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The three-isotope system of oxygen (16O, 17O, 18O) is a powerful tool to study environmental oxidation chemistry and cycling of oxygen-bearing species (e.g., sulfates, nitrates, carbonates, etc.). Despite its evident utility, little work has focused onextending the triple oxygen isotope (Δ’17O) tool to oxygen contained in organic matter (OM). This is largely due to methodological challenges with isolating OM-bound oxygen and preparing it for isotopic analysis. Herein, we report on a newly developed method for high-precision Δ’17O measurements of OM (Δ’17O precision of 0.020‰) and apply this technique to investigate partial photochemical oxidation of Suwannee River natural OM in air-equilibrated aquatic samples. Through this, we reveal that the oxygen isotope evolution of the Suwannee OM supports a model whereby OM partial photo-oxidation proceeds via one or more reactive oxygen intermediates. Our measurements further highlight the potential of triple oxygen isotope analyses on OM-bound oxygen to fingerprint OM oxidation pathways, redox chemistry, and source and synthesis reactions.