Abstract

The nitrogen isotopic composition of amino acids (δ15NAA) is a promising tool for estimating the trophic position and nitrogen sources of organisms in grazing food webs. The utility of δ15NAA analysis of microbial processes in the biogeochemistry remains uncertain, because information about the δ15NAA values of chemotrophic microbes are still limited. In this study, we report the δ15NAA values in five cultured heterotrophic or chemolithoautotrophic microbes (one fungus, one bacterium, and three archaea) with controlled nitrogen sources in synthetic media. When the microbes were grown on ammonium, the apparent nitrogen isotopic fractionation of amino acids relative to glutamic acid in the microbes (e.g., −3.0±1.0‰ for phenylalanine) was similar to those in algae. When the microbes were grown on a free amino acid mixture, the δ15N offsets of amino acids in the microbial cells relative to the amino acids in the culture media (e.g., +8.2±0.8‰ for glutamic acid and +0.1±0.2‰ for phenylalanine) were close to the standard isotopic fractionation between animals and their diets. These results suggest that the δ15NAA pattern can be used to distinguish two end-member metabolic modes in microbes (i.e., de novo synthesis of amino acids from inorganic nitrogen vs. assimilation of amino acids from environments). We also discussed the effects of metabolic pathways on the δ15NAA values and their fractionation with respect to the diversity of amino acid metabolism in microbes. These findings will form an important baseline for interpreting the δ15NAA values of organisms and detritus in natural environments.

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