CONTINUED ACTIVITY AND GEOMORPHIC EVOLUTION OF FLUID/GAS ESCAPE STRUCTURES IN MUDDY SURFICIAL BEDS OF THE RECENTLY-EXPOSED HITE DELTA, SOUTHEASTERN UTAH
The 1-2 m thick, highly expandable surficial muds are underlain by several m of coarser heterolithic Colorado River delta beds as well as other laterally extensive muddy beds. Subaerial exposure has resulted in a system of deep (0.4-0.7 m), wide (5-14 cm) crudely hexagonal and orthogonal desiccation cracks on level surfaces which transform abruptly into radial cracks in the pockmark depressions. The radial crack pattern has been in part inherited from the initial subaerial exposure of these features when they had positive relief. These structures formed by gas and fluid expulsion driven by pressure from (1) methanogenic decay of organic material in the delta beds, (2) pore water pressure from locally perched water bodies upslope on the delta surface, and (3) the underlying and laterally adjacent water-saturated Cedar Mesa Sandstone that locally forms the rock walls of the Colorado River gorge.