Abstract
Harrat Lunayyir is an alkali basaltic, continental volcanic field in NW Saudi Arabia. Lava flows and cinder cones are basanite to alkali olivine basalt to trachy-basalt in composition. The field contains about 50 volcanic cones fed by fissures through Precambrian crystalline rocks along a N–S axis, lying about 200km east of the Red Sea spreading center. One of cones erupted as recently as the 10th century AD. Analysis of a recent earthquake swarm (2007–2009) indicates a ~10-km, NW-trending cluster of events at both shallow and deep crustal locations, concentrated in regions of higher velocity material. Six volcano-stratigraphic units are identified, based on super-position and morphology (degree of erosion). New 40Ar–39Ar incremental heating age determinations indicate that the entire volcanic history occurred within the last 600ka, with eruption rate decreasing with time. Major and minor element compositional variations are due almost entirely to crustal level fractionation (of mainly olivine, plagioclase, and clinopyroxene), or small differences in mantle partial melting. Primitive liquid composition, estimated by adding olivine to parental magma compositions, is consistent with ~10% melting of an upper mantle peridotitic source in the depth range of spinel to garnet stability (80–60km). There is no evidence for crustal assimilation. Trace element variations (in Dy/Yb, Ce/Yb) are consistent with shallowing of the asthenospheric melting region with time. Regional variations in trace element compositions among other harrats indicate a strong influence of the lithosphere–asthenosphere boundary in controlling mantle melting.
•Harrat Lunayyir is a Quaternary alkali basalt volcanic field in NW Saudi Arabia.•The short volcanic history (0–600ka) indicates waning eruption rates.•Recent seismic activity indicates new eruptions in the near future.•Magmas result from melting of the upper mantle under a thinned Arabian craton.•The lithosphere–asthenosphere boundary varies in depth across the region.