Zusammenfassung der Projektergebnisse

Understanding the mechanisms that drive and maintain population divergence, evolutionary branching and potential speciation is a fundamental challenge for evolutionary theory. In the marine environment, isolation of populations caused by geographic barriers alone cannot explain high speciation rates and biodiversity. In this project we show that incipient speciation can be observed in adjacent reef habitats. Analyzing the cardinalfish Ostorhinchus doederleini over ten generations at the Capricorn- Bunker group in the Great Barrier Reef (GBR), Australia, we detected five phenotypically indistinguishable clades that can be considered incipient species. Sequence data of two mitochondrial gene fragments as well as microsatellite markers indicated almost complete genetic isolation, although rare interbreeding between some clades could be observed. Surprisingly, partial habitat overlap could be observed between clade 1 and 2 at reef slopes which were found within the same cave (<1 m3). Apparently recognition processes avoid intermingling. In behavioral experiments we could show that individuals of different clades can recognize each other based on visual as well as olfactory cues. Since our age determination based on otolith analysis showed that O. doederleini become only one year old the relative stable population structure at reefs over years indicate some selfrecruitment. Genetically we could show that 60 % of settling larvae originated from the reefs where they intended to settle. To understand successful self-recruitment, we studied sensory capabilities of settling larvae that might guide them back to their natal reef. We showed evidence for a sun compass mechanism that can bring larvae to the vicinity of their natal reef. In a circular arena, pre-settlement larvae and early settlers (< 24 hours) of the cardinal fish, showed a strong SSE directional swimming response, which most likely has evolved to compensate for the locally prevailing large scale NNW current drift. The suggested sun compass guided swimming response is likely to continue until the larvae recognize the odor halo and/or sound of their natal reef, which present a much larger homing target for returning larvae than the reef itself. The use of a sun compass adds a missing long-distance link to the hierarchy of other sensory abilities that can direct larvae to the region of origin, including their natal reef. Once close to the natal reef we could provide the first in-situ evidence that pelagic reef fish larvae discriminate reef odor and respond by changing their swimming speed and direction. It concludes that reef fish larvae smell the presence of coral reefs from several kilometers offshore and this odor is a primary component of their navigational system and activates other directional sensory cues. Our results help to understand speciation in the marine environment and reveal sensory mechanism involved in orientation and recognition processes that might be key factors in migration not only in coral reefs but in many marine organisms. • Geruchssinn und Sonnenkompass: Wie Fische ihren Weg finden, PRESSE & KOMMUNIKATION Uni Oldenburg, Juni 2013; die Meldung wurde von zahlreichen deutschen Zeitungen aufgegriffen • Kommunikation unter Wasser: Fische können sich gut riechen, Nolte PR, IVH-PD, Nr.: 17_18/12

Projektbezogene Publikationen (Auswahl)

• (2013) Olfactory imprinting is triggered by MHC peptide ligands. Scientific Reports
  Hinz C, Namekawa I, Behrmann-Godel J, Oppelt C, Jaeschke A, Müller A, Friedrich RW, Gerlach G
  (Siehe online unter https://doi.org/10.1038/srep02800)
• (2008) Dispersal in the spiny damselfish, Acanthochromis polyacanthus, a coral reef fish species without a larval pelagic stage. Molecular Ecology 17:5036-5048
  Miller-Sims VC, Gerlach G, Kingsford MJ, Atema J
  
• (2008) Kin recognition in zebrafish: A 24-hour window for olfactory imprinting. Proceedings of the Royal Society, London B 275 2165–2170
  Gerlach G, Hodgins-Davis A, Avolio C, Schunter C
  
• (2010) Calculations of population differentiation based on GST and D: Forget GST but not the statistics! Molecular Ecology 19:3845-3852
  Gerlach G, Jüterbock A, Krämer P, Deppermann J, Harmand P
  
• (2011) Reef odour imprinting: Coral reef fish demonstrate stable olfactory preference for their settlement reef. Marine Freshwater Behavior and Physiology 44:133-141
  Miller-Sims V, Gerlach G, Kingsford MJ, Atema J
  
• (2011) Tactical release of a sexually-selected pheromone in a swordtail fish. Plos One 6(2): e16994
  Rosenthal GG, Fitzsimmons JN, Woods KU, Gerlach G, Fisher HS
  
• (2012) Chemical signals and kin biased behaviour. In:Hansson LA, Brönmark C (eds.) Chemical Ecology in Aquatic Systems. Oxford University Press, pp. 58-71
  Gerlach G, Hinz C
  
• (2012) Influence of kinship and MHC class II genotype on visual traits in zebrafish larvae (Danio rerio). Plos One 7 e51182
  Hinz C, Gebhardt K, Hartmann AK, Sigman L, Gerlach G
  (Siehe online unter https://doi.org/10.1371/journal.pone.0051182)
• (2012) The use of chemical cues in habitat recognition and settlement. In:Hansson LA, Brönmark C (eds.) Chemical Ecology in Aquatic Systems, Oxford University Press, pp. 72-81
  Gerlach G, Atema J
  
• (2013) Kin recognition in zebrafish, Danio rerio, is based on imprinting on olfactory and visual stimuli. Animal Behaviour 85:925-930
  Hinz C, Müller A, Kobbenbring S, Sigman L, Gerlach G
  (Siehe online unter https://doi.org/10.1016/j.anbehav.2013.02.010)
• (2013) Planktonic larval duration, age and growth of Ostorhinchuns doederleini (Pisces: Apogonidae) on the Southern Great Barrier Reef, Australia. Marine Biology 10.1007/s00227-013-2331-4
  Kingsford MJ, Finn MD, O'Callaghan MD, Atema J, Gerlach G
  (Siehe online unter https://doi.org/10.1007/s00227-013-2331-4)
• (2013) Reef Odor: A Wake Up Call for Navigation in Reef Fish Larvae. Plos One 8:e72808
  Paris CB, Atema J, Irisson J-O, Kingsford M, Gerlach G, Guigand CM
  (Siehe online unter https://doi.org/10.1371/journal.pone.0072808)
• (2013) Sun Compass Orientation Helps Coral Reef Fish Larvae Return to Their Natal Reef. Plos One 8: e66039
  Mouritsen H, Atema J, Kingsford MJ, Gerlach G
  (Siehe online unter https://doi.org/10.1371/journal.pone.0066039)