Importance of plasticity and local adaptation for coping with changing salinity in coastal areas: a test case with barnacles in the Baltic Sea
Artikel i vetenskaplig tidskrift, 2014

Background: Salinity plays an important role in shaping coastal marine communities. Near-future climate predictions indicate that salinity will decrease in many shallow coastal areas due to increased precipitation; however, few studies have addressed this issue. The ability of ecosystems to cope with future changes will depend on species’ capacities to acclimatise or adapt to new environmental conditions. Here, we investigated the effects of a strong salinity gradient (the Baltic Sea system – Baltic, Kattegat, Skagerrak) on plasticity and adaptations in the euryhaline barnacle Balanus improvisus. We used a common-garden approach, where multiple batches of newly settled barnacles from each of three different geographical areas along the Skagerrak-Baltic salinity gradient were exposed to corresponding native salinities (6, 15 and 30 PSU), and phenotypic traits including mortality, growth, shell strength, condition index and reproductive maturity were recorded. Results We found that B. improvisus was highly euryhaline, but had highest growth and reproductive maturity at intermediate salinities. We also found that low salinity had negative effects on other fitness-related traits including initial growth and shell strength, although mortality was also lowest in low salinity. Overall, differences between populations in most measured traits were weak, indicating little local adaptation to salinity. Nonetheless, we observed some population-specific responses – notably that populations from high salinity grew stronger shells in their native salinity compared to the other populations, possibly indicating adaptation to differences in local predation pressure. Conclusions Our study shows that B. improvisus is an example of a true brackish-water species, and that plastic responses are more likely than evolutionary tracking in coping with future changes in coastal salinity.

Författare

Anna-Lisa Wrange

Göteborgs universitet

Carl André

Göteborgs universitet

Torbjörn Lundh

Göteborgs universitet

Chalmers, Matematiska vetenskaper, Matematik

Ulrika Lind

Göteborgs universitet

Anders Blomberg

Göteborgs universitet

Per R. Jonsson

Göteborgs universitet

Jonathan N. Havenhand

Göteborgs universitet

BMC Evolutionary Biology

1471-2148 (ISSN)

Vol. 14 Art. no. 156- 156

Ämneskategorier

Evolutionsbiologi

Ekologi

Zoologi

DOI

10.1186/1471-2148-14-156