![Sample our Environment & Agriculture journals, sign in here to start your access, latest two full volumes FREE to you for 14 days]({"type":"image" , "src" : "/sda/5934/TOC-Subject-Sample-2021-Environment-Agriculture.jpg"})
Abstract
Environmental variability among freshwater habitats may influence migratory decisions in partially anadromous salmonids through (1) proximate effects on individual fish development and condition and (2) longer-term genetic adaptations of populations to the various environments. However, the relative importance of the two factors has been difficult to sort out. We used the gonadosomatic index as an indicator of maturation—and therefore residency—in age-1 and age-2 parr collected from eight partially anadromous Oncorhynchus mykiss (Rainbow Trout/steelhead) populations occupying a diversity of freshwater habitats. Substantial environmental variability among the eight Hood Canal (Washington) streams had little effect on life history pathways in male and female offspring of anadromous females (hereafter, ANAD parr), with the exception of significantly higher maturation rates in male ANAD parr from one population (Little Quilcene River). Between 0% and 8% of the female ANAD parr had initiated maturation, whereas 33% (Duckabush River) or 53% (Hamma Hamma River) maturation was observed among the female offspring of resident females (hereafter, RES parr) in the two populations with substantial resident components. The results indicate strong maternal control over offspring life history pathways in systems where resident and anadromous forms are sympatric. The RES parr that were collected above and below barriers to anadromy showed similar likelihoods of maturation. The expression of residency and anadromy in Hood Canal populations appears to reflect genetic adaptations to the diverse freshwater habitats (including the effects of O. mykiss sequestered above anadromy barriers) and, to some degree, the phenotypically plastic responses of male parr to the environmental variability among streams.
Received July 26, 2013; accepted October 29, 2013
ACKNOWLEDGMENTS
We thank the organizations and people who assisted with the collection and preservation of parr for this study, including the Hood Canal Salmon Enhancement Group (Theresa Sjostrom and Shaun Hildebrant); Long Live the Kings (Rick Endicott and Joy Waltermire); the National Oceanic and Atmospheric Administration, Northwest Fisheries Science Center (Megan Moore and Rob Endicott); and the Skokomish Tribal Nation (Matt Kowalski). We appreciate landowners in the Hood Canal watershed for providing access to their properties. Penny Swanson (National Oceanic and Atmospheric Administration) provided valuable insight into gonad physiology and determinations for maturation. Megan Moore created . Comments from three anonymous reviewers greatly improved the final manuscript.