Fault interaction in the Hold With Hope region of NE Greenland occurs betwe
en basin-margin faults that have a separation of about 100 km, with the rel
ay ramp covering an area of about 25 000 km(2). This structure is therefore
much larger than previously described relay ramps, showing that interactio
n between normal faults can occur over large areas and can control deformat
ion across a region. The Western Fault Zone links north and eastwards with
the Hochstetters Forland Fault via the Gauss Halvo Fault. These faults that
control the relay ramp have kilometre-scale throws, juxtaposing Pre-Caledo
nian basement against Upper Palaeozoic and Mesozoic cover. The relay ramp i
nitiated during the Devonian, but was at least partially breached at the en
d of the Devonian or beginning of the Carboniferous. Beds in the relay ramp
are tilted towards the footwall, this tilt being similar to the results of
recent numerical models of interacting normal faults. The relay ramp is af
fected by faults that are synthetic to, and that link, the basin-margin fau
lts. These breaching faults suggest that stresses can interact over distanc
es of at least 100 km. This model explains variations in the depth of the M
oho across Kong Oscar Fjord. The basin-margin faults may be linked at depth
, passing down into a relatively shallow detachment, or into a lower-crusta
l shear zone. Alternatively, the faults may not be directly connected at de
pth, but pass down into a zone of distributed ductile deformation. (C) 2000
Elsevier Science Ltd. All rights reserved.