Abstract
Brown trout Salmo trutta populations are common in small boreal streams in Scandinavia. Populations are often small and isolated. In this chapter, I summarized studies conducted for 8 years on a population of small-sized brown trout living in a small Norwegian boreal stream exposed to harsh winters (>5 months of ice cover) and low water levels during summer. Subsequently, I evaluated factors influencing local use of spawning areas and the distribution of age-0 individuals during autumn in a contiguous 1.4 km portion of the stream. Finally, I analyzed the local and temporal variation in individual length of the age-0 individuals during late fall and related distribution of age-0 brown trout to habitat qualities, including fish density and environmental factors varying at the catchment scale (i.e., discharge and temperature) or at the local scale (i.e., habitat characteristics summarized using principal component analysis and presence/absence of competitors). Spawning occurred throughout the stream, indicating that female brown trout were able to find small patches of suitable spawning habitat in most study sections. Age-0 brown trout were also found in all sections of the stream, with large variation among sections. General linear mixed effects models, with year as a random effect, indicated that variation in the second principal component was the main factor determining density of both mature and age-0 brown trout. However, the effect was in opposite direction for the two groups. Variation in length of age-0 brown trout was substantial, and associated with most of the measured parameters. There was a significant negative density effect, and this effect was exacerbated by the presence of alpine bullhead Cottus poecilopus. Both mature brown trout and age-0 juveniles utilized the full extent of the study area, leading to substantial phenotypic variation.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Akaike H (1974) New look at statistical model identification. IEEE Trans Autom Control 19:716–723
Andreasson S (1980) Feeding habits of a sculpin (Cottus gobio L. Pisces) population. Rep Freshw Res Inst Drottningholm 51:5–30
Bærum KM, Haugen TO, Kiffney P, Olsen EM, Vøllestad LA (2013) Interacting effects of temperature and density on individual growth performance in a wild population of brown trout. Freshw Biol 58:1329–1339
Bardonnet A, Heland M (1994) The influence of potential predators on the habitat preferenda of emerging brown trout. J Fish Biol 45(Suppl A):131–142
Bernatchez L (2001) The evolutionary history of brown trout (Salmo trutta L.) inferred from phylogeographic, nested clade, and mismatch analyses of mitochondrial DNA variation. Evolution 55:351–379
Bohlin T, Hamrin S, Heggberget TG, Rasmussen G, Saltveit SJ (1989) Electrofishing - theory and practice with special emphasis on salmonids. Hydrobiologia 173:9–43
Budy P, Thiede GP, Lobón-Cerviá J, Fernandez GG, McHugh P, McIntosh A, Vøllestad LA, Becares E, Jellyman P (2013) Limitation and facilitation of one of the world's most invasive fish: an intercontinental comparison. Ecology 94:356–367
Burnham KP, Anderson DR (1998) Model selection and inference: a practical information-theoretic approach. Springer, New York
Carlson SM, Olsen EM, Vøllestad LA (2008) Seasonal mortality and the effect of body size: a review and an empirical test using individual data on brown trout. Funct Ecol 22:663–673
Elliott JM (1994) Quantitative ecology and the brown trout. Oxford University Press, Oxford
Esteve M (2005) Observations of spawning behaviour in Salmoninae: Salmo, Oncorhynchus and Salvelinus. Reviw Fish Biol Fish 15:1–21
Fleming IA (1998) Pattern and variability in the breeding system of Atlantic salmon (Salmo salar), with comparisons to other salmonids. Can J Fish Aquat Sci 55(Suppl 1):59–76
Gaudin P, Caillere L (2000) Experimental study of the influence of presence and predation by sculpin, Cottus gobio L., on the drift of emergent brown trout, Salmo trutta L. Arch Hydrobiol 147:257–271
Gaudin P, Heland M (1984) Influence d'dulte de chabots (Cottus gobio L.) sur des alevins de truite commune (Salmo trutta L.): étude expérimentale en milieux semi-naturels. Acta Oecol/Oecol Appl 5:71–83
Gauthey Z, Lang M, Elosegi A, Tentelier C, Rives J, Labonne J (2017) Brown trout spawning habitat selection and its effects on egg survival. Ecol Freshw Fish 26:133–140
Hansen MM, Guy CS, Budy P, McMahon TE (2019) Trout as native and nonnative species: a management paradox. In: Kershner JL, Williams JE, Gresswell RE, Lobón-Cerviá J (eds) Trout and char of the world. American Fisheries Society, Bethesda, MD, pp 645–684
Heggenes J (1988) Physical habitat selection by brown trout (Salmo trutta) in riverine systems. Nordic J Freshw Res 64:74–90
Heggenes J (1996) Habitat selection by brown trout (Salmo trutta) and young Atlantic salmon (S. salar) in streams: static and dynamic hydraulic modelling. Regul Rivers: Res Manage 12:155–169
Heggenes J (2002) Flexible summer habitat selection by wild, allopatric brown trout in lotic environments. Trans Am Fish Soc 131:287–298
Holmen J, Olsen EM, Vøllestad LA (2003) Interspecific competition between stream-dwelling brown trout and Alpine bullhead. J Fish Biol 62:1312–1325
Huitfeldt-Kaas H (1918) Ferskvandsfiskenes utbredelse og indvandring i Norge, med et tillæg om krebsen. Centraltrykkeriet, Kristiania
Jones PE, Champneys T, Vevers J, Börger L, Svendsen JC, Consuegra S, Jones J, Garcia de Leaniz C (2021) Selective effects of small barriers on river-resident fish. J Appl Ecol 58:1487–1498
Jonsson B, Jonsson N (2011) Ecology of Atlantic salmon and brown trout. Habitat as a template for life histories. Springer, Dordrecht
Kamler E (1992) Early life history of fish. An energetics approach. Chapman & Hall, London
Keeley ER (2019) Origins, species diversity, and ecological diversification in trout and char. In: Kershner JL, Williams JE, Gresswell RE, Lobón-Cerviá J (eds) Trout and char of the world. American Fisheries Society, Bethesda, MD, pp 15–39
Kottelat M, Freyhof J (2007) Handbook of European freshwater fishes. Kottelat, Cornoi, Switzerland and Freyhof, Berlin
Letcher BH, Coombs JA, Nislow KH (2011) Maintenance of phenotypic variation: repeatability, heritability and size-dependent processes in a wild brook trout population. Evol Appl 4:602–615
Lobón-Cerviá J, Sanz N (eds) (2018) Brown trout. Biology, Ecology and Management. Hoboken, NJ, Wiley
Lund E, Olsen EM, Vøllestad LA (2003) First-year survival of brown trout in three Norwegian streams. J Fish Biol 62:323–340
Mäki-Petäys A, Muotka T, Huusko A, Tikkanen P, Kreivi P (1997) Seasonal changes in habitat use and preference by juvenile brown trout, Salmo trutta, in a northern boreal river. Can J Fish Aquat Sci 54:520–530
McIntosh A, McHugh P, Budy P (2011) Salmo trutta L. (brown trout). In: Francis RA (ed) A handbook of global freshwater invasive species. London, Earthscan, pp 285–296
Morrissey MB, de Kerckhove DR (2009) The maintenance of genetic variation due to asymmetric gene flow in dendritic metapopulations. Am Nat 174:875–889
Muhlfeld CC, Dauwalter DC, D’Angelo VS, Ferguson A, Giersch JJ, Impson D, Koizumi I, Kovach R, McGinnity P, Schöffmann J, Vøllestad LA, Epifanio J (2019) Global status of rout and char: conservation challenges in the twenty-first century. In: Kershner JL, Williams JE, Gresswell RE, Lobón-Cerviá J (eds) Trout and char of the world. American Fisheries Society, Bethesda, MD, pp 717–760
Olsen EM, Vøllestad LA (2001) Estimates of survival of stream-dwelling brown trout using mark-recaptures. J Fish Biol 59:1622–1637
Olsen EM, Vøllestad LA (2003) Microgeographical variation in brown trout reproductive traits: possible effects of biotic interactions. Oikos 100:483–492
Olsen EM, Vøllestad LA (2005) Small-scale spatial variation in age and size at maturity of stream-dwelling brown trout, Salmo trutta. Ecol Freshw Fish 14:202–208
Olsen EM, Serbezov D, Vøllestad LA (2014) Probabilistic maturation reaction norms assessed from mark–recaptures of wild fish in their natural habitat. Ecol Evol 4:1601–1610
Ottaway EM, Carling PA, Clarke A, Reader NA (1981) Observations on the structure of brown trout, Salmo trutta Linnaeus, redds. J Fish Biol 19:593–607
Sanz N (2018) Phylogeographic history of brown trout: a review. In: Lobón-Cerviá J, Sanz N (eds) Brown trout: biology, ecology and management. Wiley, Hoboken, NJ, p 17–63
SAS Institute Inc. (2020–2021) JMP® Documentation library. SAS Institute Inc., Cary, NC
Serbezov D, Bernatchez L, Olsen EM, Vøllestad LA (2010a) Mating patterns and determinants of individual reproductive success in brown trout (Salmo trutta) revealed by parentage analysis of an entire stream living population. Mol Ecol 19:3193–3205
Serbezov D, Bernatchez L, Olsen EM, Vøllestad LA (2010b) Quantitative genetic parameters for wild stream-living brown trout: heritability and parental effects. J Evol Biol 23:1631–1641
Serbezov D, Jorde PE, Bernatchez L, Olsen EM, Vøllestad LA (2012a) Life history and demographic determinants of effective/census size ratios as exemplified by brown trout (Salmo trutta). Evol Appl 5:607–618
Serbezov D, Jorde PE, Bernatchez L, Olsen EM, Vøllestad LA (2012b) Short-term genetic changes: evaluating effective population size estimates in a comprehensively described brown trout (Salmo trutta) population. Genetics 191:579–592
Taugbøl A (2008) Fine-scale genetic structure of brown trout (Salmo trutta). Master of Science thesis, University of Oslo, Oslo
Vøllestad LA (2018) Understanding brown trout population genetic structure: a Northern-European perspective. In: Lobón-Cerviá L, Sanz N (eds) Brown trout: biology, ecology and management. Wiley, Hoboken, NJ, pp 127–144
Vøllestad LA, Olsen EM (2008) Non-additive effects of density-dependent and density-independent factors on brown trout vital rates. Oikos 117:1752–1760
Vøllestad LA, Olsen EM, Forseth T (2002) Growth-rate variation in brown trout in small neighbouring streams: evidence for density-dependence? J Fish Biol 61:1513–1527
Vøllestad LA, Serbezov D, Bass A, Bernatchez L, Olsen EM, Taugbøl A (2012) Small-scale dispersal and population structure in stream-living brown trout (Salmo trutta) inferred by mark–recapture, pedigree reconstruction, and population genetics. Can J Fish Aquat Sci 69:1513–1524
White GC, Anderson DR, Burnham KP, Otis DL (1982) Capture-recapture and removal methods for sampling closed populations. LA-8787-NERP,. Los Alamos National Laboratory, Los Alamos, NM
Whiteley AR, Penaluna BE, Taylor ER, Weiss S, Abadia-Cardoso A, Gomez-Uchida D, Koizumi I, Trotter P (2019) Trout and char: Taxonomy, systematics, and phylogeography. In: Kershner JL, Williams JE, Gresswell RE, Lobón-Cerviá J (eds) Trout and char of the world. American Fisheries Society, Bethesda, MD, pp 95–140
Wootton RJ (1998) Ecology of teleost fishes, 2nd edn. Kluwer Academic, Dordrecht
Young KA, Gaskell P, Jacklin T, Williams JE (2018) Brown trout management for the 21st century. In: Lobón-Cerviá J, Sanz N (eds) Brown trout: biology, ecology and management. Wiley, Hoboken, NJ, pp 735–769
Acknowledgments
I thank the Norwegian Research Council for financial support over the years. In addition, I will in particular acknowledge Esben Moland Olsen and Dimitar Serbezov who have been intensively involved in the study of this population. Further, also want thank the large number of graduate students that have participated in the fieldwork. Thanks also to Robert Gresswell and two reviewers for numerous very useful comments and suggestions.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2024 This is a U.S. government work and not under copyright protection in the U.S.; foreign copyright protection may apply
About this chapter
Cite this chapter
Vøllestad, L.A. (2024). Environmental Determinants of Spawning Location, and Density and Size of Age-0 Brown Trout Salmo trutta in a Small Boreal Stream. In: Lobon-Cervia, J., Budy, P., Gresswell, R. (eds) Advances in the Ecology of Stream-Dwelling Salmonids. Fish & Fisheries Series, vol 44. Springer, Cham. https://doi.org/10.1007/978-3-031-44389-3_3
Download citation
DOI: https://doi.org/10.1007/978-3-031-44389-3_3
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-031-44388-6
Online ISBN: 978-3-031-44389-3
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)