A substantial glacier of rock salt flows downslope north eastwards from the salt dome at Kuh-e-Namak (Dashti), and this work describes and attempts to rationalise the deformation structures within it. The crystalline halite in both the salt dome and the glacier consists of layers of different colours, grain size and relatively insoluble mineral content. The colour bands develop folds which, together with tectonic slides, thin and multiply the colour bands in successive zones down the length of the glacier. The folds occur as trains in which the individual components increase in maturity as they move downstream. The folds characteristically mature over short distances and become isoclinal between successive fold generation zones so that refolding is rarely obvious. All the folds seen can be attributed to changes in the boundary conditions of the glacier—either of a general or local nature. Some folds can be explained in terms of either a former increase in volume or the current wasting of the salt sheet—but most obviously relate to irregularities in the bedrock channel negotiated by the salt during its downslope flow. Expressed in these terms most folds form where the salt glacier decelerates, and become inconspicuous where it accelerates. The relative volume of the glacier slowed by each bedrock irregularity impeding its flow decreases systematically down its length. This is thought to be due to a general decrease in competence of the rock salt down the length of the glacier as a result of a decrease in the grain size of the halite and the relative increase in the proportion of insoluble minerals due to the loss of halite by solution. The downstream decrease in grain size is similar to the process of mylonitisation in other rocks, and tends to be concentrated in particular parts of each fold generation zone. A foliation is defined to differing degrees in various parts of the glacier by shape fabrics in one or more of the glacier's three components: porphyroclastic remnants of the coarse grained transparent halite characteristic of the salt dome, a fine grained halite groundmass, and the entrained insoluble minerals. The clear halite porphyroclasts appear least susceptible to strain but their presence controls whether or not the colour bands fold near irregularities in the bedrock channel. Similarities between the structures in the salt glacier and those developed in various other rocks are obvious.