![[Visit Client Website]](/img/gsa/banner.jpg)
INTERPRETATION OF ALLUVIAL ARCHITECTURE IN THE OGALLALA GROUP OF NEBRASKA FROM TEST-HOLE LOGS
In east-central Nebraska, the OG is dominated by sands and silts and large outcrops are very rare. Resistivity logs, cross-checked against lithologic logs of rotary cuttings, indicate four readily-discernible types of stratigraphic trends: (1) smaller-scale fining-upward (SFU), (2) larger-scale fining-upward (LFU), trending from sand into sandy silt or silt and, rarely, diatomite or marl; (3) coarsening-upward (CU); and (4) thick sand/sandstone bodies dominated by fine to medium sand (TSB). SFU are 1.82 to 12.19 m thick and show a distribution skewed toward the low end of their range (N = 168, μ = 5.41, σ = 2.22, median = 5.18, mode = 4.27). The three examples of LFU identified so far are 18.90 to 24.38 m thick. CU are 0.91 to 17.37 m thick and also show a distribution skewed to the low end of their range (N = 54, μ= 4.06, σ = 2.81, median = 3.51, mode = 3.66). TSB range from 6.10 to 38.10 m thick (N = 36, μ = 16.101, σ = 8.26, median = 13.72, mode = 14.02). LSB signatures on resistivity logs range from nearly straight-sided (rare) to ragged (common), to peaked (consisting of a lower, coarsening-upward trend and an upper, fining-upward trend). Ragged resistivity signatures indicate variations in sediment grain size within sand bodies, which can be verified in the corresponding lithologic logs of rotary cuttings. We interpret SFU as individual fluvial fining-upward trends associated with rarer coarsening-upward trends of similar scales. TSB are almost certainly multistorey fluvial sands. Both TSB and LFU may, in many cases, be discrete valley fills. Similar stratigraphic trends have been identified in the OG in test-hole data from the western Sand Hills. In both study areas, OG resistivity-log patterns contrast markedly with the resistivity signatures of the overlying, gravelly fluvial sediments of the Broadwater Formation (Pliocene).