Journal Article
Phenotypic plasticity and genetic differentiation drive troglomorphic character development in European cave loach
Behrmann-Godel, J., Roch, S., Böhm, A., Jolles, J. and Brinker, A.
Record Number:
6100
Year:
2023
Journal:
bioRxiv preprint February 22 2023
Pages:
1-28
Notes:
The copyright holder for this preprint (which was not certified by peer review) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. It is made available under aCC-BY-NC 4.0 International license
Abstract:
Using a cross-fostering experiment, we provide evidence for the contribution of both genetic differentiation and phenotypic plasticity to troglomorphic character development in the recently discovered cave form of Barbatula barbatula, an evolutionarily young lineage and first cavefish described in Europe, the northernmost record. We established reproducing populations of cave- and surface-dwelling loaches to produce cave, surface, and hybrid offspring and reared the F1 fish in a common garden setting in total darkness (DD) to simulate cave conditions as well as under the natural photoperiod (DL). We observed significant differences in the occurrence and extent of typical troglomorphic target characters among the offspring groups. Regardless of rearing conditions, cave fish exhibited smaller eyes, lighter body coloration, longer barbels, and larger olfactory epithelium than seen in surface fish. Hybrids in both rearing conditions generally showed an intermediate level of these traits. Surface and hybrid DD fish differed from the DL groups, resembling the cave fish phenotype in several traits, including eye size and body pigmentation. In contrast, cave and hybrid DL fish groups resembled surface fish phenotypes. Results confirmed that troglomorphic traits arise from heritable genetic differentiation of cave from surface forms and that phenotypic plasticity contributes to the process of adaptation to novel light conditions.
Times Cited:
1
Relevent Species:
Related Records:
Smyly, W.J.P. (1955)
On the biology of the Stone Loach Nemacheilus barbatula (L.)
Bacesu-Mester, L (1967)Contributions to the study of the genus Noemacheilus (Pisces, Cobitidae)
Perrin, J.F. (1980)Structure et functionement des ecosystemes du Haut-Rhone francaise. 14. etude des preferences alimentaire de la loche franche (Noemacheilus barbatulus L.) par une methode des points modifee
Bless, R. (1985)Zur regeneration von Blachen der Agarlandschaft - Eine ichthyologische Fallstudie
Maitland, P.S. and Campbell, R.N. (1992)Freshwater fishes of the British Isles
Hotzl, H (1996)Origin of the Danube-Aach system
Bromidge, N. (2004)Stone loach Barbatula barbatula
Fischer, P. (2004)Nocturnal foraging in the stone loach (Barbatula barbatula): Fixed or environmentally mediated behavior?
Kottelat, M. and Freyhof, J. (2007)Handbook of European freshwater fishes
Behrmann-Godel, J., Nolte, A.W., Kreiselmaier, J., Berka, R. and Freyhof, J. (2017)The first European cave fish
Coghlan, A. (2017)First ever cave fish discovered in Europe evolved super-fast
Behrmann-Godel, J. and Nolte, A.W. (2018)Evolutiv junge europäische Höhlenfische
Freyhof, J. (2022)Barbatula barbatula (Errata version 2019)
Behrmann-Godel, J., Roch, S., Böhm, A., Jolles, J. and Brinker, A. (2023)Phenotypic plasticity and genetic differentiation drive troglomorphic character development in European cave loach
Jolles, J.W., Böhm, A., Brinker, A. and Behrmann-Godel, J. (2024)Unravelling the origins of boldness behaviour: a common garden experiment with cavefish (Barbatula barbatula)
Behrmann-Godel, J., Roch, S., Böhm, A., Jolles, J.W. and Brinker, A. (2024)Genetic differentiation and phenotypic plasticity drive troglomorphic character development in European cavefish
Kleinschmidt, Y., Ros, A., Behrmann-Godel, J. and Brinker, A. (2024)Navigation in the dark: early behavioural adaptation of Europe's only native cave fish