Growth Rate Modulation in spring Chinook salmon supplementation
Statement of Work and Budget FY2012

Reasonable and Prudent Alternative (RPA) 63.2 of FCRPS Biological Opinion calls for determining the effects of implementing hatchery reforms on salmon and steelhead populations and RPA 65.2 is focused on estimating Fall Chinook hatchery program effects on productivity. A major focus of current actions under Northwest Power and Conservation Council (NWPCC 2004) and Bonneville Power Administration (BPA) programs is the support of 12 supplementation programs to assist in recovery of 8 ESUs of Chinook salmon and steelhead trout listed as threatened or endangered under the ESA. A significant concern for these programs is that they release fish that are ecologically, genetically, and phenotypically similar to their wild cohorts. In response to this concern, a number of rearing guidelines for supplementation programs have been made in the Artificial Production Review and Evaluation report (APRE).

The primary goals of this project are to assesses the proportion of precociously maturing males and smolt associated physiological development of Chinook salmon produced in supplementation and conservation hatcheries in the Columbia River Basin and to conduct both basic and applied research to help devise rearing protocols to reduce unnaturally high rates of precocious male maturation and produce fish with similar physiological, morphological and life-history attributes as wild fish. Previously, we have identified the prevalence and magnitude of age-2 male maturation (minijack) in conservation and supplementation programs for Spring and Summer Chinook salmon in the Columbia River Basin. In some programs, in some years, 60% of the males produced are destined to mature at age 2. In the Yakima Supplementation program the average minijack rate over 10 years is 41% which is 9 fold the rate we have estimated in wild Yakima Spring Chinook. This represents an obvious loss of production. More insidiously, the minijack phenotype also results in unnatural selection profiles on the smolts released from the hatchery and profound demographic effects on the spawning grounds, ultimately and undeniably altering the genetic structure of the natural populations that the conservation programs were designed to protect. Minijacks represent an ecological presence that may prey on and compete for food and habitat with native stocks. Finally, high minijack rates represent a significant source of error in calculations of smolt-to-adult return rates (SAR's); the central currency for survival estimates throughout the Columbia Basin. Through this ongoing project we have documented that hundreds of thousands of minijacks are released from hatchery programs each year. These are actually not smolts when released and they rarely return as adults to the spawning grounds. It is essential to quantify their presence prior to release in programs of interest and devise methods to control production of unnaturally high minijack rates. Reduction in the rate of minijack production can lead to direct increases in smolt production and reduction in domestication selection. However, there are significant challenges associated with these efforts as growth profiles that reduce early male maturation often produce small smolts. Numerous studies have shown that smolt size is highly correlated with adult survival. This project is specifically designed to reconcile the paradox presented by these conflicting principals. Key Project Personnel have conducted experiments that suggest reducing growth rates and lipid deposition in the autumn/winter of the fish’s 1st year will reduce early male maturation rates. In addition, experiments have shown that delaying ponding until March/April can eliminate high rates of age-1 male maturation.

Preliminary data suggests that yearling hatchery releases of URB fall Chinook salmon (currently a key part of supplementation programs for ESA listed Snake River URB fall Chinook salmon) results in a high proportion of early male maturation. This represents a loss of production of full size anadromous fish and also represent a threat to the maintenance of the genetic integrity of the naturally spawning population. Documented evidence also suggests that yearling releases of URB fall Chinook salmon result in a high proportion of early maturing males in the Yakima and Umatilla Basins. Counts of age-2 upstream migrants at Three Mile Falls Dam on the Umatilla River suggest that significant minijack production was evident at the initiation of yearling fall Chinook salmon releases in the Umatilla River (Umatilla Fall Chinook HGMP). While potentially ubiquitous and common, little effort has been put forth to either enumerate or evaluate minijack production; thus, the problem is largely (and conveniently) ignored.

This project has three central objectives:

Objective 1)  (Continuing work) Improve survival and reduce fitness loss in Columbia River URB Fall Chinook salmon. We will determine rates of minijack production (through measurement of plasma 11-ketotestosterone levels) and associated physiological development including growth, whole body lipid, plasma IGF-1 (endocrine index of growth physiology) and Na+/K+-ATPase activity (enzyme indicator of smolt development) in Umatilla stock URB Fall Chinook Salmon (serving as a proxy for listed Snake River stocks) reared at Bonneville Hatchery for a production scale 2x2 factorial experiment exploring the effects of High and Low Ration and High and Low lipid diet on life-history development over four consecutive brood years (BY's 2010-2013 released 2012-2015). This study will be monitored by Don Larsen, Brian Beckman of NOAA Fisheries, Seattle and Walton Dickhoff of NOAA Fisheries and the University of Washington, Seattle in partnership with co-managers from the Confederated Tribes of the Umatilla Indian Reservation (CTUIR) and Oregon Department of Fish and Wildlife (ODFW- Lance Clarke and Scott Patterson). Our monitoring effort for this work started in FY 2011 under the final year of the previous solicitation period (FY 07-09 extended to 2010-11) and is scheduled to continue until spring 2015. The effectiveness of this work will be monitored through compilation of physiological profiles for each brood year and treatment group, minijack surveys conducted for each treatment at the time of release, juvenile survival and minijack migration via pit-tag interrogation in the Columbia River hydro by-pass systems and adult ladders and ultimately via adult return rates from 2014-2017. Final results and conclusions will be reported in annual and final contract reports, at scientific conferences and in peer reviewed publication(s).

Objective 2)  (Continuing work)

a. (Continuing) In FY 2012  under this objective we will  complete our current laboratory scale growth study being conducted for this objective under the previous solicitation period (FY10-11).  This work primarily involves sample and data analysis, summation and interpretation and communication of results.

b. (Continuing) Refine rearing protocols to reduce minijack rates and optimize smolt development in URB Fall Chinook salmon. We will conduct a laboratory scale experiment at the Northwest Fisheries Science Center (NWFSC), Seattle exploring the effects of alterations in emergence timing and growth rate (via ration manipulation) on life-history development and associated physiology in Umatilla River URB Fall Chinook gametes obtained from the Umatilla (or Bonneville) Hatchery.  This experiment will be conducted with eggs obtained from brood year 2011 adults returning to the Umatilla River that were acquired during the previous FY11 contract and continue through final sample analysis in spring 2014. The objective will be conducted by Don Larsen and Brian Beckman of NOAA Fisheries, and Walton Dickhoff and contract staff from the University of Washington, Seattle. The effectiveness of this research will be monitored through physiological profiles compiled for each treatment group throughout the experiment and final age-1 and age-2 maturation surveys conducted during and at the end of the experiment. Final results and conclusions will be reported in annual and final contract reports, at scientific conferences and in peer reviewed publication(s).



Objective 3) (New and Continuing work)
a.  (Continuing) Long-term minijack monitoring in Spring Chinook salmon from the Yakima River Supplementation Program. We will continue to collect data for our long-term monitoring effort at the Yakima River Cle Elum Supplementation and Research Facility (CESRF) documenting size, gender proportions and minijack rates and threshold size for early male maturation of the Supplemented Natural (SN) line and Hatchery Control (HH) Line of this program. The desired outcome is to document annual variation in this central demographic trait and to determine if there is continued evidence of domestication selection associated with this trait occurring between the SN (supplemented line) and HH (hatchery control) lines. This demographic trait is an important component of the broader M and E plan for the Yakima Supplementation program. This monitoring effort is conducted in March of each year 2012-2014 using quantification of the reproductive androgen, 11-ketotestosterone in all male fish. This data is added to a long term data base being maintained for this trait and provided to the Yakima Klickitat Fisheries Project (YKFP) managers for compiling minijack corrected and uncorrected SAR's for the program. These data are reported annually at the Yakima Basin Science and Management Conference and used for making programatic decisions regarding hatchery growth profiles. This data has and will continue to be reported in annual contract reports, other regional and national science meetings and in peer reviewed publication(s).
b.  New and continuing effort to quantify minijack rates and size for various hathery reared salmonids throughout the Columbia and Snake River basins including White River (Wenatchee basin), and Red Fish Lake Sockeye salmon at Sawtooth and Oxbow hatcheries.

Taken together the work put forth by this statement of work will address these objectives by continuing to monitor the extent of this problem at both the Yakima and Columbia Basin wide level, design rearing strategies for use in salmon hatcheries throughout the basin and test the success of implementation of these innovative technologies at the hatchery production scale.

There are two contracts (University of Washington and NOAA ) under this project.  There are many duties associated with this project that are shared between the two contracts and they are noted in the description for specific work elements. In general, the University of Washington Contract is associated with data collection, fish rearing, maintaining hatchery, and laboratory sample analysis and the NOAA contract is used for work elements associated with permit preparation, experimental design, collaborator coordination, fish rearing and maintaining hatchery also, contract reporting, data collection, interpretation, analysis, and peer reviewed publication and presentation of results to the scientific community.

Related References
Larsen, D.A., Beckman, B.R., Strom, C.R., Parkins, P.J., Cooper, K.A., Fast, D.E., and Dickhoff, W.W.  (2006). Growth modulation alters the incidence of early male maturation and physiological development of hatchery reared spring Chinook salmon: a comparison with wild fish.  Transactions of the American Fisheries Society. 135 1017-1032.
Beckman, B.R. and Larsen D.A.  (2005). Up-stream migration of minijack (age-2) Chinook salmon in the Columbia River:  behavior, abundance, distribution, and origin Transactions of the American Fisheries Society 134:1520-1541.
Larsen, D.A., Beckman, B.R., Strom, C., Parkins, P., Cooper, K.A., Johnston, M., Fast, D., and Dickhoff, W.W.  (2005).  Growth rate modulation in spring Chinook salmon supplementation.  U.S. Department of Energy, Bonneville Power Administration (BPA Report DOE/BP-00017450-1)  49pp.
Larsen, D.A., Beckman, B.R., Cooper, K.A., Barrett, D., Johnston, M., Swanson, P., and Dickhoff, W.W.  (2004).  Assessment of high rates of precocious male maturation in a spring Chinook salmon supplementation hatchery program.  Transactions of the American Fisheries Society.  133, 98-120.