Different types of disturbances to the seafloor can affect both the invertebrates inhabiting them and the critical ecosystem functions they provide us (e.g. nutrient cycling, oxygenation, food for fish). Sebastian Valanko working at the Marine Research Centre of the Finnish Environment Institute (SYKE) has together with colleagues investigated dispersal of invertebrates, critical in both the recovery process following a disturbance and in maintaining patterns of diversity on the seafloor. Sebastian's PhD thesis will be defended at 12.00 on Wednesday 19.12.2012 at Åbo Akademi University in Finland. The research project has partly been funded by the Academy of Finland.
Measuring dispersal underwater
Valanko's thesis deals with connectivity, by investigating dispersal strategies and mechanisms of benthic invertebrates. Such knowledge on dispersal is scarce, due to the difficulties in actually measuring dispersal directly in nature, and dispersal has not previously been quantified in the Baltic Sea. Different trap-types were used to capture dispersing invertebrates at different sites, while in parallel measuring waves and currents. This required some 1015 dives by Sebastian and his research team in the archipelago close to Tvärminne Zoological Station, in the south of Finland.
Dispersal is essential for recovery of diversity after disturbance
In one experiment recovery was investigated over a year at several sites. In response to small-scale disturbance, initial recruitment is by nearby-dominant species after which other species will arrive from successively further away. Species also differ in their dispersal potential. In practice, this implies that if only one locality is protected it may not be sufficient to ensure that diversity is maintained. Equally important are the other source locations from which individuals continuously arrive from, and therefore maintaining overall patterns of diversity.
Importance of PhD thesis findings
Sebastian's thesis complements more theoretical studies in ecology in demonstrating that having an understanding of how and when individuals are dispersing relative to underlying environmental heterogeneity is key to interpreting how patterns of diversity change across different spatial scales. Such information from nature is critical when predicting responses to, for example, different types of disturbances or management actions in conservation.
The PhD defence:
- The defense will take place on Wednesday the 19th December at 12 o'clock at Åbo Akademi University in aud. Armfelt, Arken (Tehtaankatu 2, Turku, Finland)
- Examiner will be Professor Paul Snelgrove from Memorial University of Newfoundland, Canada and chairman Professor Erik Bonsdorff, Åbo Akademi University.
For more information:
- Sebastian Valanko, Finnish Environment Institute (SYKE), Marine Research Centre, tel. +358 40 529 6145, sebastian.valanko@ymparisto.fi
- Pictures for the press available at following internet addresses (Photographer Alf Norkko should be mentioned):
- In underwater experiments recovery was investigated by carefully removing plastic sheets that had been laid down on the seafloor killing 1 m2 areas at different sites. Dispersal from surrounding healthy localities is key in the recovery process, which may take as long as 2 years even for these small-sized disturbances. http://web.abo.fi/pressmaterial/Sebastian_Valanko_experiment_plastic.jpg
- A dead seafloor after plastic sheets were removed, littered with clams that used to inhabit the sediment. http://web.abo.fi/pressmaterial/Sebastian_Valanko_dead_seafloor.jpg
- Dead clam. http://web.abo.fi/pressmaterial/Sebastian_Valanko_dead_seafloor_shell.jpg
- Picture of Sebastian Valanko: http://web.abo.fi/pressmaterial/Sebastian_Valanko.jpg
- The doctoral dissertation electronically: http://www.doria.fi/handle/10024/86172