Efficient Retention of Mud for Land Building on the Mississippi Delta Plain

Christopher R Esposito1, Zhixiong Shen2, Torbjorn E Tornqvist1, Jonathan Marshak1 and Christopher D White1, (1)Tulane University of Louisiana, Department of Earth and Environmental Sciences, New Orleans, LA, United States, (2)Tulane University of Louisiana, New Orleans, LA, United States
Abstract:
Levee breaching and crevasse splay deposition are fundamental drivers of floodplain and delta plain aggradation in lowland river systems, but questions persist as to whether floodplains and delta plains are faithful recorders of riverine sediment load. In the Mississippi River Delta, where land preservation strategies depend on the sediment delivery capability of human-made, managed crevasse splays, this gap in understanding is also a major management concern.

Here we present data characterizing the deposit of the Attakapas Crevasse Splay, which was active in the Lafourche Subdelta of the Mississippi River Delta approximately 1100 to 600 years ago. At the time of its inception the splay was 100 river kilometers from the shoreline, and discharged into a mature cypress swamp. We use LiDAR data and 132 cores (up to 13 m deep and described at 10 cm intervals for sediment texture and organic matter) to develop a three-dimensional model of the crevasse splay deposit. Our model is sufficient to measure the sedimentary composition and volume of the entire deposit, and to resolve the channel bodies preserved within it. We demonstrate that the Attakapas Crevasse Splay deposit is dominated by mud, with only 5-8% of its mass consisting of sand.

The sand fraction preserved in the splay is very similar to the sand fraction in suspension in the upper 5 to 10 meters of the modern Mississippi River, suggesting that the splay was a highly efficient trap for material that escaped the confines of the trunk channel. Accretion rates in the splay of 1-4 cm/yr persisted over centennial timescales, and sediment retention rates were between 70 and 100%. We attribute the extremely high sediment retention rate to the splay’s protected inland location and its densely vegetated environment, and we note the contrast with lower sediment retention rates (20 to 30% according to various studies, although these estimates may be too low) estimated in settings on the open coast such as the Wax Lake Delta.