Acronym BALTGENE
Category
Fisheries
Title Baltic Sea Genetic Biodiversity Programme BONUS
Instrument (FP6)
Contact Type (FP7)
Strand (Interreg)
NA
Theme (FP7)
Activity Area (FP6)
Regional Area (Interreg)
Action (COST)
NA
Specific Programme (FP7)
NA
Funding source National-European Coordinator Kerstin Johannesson Coordinator email kerstin.johannesson@marecol.gu.se
Coordinator institution
UGOT - University of Gothenburg (Sweden)
Institutions involved
IOPAS - Institute of Oceanology, Polish Academy of Sciences (Poland) ,
LTU - Luleå University of Technology (Sweden) ,
RAS - Russian Academy of Sciences (Russian Federation) ,
NA - Stockholm University (Sweden) ,
UH - University of Helsinki (Finland) ,
UTU - University of Turku (Finland) ,
Start year 2009 End year 2011 Funding (€) € 1,565,419 Website https://www.bonusportal.org/about_us/history/bonus_2009-2011/bonus_projects/baltgene Summary Biodiversity is indispensable to ecosystem production of goods and services and provides the basis for marine fisheries, recreation and tourism. Biodiversity management has thus far mostly focused on species-level biodiversity, but new research suggests genetic biodiversity is equally important. This seems particularly likely for the species-poor Baltic Sea in which populations of key ecosystem species are known to be genetically unique in many cases. The BaltGene project will identify and map Baltic Sea genetic biodiversity and experimentally test its importance to the functioning and the resilience of the ecosystem. BaltGene will also assess the potential threats to the unique diversity from fisheries, climate changes, aquaculture activities and habitat loss. Fisheries-induced selection is a serious threat that might lead to lower fish production if management does not take the demographic and genetic structure of fish populations into account. Genetic biodiversity is directly proportional to the capacity of organisms to evolve and adapt to new environmental conditions, and critical issues are how, and if, Baltic organisms will respond to scenarios of decreased salinity and changed oceanic currents. BaltGene will also assess how current governance structure, policies and laws affect key genetic biodiversity, and following this, investigate possible new ways to incorporate genetic biodiversity information into an ecosystem-based management of the Baltic Sea.
Keywords
Environmental impact;
Climate change;
Ecosystem approach;
Biodiversity;
Genetic;
Policy;
Impacts;
Marine Region
18
West of Gotland (27.IIId.27)
14
Skagerrak, Kattegat (27.IIIa)
24
Sound, Belt Sea or Transition Area (27.IIIb,c)
23
Baltic West of Bornholm (27.IIId.24)
22
Southern Central Baltic-West (27.IIId.25)
5
Marine Region Map
