The River Analysis Package (RAP) contains a suite of tools for analysing the hydrology and hydraulics of a river and their relationship to ecology (Stewardson and Marsh, 2004). This section contains a summary of the tools within RAP. Most of the tools can be integrated with Source through the Plugin Manager.
Location in Source:
The stand-alone RAP tools and accompanying user guides are available from www.toolkit.net.au/RAP.
Hydraulic Analysis module
The Hydraulic Analysis (HA) module of the River Analysis Package (RAP) is based on the Flow Events Method (Stewardson and Gippel, 2003) of allocating environmental flows. The HA module allows you to construct a one dimensional hydraulic model of a river reach and to determine ecologically-relevant flow thresholds based on hydraulic parameters such as water depth and velocity. Ensure that the following plugin file is present in Source prior to opening a project:
C:\Program Files\eWater\Source version\Plugins\Ecology.RAP.HA.dll
Location in Source:
HA allows you to create a time series of potentially ecologically relevant hydraulic data for subsequent analysis in TSA (Time series Analysis module) and comparison with biological data or alternative flow regimes.
HA can import HECRAS (US Army Corp of Engineers - USACE) cross-section data, as well as user input cross-section data, to create a 1-D hydraulic model of a river reach. The FldWav (pronounced "Flood Wave") (USA National Weather Service) 1-D hydraulic model is used to calculate hydraulic parameters in the reach for multiple alternative discharges.
The hydraulic parameters are presented as a rating curve for each of the hydraulic parameters vs discharge - a time series of discharge can then be converted to a time series of hydraulic parameters for analysis using RAP’s Time Series Analysis module.
HA uses channel cross-sectional data to create a one-dimensional hydraulic model. To run the 1-D hydraulic model, you must assign channel roughness factors for each cross-section. The channel roughness (Manning’s n) can be varied according to discharge, or set as a constant value for all discharges.
The main output from the hydraulic analysis module is a time series of hydraulic parameters.
Time Series Analysis module
The Time Series Analysis (TSA) module of the River Analysis Package (RAP) allows you to investigate time series. Ensure that the following plugin file is present in Source prior to opening a project:
C:\Program Files\eWater\Source version\Plugins\Ecology.RAP.TSA.dll
Location in Source:
TSA is an interpretive tool. Its input must be daily time series, as it is designed for stream flow data, but can equally be used for hydraulic time series or meteorological data. The algorithms underlying TSA are used by the Rules Based Models (RBM) module and Quantitative Models (QM) module of RAP to predict biological responses to alternate flow scenarios.
TSA calculates time-series metrics for post-processing in other statistical packages:
- General statistics, Mean, median, Q90, Q10, Skew, coefficient of variation;
- High and low flow spell analysis;
- Colwell’s statistics;
- Rates of rise and fall;
- Base flow analysis;
- Partial series flood frequency; and
- Annual series flood frequency.
TSA provides a graphical display of alternative metrics changing through time:
- Input data;
- Graphical interpretation of time-series metrics (based on annual, seasonal, monthly basis);
- Flow duration curves (whole period, annual, seasonal, monthly);
- Flood Frequency curves (partial and annual series); and
- Base flow component of flow.
TSA allows a simple drag-and-drop of daily stream flow data:
- Comma delimited (.CSV) with the first column a daily time-step date and subsequent column(s) as data; and
- IQQM-standard output format from the Integrated Quality, Quantity Model produced by the New South Wales Department of Land and water Conservation.
See File formats for more information.
The basic time unit of TSA is daily, however sub-daily, monthly, seasonal and annual time series can also be handled by TSA. Time series must be gap-free (ie. no empty cells if viewed in a spreadsheet). As well as a visual output, TSA provides tabulated numeric output that can be saved as a comma-delimited file for input into other post processing statistical packages.