CONTENTS
Kope - discussed background for the models
ESA requires consultation for any federal activity that may impact a listed species. The intent is to establish consistent jeopardy standards for ESA consultations and recovery planning. Two interests for models
As defined previously the Oversight Committee mainly will focus on the Harvest Assessment Model. The Oversight Committee responsibilities include
Jim Scott suggested we have PSC as the oversight organization since it already has a certification process. He also added he likes the role of the guidance panel as outlined in the notes from the Dec 20 1996 meeting.
It was made clear that to obtain a model for management, the fish managers must be closely involved with all aspects of the model development.
Replacement for FRAM is needed by 1998.
The new model will be modified to split groups in to marked and unmarked, tagged and untagged groups. The model will be able to deal with groups both individually and together.
In developing a general coastwide model we look at the currently available models. We are developing a general structure that should be applicable for a multispecies-multistock analyses.
Our short-term goal is to have a prototype model running by the end of Sep 97. By this we mean a generalized model that can be configured to duplicate the output of one of the existing models, such as the PSC chinook model. For the longer-term our goal is to have a model that can be used to evaluate selective fisheries for the 1998 season. That would require having a model certified sometime in Feb 98.
The issues of communication of the Oversight Committee and the informal subgroups was addressed. It was suggested that PSFMC might assist in this supporting travel for the Oversight Committee and any subgroups.
A WEB page will be used to exchange information between the subgroups group the Oversight Committee and the model development team. A Web based list server has been implement and can be used to organize communications on specific topics see the harvest web page:
"Comments can be added to the Web using the hypertext notes at" http://www.cbr.washington.edu/harvest
The web list server could eventually include a salmon management web group that will connect all salmon harvest management activities in the region. Software to develop a community web page has recently become available (www.throw.com). This might have value to our model development and salmon management in general. Anderson will review this and see if its worth implementing
We identified the need for informal working groups to address specific issues. Currently identified issues are:
Model structure: To develop the model code structureNotes on the issues facing the working groups are discussed belowMigration algorithms: To identify the types of algorithms for ocean migration
Maturation algorithms: To formulate maturation rates in terms of fish migration to rivers
Calibration and optimization: To define procedures for calibration model with CWT and fishing effort data. Identify algorithms to find optimum harvest strategies within the model
Definitions: to standardize definitions between models
Model I/O: To define input-output requirements for harvest management
Certification: develop a process to certify a model for management
Model Comparison: compare existing models to the new model Data: Obtain data for comparison of existing models to the new model
Documentation: to be developed by UW.
Risk Assessment: to identify risk assessment model function from the recommendations of the risk assessment workshop panel report (anticipated to be available in March 1997).
Progress on developing model structure was presented by Jim Norris
The model structure will
A work group for migration model development:
A first task is to collect literature. This should include a literature survey of the migration models available. This will be collected and distributed to the groups as a series of papers. Jim Anderson will employ a student (David Caccia) to put the literature together on migration.
The approach would be to express maturation as an age specific migration rate into the river
Kope has algorithm to express maturation function in migration framework
Johnson concerned about maturation to migration basis framework
Scott noted it may be difficult to calibrate a migration-maturation structure with CWT
Noted: age of maturation changes from year to year and may relate to ocean distribution of fish as related to ocean circulation and fish growth
Model calibration will be considerably involved and will be considered at a later meeting. We anticipate creating an informal model calibration subgroup that will address the issued in detail.
The discussion of "optimization" occured in several contexts. One was how to calibrate the model. Jim Scott remarked that his staff advised that we should use optimization routines to find the set of free parameters (ie calibrated parameters) that give the best fit of the model outputs to corresponding observed data.
A second context was in the basic model computation enine. Here the problem is that of finding single year harvest levels that satisfy complex policy objectives, such as equalizing Indian and Non-Indian catches, meeting minimum escapement goals, allocating catches within Indian and Non-Indian fisheries. These types of optimization algorithms would run during simulation years as part of the computation engine. Someone observed that there may be multiple solutions and that it will be difficult to identify these and select between them during within year computations.
A third context was that of designing code that "optimizes" overall computation speed.
Blair Holtby noted model specifications are need to define equivalence of terminology between the new and existing models. This led to a specific task to identify common nomenclature for the models. A table will be developed to identify equivalent model terms and parameters. Lead on this was Jim Packer 902- 2754. Jim Scott and Larry Lavoy will assist. The goal is to have a table ready for the next meeting.
Input Output specification must be identified by managers using the model. To do this we will first spend time with the FRAM model to understanding its output and how this meets the needs of managers.
Blair Holtby suggested a model needs risk assessment output specifications including:
(short term risk = comanagement issue) risk of not achieving an escapement foal with in a seasonsMODEL CERTIFICATION:(long term risk = ESA issue) risk of long term extinction
The harvest assessment model will need to be certified for use by fisheries managers. A certified model would be used by the formal fisheries technical committees responsible for making recommendations for harvest management. These committees generally will not have time to evaluate a new model. In this case our task is to provide enough information so the technical teams can understand the steps we have made to validate our model for management. The Oversight Committee might take this function of certifying the model. The certification will include model documentation and comparison to existing models with a common data set.
Membership in the certification group.
The certification is likely to be a PFMC and PSC process. Our model Oversight Committee can help idenfity how we can assist these groups in model certification.
It was noted that Canada has similar issues upcoming and they wish to participate in our process to the degree possible.
An important step in certification is to compare the model to the existing models. This will involve a subgroup to run the existing models and compare them to the new model.
The new model will be compared to FRAM
Pete Lawson suggested we need exact equivalence of the new model to the existing models. This may or may not be entirely possible. If a one-to-one equivalence is not possible the Oversight Committee will need to resolve the issue if differences in the model are significant and if changes need to be made to resolve differences.
Need to work with and through the technical advisory committees for the various fishery management group
FRAM is the only existing model for coastwide coho
PSC or CRiSP2 model is the only existing coastwide chinook model
Comstock distributed three data maps to be used for comparison of models:
fish (catch sampling effort stock), age, time period. Note we may have catch and fish sampling different. Need to have one set of definitions for the data reconstruction and comparison.
Rich Comstock and Rick Moore: can reconstruct data for comparison of the models in three time steps.
Rich Comstock will work with Norma Sands, Rick Moore and Peter Lawson the week after the meeting. Was this done? what was accomplished?
A manual theory, calibration and validation: UW will take the lead in model documentation with assistance of NMFS and the Oversight Committee.
Develop an executive summary showing main issues of the documentation. This would give fisheries managers a quick overview of the model.
The CRiSP 2 manual is currently being updated. This can be used as a framework for the new manual.
JIM NORRIS REPORT ON MODEL DEVELOPMENT
On the issue of fish migration in the model
A migration matrix will be computed outside the model
The matrix will be stock and year specific. The Newman one dimensional migration model is one way to define migration but we can define other methods that allow branching of the linear model. A third way is to represent migration by spatial boxes. A fourth way is to have a 2-dimension diffusion model.
All migration models are likely to use CWT and effort data. A question was asked, is there another or better way to estimate migration. It is also possible to incorporate a numerical simulation model such as NERKAsim
Organization of the data structure follows the convention
REGION Number - > Fishery unit - > Harvest ObjectTime Step: A period of time during which it is assumed that all fisheries within a given geographic region are operating on the same abundance of fish from each cohort.
The mathematical implication is that the independent variables used within the harvest functions are the same for all fisheries within the time step and region.
TASKS PRIOR TO NEXT MEETING
Objects definition meeting
Comparison of terminology in the different models
Tasks by the model development group
Norris: develop object structure for modelRICH COMSTOCK PRESENTATION ON DATANorris: identify nomenclature of model terms
Scott: consider issues of optimization routines
Rich Comstock described his data for model comparison including
CWT recoveryRich is working with Ken Newman on a frequent basiscatch and effort data
identifying statistical catch areas
Question- What will be done with the PM model. It has a heuristic migration model. The PM model has been converted to the PYTHON objected oriented code, which is similar to C++.
PEOPLE MENTIONED FOR WORK GROUPS
| Jim Anderson | UW |
| Robert Bayley | NMFS |
| Jim Berkson | CRITFC |
| Rich Comstock | USFWS |
| Carrie Cook-Tabor | USFWS/NMFS |
| Judy Cress | UW |
| Rich Dixon | CDFG |
| Peter Dygert | NMFS |
| John Geibel | CDFG |
| Brent Hargreaves | DFO |
| Ken Henry | NMFS, REFM |
| Blair Holtby | DFO |
| Ron Kadowaki | DFO |
| Jeff Koenigs | ADFG |
| Robert Kope | NMFS |
| Pete Lawson | ODFW/NMFS |
| Steve Lindley | NMFS |
| Richard Methot | NMFS |
| Marianne McClure | CRITFC |
| Rod McInnis | NMFS |
| Rick Moore | WDFW |
| Gary Morishima | QIN |
| Ken Newman | U of Idaho |
| Jim Norris | UW |
| Mike Prager | NMFS |
| Bill Robinson | NMFS |
| Norma Jean Sands | ADFG |
| Jim Scott | NWIFC |
| Steve Smith | NMFS |
| Dan Viele | NMFS |
| Tom Wainwright | NMFS |
| Brian Riddel | Department of Fisheries and Oceans, Nanaimo BC V9R 5K6 |
Those who don't have email address on this list will each receive a hard copy in the mail.