Raymond Effect is a flow effect in
ice sheets, occurring at
flow divides, which gives rise to disturbances in the stratigraphy, showing unusual arches or
anticlines called Raymond Arches.[1] The stratigraphy is detected by
radio-echo sounding. The Raymond effect arises from the unusual flow properties of
ice, as its viscosity decreases with
stress.[2] It is of importance because it provides field evidence for the flow properties of ice.[3] In addition, it permits dating of changes in ice flow and the establishment of changes in ice thickness.[4] The effect was first predicted by Charles F. Raymond.[5] Raymond Arches and the Raymond Effect have been observed at numerous other ice divides e.g.
Siple Dome,[6]Fletcher Ice Rise,
Berkner Island,[7][8]Roosevelt Island,[4][8]Korff Ice Rise.[9]
Ice
viscosity is
stress-dependent, and in zones where the (deviatoric) stresses are low, the viscosity becomes very high. Near the base of ice-sheets, stress is proportional to the surface slope, at least when averaged over a suitable horizontal distance. At the flow divide, the surface slope is zero, and calculations show that the viscosity increases.[5] This diverts ice flow laterally, and is the cause of the characteristic anticlines, which are in effect draped over the high viscosity area.