___________________ PATH Spring and Fall Chinook Data Files ___________________ for CRiSP.1.6 and CRiSP.1.5.5 Distributed on 14 April 2000 _______________________________________________________________________________ Installation FTP the Windows 95/NT self-extracting archive file or the Unix zipped tarfile from http://www.cbr.washington.edu/crisp/path/. Win32 Installation: 1. Save to the directory of your choice when downloading. 2. Double click on the self-extracting file PATHfiles.exe icon or launch PATHfiles.exe from a Run dialog box. 3. A "WinZip Self-Extractor" dialog box will appear, prompting you for a destination directory. By default, the destination directory is the current directory. 4. Click on the Unzip button to start the unzip process. 5. When the unzipping process finishes, click on the OK button. 6. Click on the Close button for the "WinZip Self-Extractor" dialog box. 7. The current directory should now include a file "TCV.pdf" and two subdirectories, V1.5 and V1.6. 8. You can delete the self-extracting archive. Unix Installation: 1. Save to the directory of your choice when downloading. 2. In a command window, go to the download directory and type gunzip PATHfiles.tar.gz 3. Then type tar xf PATHfiles.tar 7. The current directory should now include a file "TCV.pdf" and two subdirectories, V1.5 and V1.6. 8. You can delete the zipped tarfile. ______________________ TCV.pdf DRAFT version of CRiSP.1.6 Theory, Calibration and Validation document in pdf format only. ______________________ V1.5 subdirectory This directory contains the river description and yearly parameter files for running the CRiSP Model version 1.5.5. This is the model used for CRiSP spring chinook work for PATH. Fall chinook work was done using model 1.6. The *.dat parameters calibrated for model version 1.5.5. $yr.dat files are complete data file with actual river configurations. $yr.no_T.dat files shut off transport to more clearly elucidate inriver survivals and travel times. The Ch1.rls file is a spring chinook release file used by Josh Hayes for spring chinook PATH work. The Ch0_REL.rls file is a fall chinook release file used by Dr Zabel for fall chinook PATH work. The *.results files show transport summaries, survivals and travel times for each year. 1) model year 2) total passage survival = S 3) fraction of fish arriving at LGR that were subsequently transported (from any site) = Pgt 4) fraction of fish arriving below Bonneville that were transported there = Pbt 5) median fish travel time 6) inriver survival = Vn. See the *.no_T.result files for in river survival rates. ______________________ V1.6 subdirectory This directory contains the river description and yearly parameter files for running the CRiSP version 1.6 Model. This is the model used for CRiSP fall chinook work for PATH. Spring chinook work was done using model 1.5. The *.dat and *.beh files contain the latest calibrated parameters available. $yr.dat files are complete data file with actual river configurations. $yr.no_T.dat files shut off transport to more clearly elucidate inriver survivals and travel times. The 00.dat file is a river configuration file constructed using this year's (2000) USACOE flow archive with projected high spills The Ch1.rls file is a spring chinook release file used by Josh Hayes for spring chinook PATH work. The Ch0.rls file is a fall chinook release file used by Dr Zabel for fall chinook PATH work. The CH1.beh file contain the latest migration and predation calibrations by Dr Salinger and Chris Van Holmes Fall chinook have two sets of migration and predation parameters as calibrated by Dr. Rich Zabel and Dr. Dave Salinger 1) Ch0_REL.beh - Release to Lower Granite parameters that includes the rearing phases. The migration equation is based on fish length and flow. The corresponding release file is Ch0_REL.rls. 2) Ch0_LGR.beh - Lower Granite to Bonneville for the active migration phase. The corresponding release file is Ch0_LGR.rls. The *.results files show transport summaries, survivals and travel times for each year. 1) model year 2) total passage survival = S 3) fraction of fish arriving at LGR that were subsequently transported (from any site) = Pgt 4) fraction of fish arriving below Bonneville that were transported there = Pbt 5) median fish travel time 6) inriver survival = Vn. See the *.no_T.result files for in river survival rates.