Hydrothermally altered Archean igneous suites erupted in the submarine environment record variable excursions of Ce/Ce* and Th/U from primary magmatic values of 1 and ~ 4 respectively. Rhyolites of the 2.96 Ga bimodal basalt–rhyolite sequence of the Murchison Domain, Yilgarn Craton, Western Australia, hosting the Golden Grove VMS deposit, are enriched in MnO up to ten fold over primary values. Th/U ratios span 2.6–4.7, Ce/Ce* = 2.5–16, and Eu/Eu* = 1.3–3. The 2.8 Ga Lady Alma ultramafic–mafic subvolcanic complex of the same domain features highly dispersed MREE and LREE due to intense hydrothermal alteration. Th/U ratios span 0.005–0.16 from preferential addition of U, with Ce/Ce* = 0.6–2.2, and Eu/Eu* = 1–1.4. The eastern Dharwar Craton, India, includes greenstone terranes dominantly 2.7–2.6 Ga. Adakites of the Gadwal terrane preserve near primary magmatic Th/U, Ce/Ce*, and Eu/Eu*. In contrast, igneous lithologies of the Hutti greenstone terrane are characterized by total ranges of Th/U = 2–5.8, Ce/Ce* = 1.01–1.28, and Eu/Eu* = 0.82–1.26, and counterparts of the Sandur terrane have Th/U = 0.4–6.0, Ce/Ce* = 0.9–1.25, and Eu/Eu* = 0.8–1.8. Coexistence of Ce and Eu anomalies may reflect a two-stage process: low-temperature hydrothermal alteration at high water–rock ratios by oxidizing fluids, with evolution of the hydrothermal systems to high temperature, low water–rock ratios, under reducing conditions. Uranium is dominantly added to these lithologies over Th in common with Recent altered ocean crust. Iron-rich shales in the Sandur terrane record U-enrichment where Th/U = 2–4. Three shales record true negative Ce anomalies and Eu/Eu* = 0.8–2.4: true negative Ce anomalies, present in some other Archean iron formations, are interpreted as a signature of precipitates from the ocean water column whereas Eu anomalies are hydrothermal in origin. Volcanic flows of the 2.7 Ga Blake River Group, Abitibi greenstone terrane, Canada, preserve Th/U = 1.5–8.5, the conjunction of low Th/U values with Ce/Ce* = 1.4 in two samples, and Eu/Eu* = 0.15–1.3. Mobility of U and Ce in these hydrothermally altered Archean lithologies is in common with their mobility in Phanerozoic counterparts by oxygenated fluids.