Ecological genetics of inbreeding, outbreeding and immunocompetence in Ranid frogs
Abstract
Using artificial fertilization, I crossed frogs from different populations to evaluate fitness consequences for the offspring from an inbreeding-outbreeding perspective, and to evaluate quantitative genetic effects on immunocompetence against a fungal pathogen (Saprolegnia). Crosses between closely situated populations of different sizes generated contrasting results for the effects of outbreeding on offspring traits between populations and life history stages, emphasizing the importance of epistatic effects and the difficulties of relying on generalizations when making conservation decisions (e.g., regarding translocations). Experimental infection of frog eggs from six populations with Saprolegnia fungus showed a significant family effect on the degree of infection of eggs and embryos, in particular at lower fertilization success and with a significant temperature × population interaction effect. A paternal genetic effect on fungus resistance was found using a half-sib split design. Furthermore, relatively more eggs were infected when fertilized by sperm from the same, in contrast with a different population. However, there was no evidence for a stronger effect in isolated island populations. Although the mechanistic underpinnings remain unknown, these results suggest substantial levels of genetic variation in resistance to Saprolegnia in natural populations within and among populations. We also found that pre-hatching exposure to Saprolegnia dramatically reduced the size at metamorphosis in the absence of further exposure to the fungus, possible as a delayed effect of impaired embryonic development. However, in contrast to some other amphibians, induced hatching in response to Saprolegnia could not be confirmed. In conclusion, the results suggest that frog populations are genetically diverse even at small geographic scale with frequently strong and unpredictable consequences of in- and outbreeding for the response to stressors.
Parts of work
I Sagvik, J., Uller, T. & Olsson, M. 2005. Outbreeding depression in the Common frog, Rana temporaria. Conservation Genetics. 6: 205-211.::doi::10.1007/s10592-004-7829-3 II Uller, T., Sagvik, J. & Olsson, M. 2006. Crosses between frog populations reveal genetic divergence in larval life history at short geographic distance. Biological Journal of the Linnean Society. 89: 189-195.::doi::10.1111/j.1095-8312.2006.00673.x III Sagvik, J., Uller, T., Stenlund, T. & Olsson, M. 2008. Intraspecific variation in resistance of frog eggs to fungal infection. Evolutionary Ecology. 22: 193-201.::doi::10.1007/s10682-007-9168-6 IV Sagvik, J., Uller, T. & Olsson, M. 2008. A genetic component of resistance to fungal infection in frog embryos. Proceedings of the Royal Society of London, B. 275: 1393-1396.::doi::10.1098/rspb.2008.0078 V Uller, T., Sagvik, J. & Olsson, M. Pre-hatching exposure to water mold reduces size at metamorphosis in the moor frog. Submitted
Degree
Doctor of Philosophy
University
University of Gothenburg. Faculty of Science
Institution
Department of Zoology ; Zoologiska institutionen
Disputation
Fredagen den 12 december 2008, kl 10.00, Föreläsningssalen, Zoologiska institutionen, Medicinaregatan 18, Göteborg
Date of defence
2008-12-12
jorgen.sagvik@zool.gu.se
Date
2008-11-21Author
Sagvik, Jörgen
Publication type
Doctoral Theses
ISBN
978-91-628-7634-0
Language
eng