Indications of garfish Belone belone reproducing in Southern Finland

Juvenile of garfish Belone belone (Belonidae) were caught during two separate field courses held at the Archipelago Research Institute of University of Turku and at the Husö Biological Station of Åbo Akademi University respectively in 2019

Template for using biological trait groupings when exploring large-scale variation in seafloor multifunctionality

Understanding large-scale spatial variation in ecosystem properties and associated functionality is key for successful conservation of ecosystems. This study provides a template for how to estimate differences in ecosystem functionality over large spatial scales by using groupings of biological traits. We focus on trait groupings that describe three important benthic ecosystem properties, namely bioturbation, community stability, and juvenile dispersal. Recognizing that groups of traits interact and are constrained within an organism, we statistically define important functional trait subgroups that describe each ecosystem property. The sub-groups are scored according to their weighted ecological impact to gain an overall estimation of the cumulative expression of each ecosystem property at individual sites. Furthermore, by assigning each property a value relative to its observed maximum, and by summing up the individual property values, we offer an estimate of benthic ecosystem multifunctionality. Based on a spatially extensive benthic data set, we were able to identify coastal areas with high and low potential for the considered benthic ecosystem properties and the measure of ecosystem multifunctionality. Importantly, we show that a large part of the spatial variation in functional trait sub-groups and in benthic ecosystem multifunctionality was explained by environmental change. Our results indicate that through this simplification it is possible to estimate the functionality of the seafloor. Such information is vital in marine spatial planning efforts striving to balance the utilization with the preservation of natural resources.Peer reviewe

Testing the Potential for Predictive Modeling and Mapping and Extending Its Use as a Tool for Evaluating Management Scenarios and Economic Valuation in the Baltic Sea (PREHAB)

Peer reviewe

Large-scale long-term passive-acoustic monitoring reveals spatio-temporal activity patterns of boreal bats

The distribution ranges and spatio-temporal patterns in the occurrence and activity of boreal bats are yet largely unknown due to their cryptic lifestyle and lack of suitable and efficient study methods. We approached the issue by establishing a permanent passive-acoustic sampling setup spanning the area of Finland to gain an understanding on how latitude affects bat species composition and activity patterns in northern Europe. The recorded bat calls were semi-automatically identified for three target taxa; Myotis spp., Eptesicus nilssonii or Pipistrellus nathusii and the seasonal activity patterns were modeled for each taxa across the seven sampling years (2015-2021). We found an increase in activity since 2015 for E. nilssonii and Myotis spp. For E. nilssonii and Myotis spp. we found significant latitude -dependent seasonal activity patterns, where seasonal variation in patterns appeared stronger in the north. Over the years, activity of P. nathusii increased during activity peak in June and late season but decreased in mid season. We found the passive-acoustic monitoring network to be an effective and cost-efficient method for gathering bat activity data to analyze spatio-temporal patterns. Long-term data on the composition and dynamics of bat communities facilitates better estimates of abundances and population trend directions for conservation purposes and predicting the effects of climate change

Essential coastal habitats for fish in the Baltic Sea

Many coastal and offshore fish species are highly dependent on specific habitat types for population maintenance. In the Baltic Sea, shallow productive habitats in the coastal zone such as wetlands, vegetated flads/lagoons and sheltered bays as well as more exposed rocky and sandy areas are utilized by fish across many life history stages including spawning, juvenile development, feeding and migration. Although there is general consensus about the critical importance of these essential fish habitats (EFH) for fish production along the coast, direct quantitative evidence for their specific roles in population growth and maintenance is still scarce. Nevertheless, for some coastal species, indirect evidence exists, and in many cases, sufficient data are also available to carry out further quantitative analyses. As coastal EFH in the Baltic Sea are often found in areas that are highly utilized and valued by humans, they are subjected to many different pressures. While cumulative pressures, such as eutrophication, coastal construction and development, climate change, invasive species and fisheries, impact fish in coastal areas, the conservation coverage for EFH in these areas remains poor. This is mainly due to the fact that historically, fisheries management and nature conservation are not integrated neither in research nor in management in Baltic Sea countries. Setting joint objectives for fisheries management and nature conservation would hence be pivotal for improved protection of EFH in the Baltic Sea. To properly inform management, improvements in the development of monitoring strategies and mapping methodology for EFH are also needed. Stronger international cooperation between Baltic Sea states will facilitate improved management outcomes across ecologically arbitrary boundaries. This is especially important for successful implementation of international agreements and legislative directives such as the Baltic Sea Action Plan, the Marine Strategy Framework Directive, the Habitats Directive, and the Maritime Spatial Planning Directive, but also for improving the communication of information related to coastal EFH among researchers, stakeholders, managers and decision makers. In this paper, efforts are made to characterize coastal EFH in the Baltic Sea, their importance and the threats/pressures they face, as well as their current conservation status, while highlighting knowledge gaps and outlining perspectives for future work in an ecosystem-based management framework. (C) 2018 Elsevier Ltd. All rights reserved.Peer reviewe

Monitoring of ticks and tick-borne pathogens through a nationwide research station network in Finland

In 2015 a long-term, nationwide tick and tick-borne pathogen (TBP) monitoring project was started by the Finnish Tick Project and the Finnish Research Station network (RESTAT), with the goal of producing temporally and geographically extensive data regarding exophilic ticks in Finland. In the current study, we present results from the first four years of this collaboration. Ticks were collected by cloth dragging from 11 research stations across Finland in May September 2015-2018 (2012-2018 in Seili). Collected ticks were screened for twelve different pathogens by qPCR: Borrelia afzelii, Borrelia garinii, Borrelia valaisiana, Borrelia burgdorferi sensu stricto, Borrelia miyamotoi, Babesia spp., Anaplasma phagocytophilum, Rickettsia spp., Candidatus Neoehrlichia mikurensis, Francisella tularensis, Bartonella spp. and tick-borne encephalitis virus (TBEV). Altogether 15 067 Ixodes ricinus and 46 Ixodes persulcatus were collected during 68 km of dragging. Field collections revealed different seasonal activity patterns for the two species. The activity of I. persulcatus adults (only one nymph detected) was unimodal, with activity only in May July, whereas Ixodes ricinus was active from May to September, with activity peaks in September (nymphs) or July August (adults). Overall, tick densities were higher during the latter years of the study. Borrelia burgdorferi sensu lato were the most common pathogens detected, with 48.9 +/- 8.4% (95% Cl) of adults and 25.3 +/- 4.4% of nymphs carrying the bacteria. No samples positive for F. tularensis, Bartonella or TBEV were detected. This collaboration project involving the extensive Finnish Research Station network has ensured enduring and spatially extensive, long-term tick data collection to the foreseeable future.Peer reviewe

Fiskaren och fisken

Fiskaren och fisken Innehållsförteckning – Inledaren: Ett försvinnande kulturarv av Pia Prost – Välmående skärgård tack vare strömmingen av Anne Bergström – Vinternotdragningen – sörjd, saknad av Nina Söderlund – Nationella och internationella bestämmelser kring fiske av Kaj Mattsson – 130 år av fiskerirådgivning av Malin Lönnroth – Sista Sibbofiskaren satsar på förädling av Thure Malmberg – Fisket i Skärgårdshavet i konstant förändring av Pekka Salmi, Kristina Svels och Jari Setälä – Ett arbetsliv i fiskenäringens tjänst – Kari Ranta-aho går i pension av Pia Prost – Inhemskt fiskfoder bra för både fiskerinäringen och havet av Pia Prost – Vasa fick sitt Fiskets hus av Guy Svanbäck – Förlorar vi en primärnäring? av Kaj Mattsson – Konkurrens om fisken – människa, säl och skarv av Sture Hansson – Allt hänger på en god fiskeförvaltning av Cecilia Lundberg – Aktuell fiskforskning vid Åbo Akademi av Martin Snickars och Tom Wiklund – Historiska hamnplatser och fiskelägen kartläggs av Tapani Tuovinen och Riikka Tevali – Gråsälen är kustfiskets gissel av Mia Henriksson – Hur uppfattar fiskarna sin omvärld? av Marina Saanila Bokhörnan: – Gäddan, Nordens krokodil av Nalle Valtiala – Ålevangeliet: berättelsen om världens mest gåtfulla fisk av Cecilia Lundberg – Är Åland skärgårdssamhällenas paradis? av John Wrede – Skärgården diskuterade FN:s hållbarhetsmål av Pia Prost – Skärinytt – Sista bilde

Monitoring of ticks and tick-borne pathogens through a nationwide research station network in Finland

In 2015 a long-term, nationwide tick and tick-borne pathogen (TBP) monitoring project was started by the Finnish Tick Project and the Finnish Research Station network (RESTAT), with the goal of producing temporally and geographically extensive data regarding exophilic ticks in Finland. In the current study, we present results from the first four years of this collaboration. Ticks were collected by cloth dragging from 11 research stations across Finland in May–September 2015–2018 (2012–2018 in Seili). Collected ticks were screened for twelve different pathogens by qPCR: Borrelia afzelii, Borrelia garinii, Borrelia valaisiana, Borrelia burgdorferi sensu stricto, Borrelia miyamotoi, Babesia spp., Anaplasma phagocytophilum, Rickettsia spp., Candidatus Neoehrlichia mikurensis, Francisella tularensis, Bartonella spp. and tick-borne encephalitis virus (TBEV). Altogether 15 067 Ixodes ricinus and 46 Ixodes persulcatus were collected during 68 km of dragging. Field collections revealed different seasonal activity patterns for the two species. The activity of I. persulcatus adults (only one nymph detected) was unimodal, with activity only in May–July, whereas Ixodes ricinus was active from May to September, with activity peaks in September (nymphs) or July–August (adults). Overall, tick densities were higher during the latter years of the study. Borrelia burgdorferi sensu lato were the most common pathogens detected, with 48.9 ± 8.4% (95% Cl) of adults and 25.3 ± 4.4% of nymphs carrying the bacteria. No samples positive for F. tularensis, Bartonella or TBEV were detected. This collaboration project involving the extensive Finnish Research Station network has ensured enduring and spatially extensive, long-term tick data collection to the foreseeable future

Pohjoisen Itämeren vedenalainen luonto : Asioita, jotka tulee ottaa huomioon rannikko- ja merialueiden suunnittelussa)

Undervattensmiljön i skärgårdarna och de kustnära områdena i norra Östersjön är mångformiga och produktiva. Arternas levnadsmil-jöer styrs bl.a. av bottentyp, exponeringsgrad och ljustillgång. Kunskap och information om undervattensarterna är av stor vikt för en hållbar planering av kust- och havsmiljön. Denna rapport beskriver indelningen av de viktigaste undervattenshabitaten i norra Östersjöns kustvatten samt hur ett naturvärde på dessa miljöer kan uppskattas på basen av de olika ekologiska funktioner som habitatet uppfyller. De mest inflytelserika mänskliga hoten, både små- och storskaliga, som allvarligt kan hota habitatens fortbestånd behandlas också. Habitaten som beskrivs är både av typen hårdbotten och mjukbotten. Hårdbottenssamhällena bildar distinkta bälten från ytan mot bott-nen: trådalgszonen, zonen med stora fleråriga brunalger (Fucus vesiculosus, F. radicans), rödalgszonen och blåmusselzonen (Mytilus edulis/trossulus). Mjukbottensamhällena är uppbyggda kring ålgräs (Zostera marina), andra vattenlevande kärlväxter eller kransalger. En stor del av både de grunda och djupa mjukbottnarna saknar vegetation och samhällena struktureras då av ryggradslösa djur i och på sedi-mentytan. Habitaten har klassificerats och värderats enligt en tvåstegsmodell. Först har habitaten namngivits efter den dominerande arten eller artgruppen som bestämts enligt täckningsgrad. Därefter har varje habitat getts ett värde enligt sin ekologiska betydelse. Naturvärdet är indelat i skalan 1-5. Projektet NANNUT – The Nature and Nurture in the Northern Baltic Sea – har gjort inventeringar av undervattensmiljön på olika håll av kusterna och skärgårdarna i Finland 2010-2011. Målsättningen har varit att utveckla enkla och kostnadseffektiva metoder både för kartering och värdering av undervattenshabitat. Det huvudsakliga undersökningsområdet var förlagt till Raseborgsstad i södra Finland.Saaristojen ja rannikkoalueiden vedenalainen luonto pohjoisella Itämerellä on monimuotoista ja tuottavaa. Lajien elinympäristöjen erilaisuutta säätelee mm. pohjan laatu, avoimuus ja valonsaanti. Vedenalaislajiston tuntemus on hyvin tärkeää kestävässä rannikko- ja merialueiden suunnittelussa. Tämä raportti kuvailee tärkeimpien pohjoisen Itämeren rannikkovesien vedenalaiselinympäristöjen jaottelun sekä miten näiden ympäristöjen luontoarvoa voidaan luokitella kyseisen ympäristön ekologisten toimintojen perusteella. Myös elinympäristöjen säilymistä uhkaavat ihmisen aiheuttamat laajat ja pienemmät uhat esitellään raportissa. Kuvaillut elinympäristöt edustavat sekä pehmeän että kovan pohjan vedenalaisluontoa. Kovan pohjan elinympäristöt muodosta-vat erillisiä vyöhykkeitä mentäessä meren pinnasta pohjaan: rihmälevävyöhyke, monivuotisten, suurien ruskolevien vyöhyke (Fucus vesiculosus, F. radicans), punalevävyöhyke ja sinisimpukkavyöhyke (Mytilus edulis/trossulus). Kuvaillut pehmeän pohjan elinympäris-töt rakentuvat meriajokkaan (Zostera marina), muiden vedessä elävien putkilokasvien tai näkinpartaislevien ympärille. Suuressa osassa sekä matalista että syvistä pehmeistä pohjista ei ole ollenkaan kasvillisuutta ja silloin eliöyhteiskunnan muodostaa hieno-aineksen päällä ja sisällä elävät selkärangattomat eläimet. Elinympäristöt on luokiteltu ja arvotettu kaksiportaisen mallin mukaan. Ensin elinympäristö on nimetty peittävyyden perusteella vallitsevan lajin tai lajiryhmän mukaan. Tämän jälkeen jokaisella elinympäristölle annettiin arvo sen ekologisen tärkeyden perusteella. Luontoarvot on luokiteltu asteikolla 1-5. NANNUT-hanke (The Nature and Nurture in the Northern Baltic Sea) on tehnyt vedenalaiskartoituksia eri puolilla Suomen rannik-koa ja saaristossa vuosina 2010–2011. Tavoitteena on ollut kehittää yksinkertaisia ja kustannustehokkaita menetelmiä sekä ve-denalaisluonnon kartoittamiseen että sen arvottamiseen. Pääasiallinen tutkimusalue sijaitsi Raaseporin kunnan alueella Etelä-Suomessa