A little while ago, I heard back from the annual conference planners for Geological Society of America that my abstract submission was accepted for presentation! I’ll be presenting the following poster at GSA 2015 in Baltimore in early November.
Paper No. 311-3
Presentation Time: 9:00 AM-6:30 PM
SPATIOTEMPORAL CHANNEL-BED EVOLUTION PATTERNS OBSERVED FOR THE HUANGHE (YELLOW RIVER), CHINA: IMPLICATIONS FOR EVALUATING SYSTEM RESPONSE AND COMPLEXITY TO EXTERNAL PERTURBATIONS
MOODIE, Andrew J.1, MA, Hongbo1, NITTROUER, Jeffrey A.2, CARLSON, Brandee N.3 and KINEKE, Gail C.4, (1)Earth Science, Rice University, 6100 Main Street, MS-126, Houston, TX 77005, (2)Dept of Earth Science, Rice University, 6100 Main Street, MS-126, Houston, TX 77005, (3)Department of Earth Science, Rice University, 6100 Main Street MS-126, Houston, TX 77005, (4)Earth and Environmental Science, Boston College, 140 Commonwealth Ave, Chestnut Hill, MA 02467
The Huanghe (Yellow River), China, is an end-member fluvial system because it is characterized by very high sediment loads, variable water discharge over annual and decadal timescales, and substantial anthropogenic influences. Over the past several centuries, the channel bed of the Huanghe has aggraded significantly, resulting in several catastrophic avulsions. In order to mitigate channel-bed aggradation, in 2002, Chinese engineers implemented an annual Water and Sediment Discharge Regulation (WSDR) period when, over a two-week period, a controlled flood wave designed to erode the channel bed is triggered by releasing water from a network of upstream dams and reservoirs. Here, we present the results of an extensive time-series field survey that measured fluid and sediment properties to assess the effect of a WSDR flood wave on a portion of the river located ~80 km upstream of the ocean outlet. This controlled experiment represents a classic external perturbation to a fluvial-deltaic system; the morphodynamic responses, however, were anything but predictable. For example, multibeam bathymetric data illuminate the uniqueness of channel-bed properties, including a broad, flat, and shallow sand-bed devoid of a thalweg or bedforms in the straight-reach segments of the Huanghe. Alternatively, in bend segments, the channel-bed deepens significantly, and longitudinal dunes emerge as the dominant bed features. Interestingly, as the flood wave progresses over time, the channel bed in bend segments rapidly erodes upstream and downstream, thus propagating dunes in both directions. In order to further ascertain linkages between the fluid flow, sediment transport, and morphological evolution of the bed, we couple water velocity, suspended sediment concentration, and bedload transport datasets to standard physical models. The results are then used to constrain a numerical model that assesses stability of the channel bed over the duration of the flood wave. In effect, this study shows the inherent unpredictability that emerges between contemporaneously evolving “external” (allogenic) and “internal” (autogenic) processes. Finally, the results of this field and numerical investigation are used to constrain a prediction for the long-term stratigraphic development of the Huanghe fluvial-deltaic system.
Session No. 311–Booth# 389
T188. Inside or Out? Investigations into Driving Forces in Fluvial Systems (Posters)
Wednesday, 4 November 2015: 9:00 AM-6:30 PM
Exhibit Hall (Baltimore Convention Center)
Geological Society of America Abstracts with Programs. Vol. 47, No. 7, p.0
And a congrats to my colleague Brandee Carlson who will be presenting a talk at GSA titled CHANNEL INFILLING PROCESSES ON THE HUANGHE (YELLOW RIVER) DELTAIC COASTAL PLAIN, CHINA!