Magnesium (Mg) and zinc (Zn) play important roles in biological production in stream ecosystems. Aquatic organisms take up metals from the diet and the water; however, relative contributions are largely unknown, which is assumed to depend on feeding habits. We determined Mg and Zn stable isotope ratios (δ²⁶Mg, δ⁶⁶Zn) of aquatic macroinvertebrates and of small goby, and their potential Mg and Zn sources (periphyton, plant litter, stream water) from upper and lower reaches of two temperate streams in the Lake Biwa catchment. Our goal was to understand Mg and Zn sources to aquatic organisms, and to explore δ²⁶Mg and δ⁶⁶Zn variations across feeding habits. δ²⁶Mg and δ⁶⁶Zn did not correlate with each other indicating that Mg and Zn sources differ across functional feeding groups and/or different degrees of isotopic fractionation during Mg and Zn uptake. Grazers, shredders and predators showed offsets to higher δ²⁶Mg values compared to metal sources indicating isotope fractionation during Mg accumulation, while stream water was the main Mg source to filter-feeders. In contrast, δ⁶⁶Zn of grazers and filter-feeders indicated Zn was often a mixture between periphyton and stream water, while δ⁶⁶Zn of shredders and predators gave evidence for Zn isotopic fractionation. Our results demonstrate the usefulness of applying non-traditional isotopes to understand metal sources to aquatic organisms, which could be used to trace the ultimate origin of metals from the catchment.