempting to study only fish consumers. The variation in [THg] can, in part, be explained by both reported diet and diet as determined by C and N stable isotopes. Individuals that were enriched in δ15N had higher [THg] as did individuals that reported consuming fish and shellfish more frequently. However, the link between [THg], fish consumption, and δ15N gets more complicated with higher reported levels of fish consumption. While [THg] and δ15N (trophic level) increase with fish consumption at the lower reported levels of fish consumption, GSK-3 cancer for the higher fish consumption levels, trophic level is maintained but [THg] is lower (Fig. 2). This apparent disconnect could

be due to types of fish consumed or meal size (mass consumed vs. frequency). Given that trophic level (δ15N) is maintained (although the values are more variable) at higher fish consumption levels, the decrease in [THg] may be due to types of fish consumed (e.g. [THg] varies with fish species, trophic level, and with Fossariinae age within species) than to a decreased or increased variability in actual mass of fish consumed. It seems unlikely that people reporting more frequent fish consumption would actually be consuming less fish, and δ15N values indicate that mean trophic level remains the same but we cannot account for the age of the fish consumed ([THg] are well known to increase with age of fish independent of trophic level). Lastly, the maintenance of trophic level with decreased [THg] could be due to a combination of more frequent fish consumption, but lower fish mass consumed from younger fish (Barrera-García et al., 2012), and with increased consumption of beef or chicken protein (e.g., increases the proportion of non-marine N).

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