Journal
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
Volume 118, Issue 46, Pages -Publisher
NATL ACAD SCIENCES
DOI: 10.1073/pnas.2103178118
Keywords
river deltas; channel migration; global change; coastal morphodynamics
Categories
Funding
- NSF [OCE-1600222, CAREER-1350336, EAR-1642611]
- Planet Texas 2050, a research grant challenge at the University of Texas at Austin
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River deltas are dynamic systems with channels that can change over time. By analyzing global patterns of channel migration, it was found that the migration is largely influenced by fluvial forcing, sediment flux magnitude, and frequency of flood events. Understanding modern rates and patterns of channel migration in river deltas is crucial for predicting future changes and informing decision makers striving for deltaic resilience.
River deltas are dynamic systems whose channels can widen, narrow, migrate, avulse, and bifurcate to form new channel networks through time. With hundreds of millions of people living on these globally ubiquitous systems, it is critically important to understand and predict how delta channel networks will evolve over time. Although much work has been done to understand drivers of channel migration on the individual channel scale, a globalscale analysis of the current state of delta morphological change has not been attempted. In this study, we present a methodology for the automatic extraction of channel migration vectors from remotely sensed imagery by combining deep learning and principles from particle image velocimetry (PIV). This methodology is implemented on 48 river delta systems to create a global dataset of decadal-scale delta channel migration. By comparing delta channel migration distributions with a variety of known external forcings, we find that global patterns of channel migration can largely be reconciled with the level of fluvial forcing acting on the delta, sediment flux magnitude, and frequency of flood events. An understanding of modern rates and patterns of channel migration in river deltas is critical for successfully predicting future changes to delta systems and for informing decision makers striving for deltaic resilience.
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