Suvi Kiviluoto scite author profile

Suvi Kiviluoto

2Publications

5Citation Statements Received

37Citation Statements Given

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Finnish Environment Institute, Centres for Economic Development, Transport and the Environment

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Sympatric occurrence of three leaf beetle species ofMacropleaSamouelle, 1819 (Coleoptera, Chrysomelidae, Donaciinae) in Finland with a key to species in Northern Europe

et al. 2018

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Macroplea Samouelle, 1819 is the only known fully aquatic leaf beetle genus with three European species that have earlier been classified by their assumed water salinity preferences. We studied the inter-and intraspecific variation of the specimens living in Northern Europe using both molecular (cytochrome c oxidase subunit I, COI) and morphological evidence. The variation in the COI sequences between M. mutica (Fabricius, 1792) and M. pubipennis (Reuter, 1875) was 8.4-9%, M. mutica and M. appendiculata (Panzer, 1794) 3.9-4.9% and M. appendiculata and M. pubipennis 8.8-9.2%. All three species were sampled together in the Bothnian Sea on the same water plants, showing that neither salinity nor plant species bear a decisive importance in their occurrence in the region. Phylogenetic results suggest the existence of two currently unknown Macroplea species that are evolutionarily close to M. appendiculata. A key to the Nordic species is provided.

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Ferromanganese concretion bottoms as habitats and a renewable resource in the Baltic Sea

Kotilainen¹,

Kaskela²,

Alanen³

et al. 2017

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Ferromanganese (FeMn) concretions, also called FeMn nodules or polymetallic nodules, are iron-manganese-rich mineral precipitates on the seabed. Those concretions are found in deep waters (e.g. the Pacific Ocean) but also in shallow seas like in the Baltic Sea. FeMn concretions are formed on the seabed by natural geochemical processes, catalyzed by micro-organisms, e.g. archaea and bacteria. These supposedly renewable resources, FeMn deposits, have well known economic importance. They contain the high concentrations of iron, manganese, phosphorous but also rare earth elements and environmental pollutants. However their role e.g. in the internal loading of nutrients and their ecological significance is still relatively poorly known. Here we present FeMn concretion data from the Finnish waters of the Baltic Sea. The data has been collected over the past decades in the national marine geological mapping program of the Geological Survey of Finland (GTK) (1984-2016) and in the Finnish Inventory Program for the Underwater Marine Environment (VELMU) (2005-2015). The data include nodule observations from nearly 300 sediment samples (e.g. box corer and van Veen grab samples), 7000 video observations/points and over 70 scuba dives. Different types of FeMn -concretions (e.g. spheroidal, discoidal, irregular and crusts/plates) were found at the seafloor with water depths between 1-75 metres. Also the size of the concretions varied from small millimetre scale spheroidal nodules to large metre scale plates. FeMn concretions occurred in all studied sea areas, from the eastern Gulf of Finland, up north to the Bothnian Bay. However, concretion fields/sites that form a HELCOM HUB-class "Baltic bottoms with at least 90% coverage of FeMn concretions" type habitat occurred only in the Gulf of Finland and the Archipelago Sea. Sediment sample data show that FeMn concretions (1-3 cm thick layer) often cover silty clay (glacial and postglacial) seabed substrates. FeMn concretions increase the microscale seabed heterogeneity (geodiversity) by forming relatively hard substrate on the predominantly soft seafloor sediment. Concretions provide a 3D environment and hard physical structures, and support benthic communities, probably increasing biodiversity. In addition, concretion fields and crusts can protect the seafloor from erosion by near-bottom currents. It is likely that these mineral deposits occurring in the Baltic Sea form an EU Habitats Directive habitat 'Biogenic reef', of which a representative part should be protected according to EU legislation. Ferromanganese concretions could also provide future mineral potential. However, the sustainable utilization of these marine resources and the need for marine environment protection pose great challenges for the development of ecosystem-based maritime spatial planning processes and efficient Blue Growth. This work is a part of the SmartSea project that is funded by the Strategic Research Council of the Academy of Finland, grant No: 292 985, and the assessment of marine habitat types (LuTU-Itämeri) that will be carried out 2016-2017 in a group of national experts from the universities, research institutes and authorities.

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Suvi Kiviluoto

Sympatric occurrence of three leaf beetle species ofMacropleaSamouelle, 1819 (Coleoptera, Chrysomelidae, Donaciinae) in Finland with a key to species in Northern Europe

Ferromanganese concretion bottoms as habitats and a renewable resource in the Baltic Sea

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