Jenkins Stacy G, Partridge Steven T, Stephenson Thomas R, Farley Sean D, Robbins Charles T
School of Biological Sciences, Washington State University, 99164-4236, Pullman, WA, USA.
Alaska Department of Fish and Game, Moose Research Center, 43961 Kalifornsky Beach Road, Suite B, 99669, Soldotna, AK, USA.
Oecologia. 2001 Nov;129(3):336-341. doi: 10.1007/s004420100755. Epub 2001 Nov 1.
Stable isotope signatures of lactating females and their nursing offspring were measured on 11 species, including herbivores, carnivores, hibernators, and non-hibernators. We hypothesized that: (1) nursing offspring would have stable isotope signatures that were a trophic level higher than their mothers, and (2) this pattern would be species-independent. The plasma of adult females had a δN enrichment over their diets of 4.1±0.7‰, but offspring plasma had a mean δN enrichment over maternal plasma of 0.9±0.8‰ and no C enrichment (0.0±0.6‰). The trophic level enrichment did not occur between mother and offspring because milk was depleted in both δN (1.0±0.5‰) and δC (2.1±0.9‰) relative to maternal plasma. Milk to offspring plasma enrichment was relatively small (δN enrichment of 1.9±0.7‰ and δC enrichment of 1.9±0.8‰) compared to the trophic level enrichment between the adults and their diets. While some species did have significant differences between the isotope signatures of mother and offspring, the differences were not related to whether they were hibernators or non-hibernators, carnivores or herbivores. Investigators wanting to use stable isotopes to quantify weaning or other lactation processes or diets of predators when both adults and nursing offspring are consumed must first establish the parameters that apply to a particular species/environment/diet combination.
我们测量了11个物种的哺乳期雌性及其哺乳后代的稳定同位素特征,这些物种包括食草动物、食肉动物、冬眠动物和非冬眠动物。我们假设:(1)哺乳后代的稳定同位素特征的营养级比其母亲高,并且(2)这种模式与物种无关。成年雌性的血浆相对于其食物的δN富集为4.1±0.7‰,但后代血浆相对于母体血浆的平均δN富集为0.9±0.8‰,且没有C富集(0.0±0.6‰)。母亲和后代之间没有出现营养级富集,因为相对于母体血浆,乳汁中的δN(1.0±0.5‰)和δC(2.1±0.9‰)都有所减少。与成年动物及其食物之间的营养级富集相比,乳汁到后代血浆的富集相对较小(δN富集为1.9±0.7‰,δC富集为1.9±0.8‰)。虽然有些物种的母亲和后代的同位素特征确实存在显著差异,但这些差异与它们是冬眠动物还是非冬眠动物、食肉动物还是食草动物无关。当成年动物和哺乳后代都被食用时,想要使用稳定同位素来量化断奶或其他哺乳过程或捕食者的饮食的研究人员必须首先确定适用于特定物种/环境/饮食组合的参数。
