(2002) found a
similar range in Δ15N values. In contrast, Kurle (2002) found that Δ15N values for various Sorafenib manufacturer blood components in captive northern fur seals (Callorhinus ursinus) ranged from 4.1‰ to 5.2‰. Focusing on blood serum, Zhao et al. (2006) also found relatively large Δ15Nserum-diet values for captive harbor seals (Phoca vitulina), ranging from 3.9‰ to 4.6‰. Recently, Newsome et al. (in review) found a mean Δ15Nvibrissae-diet value of 3.5‰ for a wild population of California sea otters (Enhydra lutris nereis). Whereas the nitrogen in an animal’s diet is mainly sourced from the proteins it consumes, the carbon for an animal’s tissues is supplied by dietary proteins, lipids, and carbohydrates, which may differ in their carbon isotope composition. In addition, carbon occurs
in tissues composed of materials other than protein, such as bioapatite and lipids, which have a greater isotopic range than that observed for nitrogen from protein-rich tissues. In terrestrial mammals, the δ13C value of bioapatite reflects that of bulk diet, whereas that of proteins and lipids is often biased toward the protein or lipid portion selleck products of the diet, respectively, as a result of dietary routing of these components. For most lipids, there is usually a balance between routing of dietary lipids to tissue and de novo synthesis of new lipids; bone cholesterol is the one lipid that strongly reflects bulk diet (Jim et al. 2003). For proteins, there is a similar balance between routing of amino acids—particularly indispensible amino acids that cannot be produced through de novo synthesis—and production of the R-groups of dispensable amino acids from bulk diet or carbohydrate and lipid carbon (Howland et al. 2003, Jim et al. 2006). For pinnipeds, cetaceans and otters, which consume protein-rich diets with variable amounts of fat, the δ13C value of body protein should closely track that of bulk diet, but perhaps with different tissue-to-diet fractionations depending on dietary lipid content. Herbivorous sirenians would receive bulk dietary carbon from carbohydrates along with a smaller
quantity of proteins from plants or protein-rich epizooans, which should, in turn, reflect plant-derived carbon. Measured tissue-to-diet isotope discriminations for bioapatite, lipids and proteins are significantly different. For bioapatite, tissue-to-diet isotope fractions in terrestrial mammals differ between carnivores selleck inhibitor (+9‰) and herbivores (+12‰–+14‰) (reviewed in Koch 2007). The Δ13Capatite-diet value has been measured in manatees (Trichechus manatus latirostrius) on controlled diets and is +14‰ (MacFadden et al. 2004). While Δ13Capatite-diet values have not been determined experimentally for other marine mammals, field studies suggest they are similar to values for land carnivores (Clementz and Koch 2001, Clementz et al. 2007). In contrast, bulk consumer lipid is 13C-depleted by 2‰–5‰ relative to bulk diet (DeNiro and Epstein 1978, Tieszen et al. 1983, Howland et al.