Floreana, the 6th largest island in the Galapagos Archipelago, is situated ESE of the current proposed location of the hotspot, believed to be near Fernandina Island. Floreana is the most distant Galapagos volcano from the Galapagos Spreading Center and is located on 12 Ma lithosphere. Both normally- and reversely-polarized flows are present on Floreana, which emerged more than 1 Ma. The emergent shield is constructed of lava flows and > 80 cinder cones. In the final stage of island building, approximately 0.3 Ma, the eruptive activity on Floreana became more explosive and produced the largest cinder cones on the island. Spatter ramparts, cinder cones, vents, and pit craters are arranged in at least 3 major parallel to sub-parallel alignments oriented N40E. The basalts of Floreana are notably alkalic, primitive, and highly enriched in incompatible trace elements (ITE). MgO concentrations in the lavas range from < 8 wt% to > 13 wt%, and many of the magmas are likely related by fractional crystallization of olivine and clinopyroxene. The volcano has erupted ultramafic xenoliths, which are observed predominantly in the older, reversely-polarized flows and cones. Floreana lavas have the greatest light REE enrichment observed in the archipelago and the most radiogenic Sr- and Pb- isotopic ratios, indicative of an ITE-enriched source. Elevated ratios of alkali and alkaline earth contents to those of high-field strength elements indicate contributions from metasomatic fluids to Floreana melts. Although the effects of metasomatism are apparent in most Floreana basalts, normally-polarized lavas may have been affected to a greater extent by the metasomatism than the older flows. Temporal-compositional trends in trace element concentrations also suggest that the depth of melt generation may have decreased slightly over the course of the island's formation. Floreana is distinct from the rest of the Galapagos Archipelago in its explosive history, abundant mantle xenoliths, extensive evidence for contributions from metasomatic fluids, and ITE-enriched composition of its mantle source. We propose that the ubiquitous metasomatic processes may be responsible for both the structural and geochemical anomalies observed on Floreana and may be the primary distinguishing characteristic of this end-member in Galapagos mantle plume compositions.