Evaluating uncertainty in maximum flood flow estimated from hydrometric data for southern Québec basins

Once completed, the methodology developed will make it possible to estimate uncertainties in extreme flow values for different return periods for all gauged sites in southern Québec. This knowledge of uncertainty will provide a better understanding of flood events and a better estimation of flood-risk areas.

Project details

Scientific program

2020-2025 programming

Theme(s) and priority(s)

Extreme Events - Climate Science and Climate Services

Start and duration

September 2020 • 2 years

Project Status

Completed

Linked project

Support for INFO-Crue

Principal(s) investigator(s)

Alain Mailhot

INRS

Jonathan Jalbert

Polytechnique Montréal

Context

In general, streamflow is one of the hydrometric data required for characterizing flood hazard risk and thus for mapping flood-prone areas. These flows are estimated using a rating curve that relates water level to flow rate for a given watercourse. However, the uncertainties associated with the use of rating curves are not well known, particularly when the levels or flows are higher than those measured for the creation of the curve, as is the case for annual maximum flood flow used to identify return periods. Consequently, the quantification of uncertainty is crucial for proper estimation of flood-risk areas.

Photo : Direction de l’expertise hydrique (DEH)

Objective(s)

Develop a methodology for quantifying uncertainties in flow values estimated from rating curves and in the extreme flow quantiles estimated from maximum annual flow series at hydrometric stations in southern Québec. Particular attention will be paid to the uncertainty of extrapolation of rating curves beyond the range of gauged flows.

This project is part of the INFO-Crue initiative set up by the MELCC.

Learn more

Methodology

Review of methods proposed in the literature in order to build a methodology based on the most appropriate approaches (gauging instrumentation, hydraulics, rating curve estimation, geomorphological changes, flow extrapolation);
Documentation of approaches involving field visits currently used by the MELCC’s Direction de l’expertise hydrique;
Collection, structuring and preliminary processing of data;
Integration of sources of uncertainty (identified in the literature review) in flow estimation;
Development of an uncertainty model for level and flow measurements applicable to all gauging sites in southern Québec.

Expected results

The project will provide a critical review of available methodologies relevant to Québec and an estimate of uncertainties in extreme flow values for different return periods at all gauged sites in southern Québec.
An uncertainty model for flow measurements and extreme flow quantiles applicable to all gauging sites in southern Québec will be created.
The project will also lead to the development of a core of expertise in hydraulics, hydrology and statistics relating to rating curves.

Benefits for adaptation

Once completed, the methodology developed will make it possible to estimate uncertainties in extreme flow values for different return periods for all gauged sites in southern Québec.

This knowledge of uncertainty will provide a better understanding of flood events and a better estimation of flood-risk areas. The direct beneficiary of the project is the DEH, which is responsible for the hydrometric stations under study.

Nevertheless, the critical review of the available methodologies relevant to Québec, as well as the model developed, could be of use to any user of rating curves. Ultimately, a better estimation of flood hazard will be beneficial to all flood risk management stakeholders.