Narrow, intermittent, fault-bounded outcrops forming the largely Ordovician Highland Border Complex comprise terrigenous-derived turbidities, a dismembered ophiolite, and ophiolite-derived sediments.
New major- and trace-element analyses of the mafic igneous rocks confirm that two main groups exist. One, represented in outcrops the length of the Highland Boundary fault-zone, has a mostly MORB-like chemistry with some trace-element compositions conventionally pointing to genesis above a subduction zone. The other group, found more locally, has an alkalic ‘within-plate’ character. Amphibolites interpreted as ophiolitic ‘sole’ rocks are chemically similar to the MORB-type mafic extrusive rocks. X-ray diffraction of the sedimentary rocks reveals kaolinite to be widespread and this is attributed to tropical weathering of the Highland Border Complex beneath a (?mid-Devonian) unconformity surface. New major- and trace-element analyses show that the turbidities of the Highland Border Complex were derived from a terrigenous terrane similar to that which supplied the Dalradian Supergroup. Inter-lava sediments reflect varied terrigenous (distal turbidites), hydrothermal (iron oxide sediments), mafic extrusive (volcaniclastic silt) and biogenic (jaspers) provenances. The ophiolite-derived Highland Border Complex sediments also have a terrigenous component. Unlike, for example, the early Ordovician rocks of the South Mayo trough (Ireland), coeval differentiated volcanic material is not a significant component of the Complex.
No one existing model adequately explains all the available data. We favour an origin of the Complex in the Ordovician as a small Gulf of California-type marginal basin which was later tectonically emplaced in stages involving a long history of alternating extension, strike-slip and compression.