Here, we examined formalin's effect on amino acid carbon isotope ratios. The study investigates the effects of formalin fixation on proteinogenic amino acids and ascertains whether the original amino acid ¹³C records could be extracted from the fixed samples. Biological archives from various global locations offer valuable biogeochemical and ecological insights. However, formalin-fixation, a widely used preservation method, poses challenges for carbon isotope studies.
The HPLC x nano-EA/IRMS method was employed to analyze formalin-fixed and unfixed fish samples from Lake Biwa: Freshwater minnow Opsariichthys platypus and Largemouth bass Micropterus nigricans. A quantity comparison of 16 amino acids extracted from the fixed and unfixed samples revealed a substantial decrease in certain amino acids, with some exhibiting a 10–50% reduction. Tyrosine levels were notably diminished, reaching a 70–100% reduction in the fixed samples. In contrast, the carbon isotopic ratios of the 15 amino acids from fixed and unfixed samples were consistent. This finding indicates that formalin-fixation exerts a particular effect on the amino acid composition of the sample but does not alter the carbon isotopic ratio of the amino acids. Within a fish, the carbon isotope ratios exhibited significant variability (up to 25‰) across amino acids. The amino acid most depleted in ¹³C was phenylalanine (-29.6‰ and -28.7‰, Minnow and Bass, respectively), and those most enriched in ¹³C were glycolytic amino acids, e.g., glycine (-14.0‰ and -7.9‰) and serine (-8.1‰ and -3.9‰). These patterns are similar to those previously obtained in marine organisms.
Our results demonstrated that the HPLC x nano-EA/IRMS method could be applied to reconstructing the original isotope ratio information even from samples fixed in formalin. This approach can also be a powerful tool for understanding amino acid dynamics in the Anthropocene.