206-5 Evolution of the Holocene Alluvial Belts of the Lower Mississippi River Using Empirically Derived Palaeohydrology Equations

See more from this Division: Topical Sessions
See more from this Session: Late Quaternary of the Northern Gulf of Mexico Margin: Climate Change, Sea-Level Change, and the Depositional Record

Monday, 6 October 2008: 2:35 PM
George R. Brown Convention Center, 320DE

Eric W. Prokocki and Michael D. Blum, Geology and Geophysics, Louisiana State University, Baton Rouge, LA
Abstract:
The geomorphology and Quaternary geologic history of the Lower Mississippi Valley (LMV) has been debated since the original work conducted by Harold N. Fisk in the 1940s. Roger T. Saucier compiled Fisk's work and created the second generation maps of the LMV, which have been widely used in studies of the LMV since their original publication. The following study reexamines the Holocene meander belt evolution of the LMV using palaeohydrology equations developed using the modern Mississippi River as an analog. Empirical relations are developed by measuring pre-levee construction meander scar characteristics and water-discharge data from gauging stations located along the modern Mississippi River. Four empirical equations were developed, and used to decipher the complexity of the evolution of the single thread meandering channel system of the LMV as it developed from the Pleistocene to early Holocene braided system. The four equations relate: Mean Annual Discharge vs. Bed Width, Mean Annual Discharge vs. Radius of curvature; 1.58(yr) Recurrence Flood Discharge vs. Bankfull Width, and the 1.58(yr) Recurrence Flood Discharge vs. Radius of Curvature.

See more from this Division: Topical Sessions
See more from this Session: Late Quaternary of the Northern Gulf of Mexico Margin: Climate Change, Sea-Level Change, and the Depositional Record