The physiological basis of the migration continuum in brown trout ( Salmo trutta)

Mikkel Boel, Kim Aarestrup, Henrik Baktoft, Torben Larsen, Steffen Sondergaard Madsen, Hans Malte, Christian Skov, Jon Christian Svendsen, Anders Koed

Research output: Contribution to journalJournal articleResearchpeer-review

Abstract

Partial migration is common in many animal taxa; however, the physiological variation underpinning migration strategies remains poorly understood. Among salmonid fishes, brown trout (Salmo trutta) is one of the species that exhibits the most complex variation in sympatric migration strategies, expressed as a migration continuum, ranging from residency to anadromy. In looking at brown trout, our objective with this study was to test the hypothesis that variation in migration strategies is underpinned by physiological variation. Prior to migration, physiological samples were taken from fish in the stream and then released at the capture site. Using telemetry, we subsequently classified fish as resident, short-distance migrants (potamodromous), or long-distance migrants (potentially anadromous). Our results revealed that fish belonging to the resident strategy differed from those exhibiting any of the two migratory strategies. Gill Na,K-ATPase activity, condition factor, and indicators of nutritional status suggested that trout from the two migratory strategies were smoltified and energetically depleted before leaving the stream, compared to those in the resident strategy. The trout belonging to the two migratory strategies were generally similar; however, lower triacylglycerides levels in the short-distance migrants indicated that they were more lipid depleted prior to migration compared with the long-distance migrants. In the context of migration cost, we suggest that additional lipid depletion makes migrants more inclined to terminate migration at the first given feeding opportunity, whereas individuals that are less lipid depleted will migrate farther. Collectively, our data suggest that the energetic state of individual fish provides a possible mechanism underpinning the migration continuum in brown trout.
Original languageEnglish
JournalPhysiological and Biochemical Zoology
Volume87
Issue number2
Pages (from-to)334-345
ISSN1522-2152
DOIs
Publication statusPublished - 2014

Keywords

  • Animal Migration
  • Animal Nutritional Physiological Phenomena
  • Animals
  • Body Composition
  • Denmark
  • Energy Metabolism
  • Nutritional Status
  • Rivers
  • Trout
  • enzyme activity
  • migration continuum
  • partial migration
  • physiological basis
  • physiological variation
  • Pisces Vertebrata Chordata Animalia (Animals, Chordates, Fish, Nonhuman Vertebrates, Vertebrates) - Osteichthyes [85206] Salmo trutta species brown trout common
  • ATPase 9000-83-3
  • potassium 7440-09-7
  • sodium 7440-23-5
  • triacylglyceride
  • 10069, Biochemistry studies - Minerals
  • 10802, Enzymes - General and comparative studies: coenzymes
  • 16004, Respiratory system - Physiology and biochemistry
  • Biochemistry and Molecular Biophysics
  • Respiration
  • gill respiratory system
  • Enzymology
  • Respiratory System
  • PHYSIOLOGY
  • ZOOLOGY
  • JUVENILE ATLANTIC SALMON
  • PARR-SMOLT TRANSFORMATION
  • LIFE-HISTORY VARIATION
  • CHAR SALVELINUS-ALPINUS
  • LIPID-METABOLISM
  • ARCTIC CHARR
  • NA+,K+-ATPASE ACTIVITY
  • SEASONAL-VARIATIONS
  • STEELHEAD TROUT
  • NORTHERN NORWAY

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