4.6 Article

Investigating the interaction of waves and river discharge during compound flooding at Breede Estuary, South Africa

Journal

NATURAL HAZARDS AND EARTH SYSTEM SCIENCES
Volume 22, Issue 1, Pages 187-205

Publisher

COPERNICUS GESELLSCHAFT MBH
DOI: 10.5194/nhes-22-187-2022

Keywords

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Funding

  1. state of Schleswig-Holstein within the programme Open-Access-Publikationsfonds
  2. Coastal Systems CSIR Parliamentary Grant (PG) from the Department of Science and Innovation (DSI)

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Recent studies have highlighted the significant dependencies between flood drivers and compound flood events in coastal areas. This study investigates compound flooding from tides, river discharge, and waves at the Breede Estuary in South Africa. The research finds that flood characteristics are more sensitive to river discharge than waves, but waves contribute significantly when interacting with river discharge.
Recent studies have drawn special attention to the significant dependencies between flood drivers and the occurrence of compound flood events in coastal areas. This study investigates compound flooding from tides, river discharge (Q), and specifically waves using a hydrodynamic model at the Breede Estuary, South Africa. We quantify vertical and horizontal differences in flood characteristics caused by driver interaction and assess the contribution of waves. Therefore, we compare flood characteristics resulting from compound flood scenarios to those in which single drivers are omitted. We find that flood characteristics are more sensitive to Q than to waves, particularly when the latter only coincides with high spring tides. When interacting with Q, however, the contribution of waves is high, causing 10 %-12 % larger flood extents and 45-85 cm higher water depths, as waves caused backwater effects and raised water levels inside the lower reaches of the estuary. With higher wave intensity, the first flooding began up to 12 h earlier. Our findings provide insights on compound flooding in terms of flood magnitude and timing at a South African estuary and demonstrate the need to account for the effects of compound events, including waves, in future flood impact assessments of open South African estuaries.

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