Regional training course on paleoflood hydrology in flood risk assessment

Assessment of risks associated with floods requires a long record of extreme flood events, beyond that of the instrumentation period. Flood records can be extended by hundreds to thousands of years by reconstructing past flood discharges, using geomorphological indicators (paleofloods) and documentary evidence.

Paleoflood hydrology is the reconstruction of the magnitude and frequency of recent (in areas without gauging records or human observation), past (last 50 years), historic (last 1000 years), or ancient (last 5000 years) floods, using geological evidence. Paleofloods are indicated by the effects of their passage that remain preserved long, for later interpretation. Evidence of the lasting effects of floods are derived from natural recording indicators (paleostage indicators (PSIs)), including sediments, erosional landforms (stripped soils, flood scarps, highflow channels), and other high-water marks (drift wood), tree impact scarps, and damage to vegetation (botanical paleoflood evidence). Paleoflood hydrology, thus, provides a direct record of the type of floods (largest floods) that are most likely to cost the greatest damage.

Although paleoflood hydrology’s primary function is to extend flood chronologies over a period of time, it is also used in:

• Flood risk (and water supply) estimation using flood frequency analyses with long-term data
• Identifying climate-flood relationships (i.e. do floods cluster in time, and whether these clusters are related to varying or changing climates)
• Determining upper bounds of flood magnitudes based on long records
• Estimating long-term recharge in arid land

Within the last 30 years, paleoflood hydrology has emerged as an important and highly relevant component of earth science with numerous applications to the understanding of flood occurrences and the evaluation of flood hazards. Paleoflood hydrology has been employed in many regions of the world, such as in Australia, China, France, India, Israel, Japan, central Spain, and southwest USA, for compiling long-term flood records, and improving flood risk estimation and data management.

Objective

The course aims to train participants in paleoflood data collection, analysis, management, and application in flood risk estimation.

Content

The 5-day course covers:

• Module 1. Introduction to paleoflood hydrology
• Module 2. The scientific and societal value of paleoflood hydrology
• Module 3. Use of paleoflood and historical data for improving flood risk estimation
• Module 4. Paleoflood data collection and analysis
• Module 5. Paleoflood reconstruction in floodplains using geophysical survey data and hydraulic modelling
• Module 6. Methodological guide for paleoflood and historical peak discharge estimation
• Module 7. Flood frequency analysis using systematic and non-systematic information
• Module 8. Managing historical and paleoflood data using Geographical Information System

Method

The course shall be conducted in English. It shall involve presentations that highlight case studies and good practice examples, table-top simulation exercises, and field visit.

Resource persons

The training will be delivered by leading experts and practitioners from RIMES, United States Geological Survey (USGS), and other partner agencies.