Sedimentary Exhalative Deposits (SEDEX) Main charactersitcs:SEDEX deposits are stratiform, massive sulphide lenses formed in local basins on the sea floor. This is usually as a result of hydrothermal activity in areas of continental rifting. They represent major sources of lead and zinc with minor amounts of gold, barium and copper. Alteration is common especially in the form of silicification. Sedex deposits have many similarities with VMS deposits. Idealised SEDEX Deposit Model e.g. Mount Isa, Broken Hill (Australia), Sullivan (Canada), Silvermines (Ireland) Adapted from Evans 1997: Ore Geology and Industrial Minerals The stratiform lenses formed in Sedex deposits can be up to 40km thick and have a lateral extent of 100km's. Stockwork or vein mineralisation may occur beneath this. Host rock lithology varies from shales, siltstones and carbonates (low energy environment) to debris flows, conglomerates and breccias (high energy environments). Sedex deposits have been categorised in terms of a sedimentary basin hierachy. First order basins have lateral extents of hundreds of km's and maybe represented by epicratonic embayments ot intracratonic basins. Second order basins which can be up to tens of km's in size occur within the first order basins and contain third order basins, less than 10km in diameter, where the stratiform sulphide lenses tend to develop. There are several ideas for the formation of these deposits but one contention is that they were formed by the convection of sea water as shown above. As the sea water traverses through the crust it would dissolve base metals from the host rock, which would eventually lead to their collection and precipitation near the surface. In the early stages of convection leaching of iron, manganese and silica would occur. With deeper circulation the temperature would increase leading to the leaching of lead and zinc. Finally, deep seated circulation would leach lead, zinc and copper but this is not always the case which is why some of these deposit types are without copper. .