Your search keyword '"meriekologia"' showing total 15 results

1. Predictable shifts in diversity and ecosystem function in phytoplankton communities along coastal salinity continua

Author

Kalle Olli, Timo Tamminen, Robert Ptacnik, Suomen ympäristökeskus, and The Finnish Environment Institute

Subjects

plankton, eliöyhteisöt, levät, Chesapeakenlahti, Aquatic Science, Oceanography, diversiteetti, ekologia, suolapitoisuus, ekosysteemit (ekologia), toiminta, Itämeri, rannikot, meriekologia, kasviplankton, meret

Abstract

Salinity is a major environmental predictor of phytoplankton species richness and composition. We hypothesize that the variation in phytoplankton richness along coastal salinity gradients is reflected in essential ecosystem functions like resource use efficiency (RUE)—the proportion of limiting resource that is converted into biomass. To test the hypothesis, we analyzed time series of phytoplankton and environmental variables from the Chesapeake Bay and the Baltic Sea. We analyzed the relationship among salinity, diversity, and RUE in bivariate and interaction association, and in structural equation model (SEM)—a form of path analysis to resolve multivariate relationships among interrelated variables. We concluded that the intrusion of marine water will lead to rapid change in species diversity on the fresh side. Despite diversity drop, individual community functions, like RUE, remain relatively resilient, reflecting functional redundancy. We propose that the salinity gradient also reflects trophic complexity, allowing stable resource use at reduced diversity. Scientific Significance Statement Most functional groups of aquatic organisms have a diversity minimum at intermediate salinity along the coastal and estuarine gradient. As ecosystem functioning scales with biotic diversity, we hypothesized the salinity gradient to be a good predictor of ecosystem functions. We found that phytoplankton resource use efficiency—an essential ecosystem function—was relatively stable along the salinity gradient reflecting functional redundancy, and the salinity effect was mediated by diversity. We suggest that salinity reflects also a gradient in trophic complexity, allowing stable resource use at reduced diversity.

Published

2022

2. Dataset from a mesocosm experiment on brownification in the Baltic Sea

Author

Kristian Spilling, Eero Asmala, Noora Haavisto, Lumi Haraguchi, Kaisa Kraft, Anne-Mari Lehto, Aleksandra Lewandowska, Joanna Norkko, Jonna Piiparinen, Jukka Seppälä, Mari Vanharanta, Anu Vehmaa, Pasi Ylöstalo, Timo Tamminen, Suomen ympäristökeskus, The Finnish Environment Institute, Tvärminne Zoological Station, Biological stations, The Academic Outreach Network, Tvärminne Benthic Ecology Team, Marine Ecosystems Research Group, and Behavioural Ecology - Candolin Research Lab

Subjects

climate changes, coastal seas, runoff, planktonic ekosystem, brownification, meriekologia, 1172 Environmental sciences, Multidisciplinary, HuminFeed, väri, rehevöityminen, plankton, perustuotanto, humus, ilmastonmuutokset, vesien tummuminen, vedenlaatu, murtovesi, fysikaaliset ominaisuudet, merivesi, eutrophication, climate change, 1181 Ecology, evolutionary biology, orgaaninen aines, rannikkovedet, brackish water, primary production

Abstract

Refers to Brownification affects phytoplankton community composition but not primary productivity in eutrophic coastal waters: A mesocosm experiment in the Baltic Sea Science of The Total Environment, Volume 841, 1 October 2022, Pages 156510 Kristian Spilling, Eero Asmala, Noora Haavisto, Lumi Haraguchi, Kaisa Kraft, Anne-Mari Lehto, Aleksandra M. Lewandowska, Joanna Norkko, Jonna Piiparinen, Jukka Seppälä, Mari Vanharanta, Anu Vehmaa, Pasi Ylöstalo, Timo Tamminen Climate change is projected to cause brownification of some coastal seas due to increased runoff of terrestrially derived organic matter. We carried out a mesocosm experiment over 15 days to test the effect of this on the planktonic ecosystem. The experiment was set up in 2.2 m3 plastic bags moored outside the Tvärminne Zoological Station at the SW coast of Finland. We used four treatments, each with three replicates: control (Contr) without any manipulation; addition of a commercially available organic carbon additive called HuminFeed (Hum; 2 mg L−1); addition of inorganic nutrients (Nutr; 5.7 µM NH4 and 0.65µM PO4); and a final treatment of combined Nutr and Hum (Nutr+Hum) additions. Water samples were taken daily, and measured variables included water transparency, organic and inorganic nutrient pools, chlorophyll a (Chla), primary and bacterial production and particle counts by flow cytometry.

Published

2022

3. Virus-Host Interactions and Genetic Diversity of Antarctic Sea Ice Bacteriophages

Author

Anne-Mari Luhtanen, Hanna Oksanen, Tatiana Demina, Simon Roux, Jansson, Janet K, Suomen ympäristökeskus, The Finnish Environment Institute, Department of Microbiology, Helsinki Institute of Sustainability Science (HELSUS), Molecular and Integrative Biosciences Research Programme, and Molecular Principles of Viruses

Subjects

DYNAMICS, BACTERIAL, virukset, Range (biology), viruses, Antarctic sea ice, Genome, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Bacteriophages, Ice Cover, mikrobit, Aetiology, meriekologia, SOUTHERN-OCEAN, TEMPERATURE, 11832 Microbiology and virology, 0303 health sciences, geography.geographical_feature_category, Ecology, sea ice, GENOME, Infectious Diseases, Virion assembly, MICROBIAL ECOLOGY, antarktinen alue, Infection, PSEUDOMONAS-FLUORESCENS, Antarctic Regions, Biology, COLD-ACTIVE BACTERIOPHAGE, SEQUENCE, Microbiology, 03 medical and health sciences, Virology, infection cycle, Sea ice, Genetics, Seawater, 14. Life underwater, 030304 developmental biology, geography, Genetic diversity, metagenomics, IDENTIFICATION, Host Microbial Interactions, 030306 microbiology, Host (biology), Antarctic virus, Genetic Variation, mikrobiekologia, virus genome, Metagenomics, merijää, human activities

Abstract

Very little is known about sea ice microbes despite the significant role played by sea ice in the global oceans as well as microbial input into biogeochemical cycling. Studies on the sea ice viruses have been typically limited to -omics-based approaches and microscopic examinations of sea ice samples. Although we know the generally appreciated significant roles of microbes in sea ice and polar waters, detailed studies of virus-host systems from such environments have been so far limited by only a few available isolates. Here, we investigated infectivity under various conditions, infection cycles, and genetic diversity of the following Antarctic sea ice bacteriophages: Paraglaciecola Antarctic GD virus 1 (PANV1), Paraglaciecola Antarctic JLT virus 2 (PANV2), Octadecabacter Antarctic BD virus 1 (OANV1), and Octadecabacter Antarctic DB virus 2 (OANV2). The phages infect common sea ice bacteria belonging to the genera Paraglaciecola or Octadecabacter. Although the phages are marine and cold-active, replicating at 0 degrees C to 5 degrees C, they all survived temporal incubations at >= 30 degrees C and remained infectious without any salts or supplemented only with magnesium, suggesting a robust virion assembly maintaining integrity under a wide range of conditions. Host recognition in the cold proved to be effective, and the release of progeny viruses occurred as a result of cell lysis. The analysis of viral genome sequences showed that nearly one-half of the gene products of each virus are unique, highlighting that sea ice harbors unexplored virus diversity. Based on predicted genes typical for tailed double-stranded DNA phages, we suggest placing the four studied viruses in the class Caudoviricetes. Searching against viral sequences from metagenomic assemblies, we revealed that related viruses are not restricted to Antarctica but are also found in distant marine environments. IMPORTANCE Very little is known about sea ice microbes despite the significant role played by sea ice in the global oceans as well as microbial input into biogeochemical cycling. Studies on the sea ice viruses have been typically limited to -omics-based approaches and microscopic examinations of sea ice samples. To date, only four cultivable viruses have been isolated from Antarctic sea ice. Our study of these unique isolates advances the understanding of the genetic diversity of viruses in sea ice environments, their interactions with host microbes, and possible links to other biomes. Such information contributes to more accurate future sea ice biogeochemical models.

Published

2022

4. Upwelled plankton community modulates surface bloom succession and nutrient availability in a natural plankton assemblage

Author

Allanah Joy Paul, Lennart Thomas Bach, Javier Arístegui, Elisabeth von der Esch, Nauzet Hernández-Hernández, Jonna Piiparinen, Laura Ramajo, Kristian Spilling, Ulf Riebesell, Suomen ympäristökeskus, and The Finnish Environment Institute

Subjects

Pacific Ocean, fungi, marine ecology, plankton, seas, kumpuaminen, ravinteet, merivesi, nutrients (plants), nutrients, VDP::Matematikk og Naturvitenskap: 400::Geofag: 450, mikrobit, microbes, meriekologia, meret, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes, seawater, Tyyni valtameri

Abstract

Upwelling of nutrient-rich waters into the sunlit surface layer of the ocean supports high primary productivity in eastern boundary upwelling systems (EBUSs). However, subsurface waters contain not only macronutrients (N, P, Si) but also micronutrients, organic matter and seed microbial communities that may modify the response to macronutrient inputs via upwelling. These additional factors are often neglected when investigating upwelling impacts on surface ocean productivity. Here, we investigated how different components of upwelled water (macronutrients, organic nutrients and seed communities) drive the response of surface plankton communities to upwelling in the Peruvian coastal zone. Results from our short-term (10 d) study show that the most influential drivers in upwelled deep water are (1) the ratio of inorganic nutrients (NOx : PO43-) and (2) the microbial community present that can seed heterogeneity in phytoplankton succession and modify the stoichiometry of residual inorganic nutrients after phytoplankton blooms. Hence, this study suggests that phytoplankton succession after upwelling is modified by factors other than the physical supply of inorganic nutrients. This would likely affect trophic transfer and overall productivity in these highly fertile marine ecosystems.

Published

2022

5. A multi-criteria decision analysis model for ship biofouling management in the Baltic Sea

Author

Emilia Luoma, Mirka Laurila-Pant, Elias Altarriba, Lauri Nevalainen, Inari Helle, Lena Granhag, Maiju Lehtiniemi, Greta Srėbalienė, Sergej Olenin, Annukka Lehikoinen, Helsinki Institute of Sustainability Science (HELSUS), Ecosystems and Environment Research Programme, Fisheries and Environmental Management Group, University of Helsinki, Organismal and Evolutionary Biology Research Programme, Suomen ympäristökeskus, and The Finnish Environment Institute

Subjects

IMPACTS, Environmental Engineering, GULF, EFFICIENCY, Biofouling, Decision analysis model, Decision Support Techniques, biologinen puhdistus, Non -indigenous species, Non-indigenous species, Eco-toxicological risk, Bayesian network, ANTIFOULING PAINTS, Environmental Chemistry, vieraslajit, meriekologia, Waste Management and Disposal, Ships, 1172 Environmental sciences, RELEASE RATES, bayesilainen menetelmä, Water, Bayes Theorem, OIL-SPILL, Carbon Dioxide, FINLAND, Pollution, ekotoksikologia, BAYESIAN NETWORK, Itämeri, saastuminen, mallit (mallintaminen), meret, päätösanalyysi, RESISTANCE, SEDIMENTS

Abstract

Biofouling of ship hulls form a vector for the introduction of non-indigenous organisms worldwide. Through increasing friction, the organisms attached to ships' hulls increase the fuel consumption, leading to both higher fuel costs and air emissions. At the same time, ship biofouling management causes both ecological risks and monetary costs. All these aspects should be considered case-specifically in the search of sustainable management strategies. Applying Bayesian networks, we developed a multi-criteria decision analysis model to compare biofouling management strategies in the Baltic Sea, given the characteristics of a ship, its operating profile and operational environment, considering the comprehensive environmental impact and the monetary costs. The model is demonstrated for three scenarios (SC1-3) and sub-scenarios (A-C), comparing the alternative biofouling management strategies in relation to NIS (non-indigenous species) introduction risk, eco-toxicological risk due to biocidal coating, carbon dioxide emissions and costs related to fuel consumption, in-water cleaning and hull coating. The scenarios demonstrate that by the careful consideration of the hull fouling management strategy, both money and the environment can be saved. Biocidal-free coatings with a regular in-water cleaning and a debris capture system provide a promising alternative. However, in some cases biocidal coating remains the best option. We suggest biocidal-free coating with a regular in-water cleaning using a capture system is generally the lowest-risk option. The best biocidal-free coating type and the optimal in-water cleaning interval should be evaluated case-specifically, though. In some cases, however, biocidal coating remains the best option.

Published

2022

6. Ecological dependencies make remote reef fish communities most vulnerable to coral loss

Author

Giovanni Strona, Pieter S. A. Beck, Mar Cabeza, Simone Fattorini, François Guilhaumon, Fiorenza Micheli, Simone Montano, Otso Ovaskainen, Serge Planes, Joseph A. Veech, Valeriano Parravicini, Faculty of Biological and Environmental Sciences [Helsinki], Helsingin yliopisto = Helsingfors universitet = University of Helsinki, European Commission - Joint Research Centre [Ispra] (JRC), Helsinki Institute of Sustainability Science (HELSUS), Helsingin yliopisto = Helsingfors universitet = University of Helsinki-Helsingin yliopisto = Helsingfors universitet = University of Helsinki, University of L'Aquila [Italy] (UNIVAQ), MARine Biodiversity Exploitation and Conservation (UMR MARBEC), Institut de Recherche pour le Développement (IRD)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Hopkins Marine Station [Stanford], Stanford University, Dipartimento di Scienze dell'Ambiente e del Territorio (DISAT), Università degli Studi di Milano = University of Milan (UNIMI), Centre de recherches insulaires et observatoire de l'environnement (CRIOBE), Université de Perpignan Via Domitia (UPVD)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), Texas State University, ANR-17-CE32-0006,REEFLUX,Flux d'énergie au sein des récifs coralliens: une perspective basée sur les vertébrés(2017), Organismal and Evolutionary Biology Research Programme, Ecological Data Science, Global Change and Conservation Lab, Mar Cabeza-Jaimejuan / Principal Investigator, Biosciences, Otso Ovaskainen / Principal Investigator, Strona, G, Beck, P, Cabeza, M, Fattorini, S, Guilhaumon, F, Micheli, F, Montano, S, Ovaskainen, O, Planes, S, Veech, J, and Parravicini, V

Subjects

0106 biological sciences, Richness, conservation biology, ekologiset verkostot, General Physics and Astronomy, 01 natural sciences, Conservation of Natural Resource, Anthropogenic Effect, meriekologia, Patterns, 0303 health sciences, Diversity, Multidisciplinary, Conservation biology, Coral Reefs, Anthropogenic Effects, Climate-change ecology, Fishes, Biodiversity, Anthozoa, Habitat, 1181 Ecology, evolutionary biology, Coral Reef, Human, climate-change ecology, Conservation of Natural Resources, [SDE.MCG]Environmental Sciences/Global Changes, Science, Climate Change, Biotic interactions, 010603 evolutionary biology, General Biochemistry, Genetics and Molecular Biology, Article, koralliriutat, 03 medical and health sciences, Animals, Coral Bleaching, Humans, Spatial Analysis, Food-web, ecological networks, 14. Life underwater, 030304 developmental biology, Animal, kalakannat, General Chemistry, Disturbance, Spatial Analysi, ilmastonmuutokset, 15. Life on land, biodiversiteetti, 13. Climate action, Ecological networks, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Fishe

Abstract

Ecosystems face both local hazards, such as over-exploitation, and global hazards, such as climate change. Since the impact of local hazards attenuates with distance from humans, local extinction risk should decrease with remoteness, making faraway areas safe havens for biodiversity. However, isolation and reduced anthropogenic disturbance may increase ecological specialization in remote communities, and hence their vulnerability to secondary effects of diversity loss propagating through networks of interacting species. We show this to be true for reef fish communities across the globe. An increase in fish-coral dependency with the distance of coral reefs from human settlements, paired with the far-reaching impacts of global hazards, increases the risk of fish species loss, counteracting the benefits of remoteness. Hotspots of fish risk from fish-coral dependency are distinct from those caused by direct human impacts, increasing the number of risk hotspots by ~30% globally. These findings might apply to other ecosystems on Earth and depict a world where no place, no matter how remote, is safe for biodiversity, calling for a reconsideration of global conservation priorities., Coral reefs face both local and global stressors. Here, the authors show how a positive relationship between distance from human settlements and ecological specialisation makes remote coral reef fish communities more vulnerable to coral loss.

Published

2021

7. First Application of IFCB High-Frequency Imaging-in-Flow Cytometry to Investigate Bloom-Forming Filamentous Cyanobacteria in the Baltic Sea

Author

Pasi Ylöstalo, Silvia Anglès, Harri Kuosa, Martti Honkanen, Kaisa Kraft, Johanna Oja, Timo Tamminen, Sami Kielosto, Jukka Seppälä, Heidi Hällfors, Sanna Suikkanen, Lauri Laakso, and Sirpa Lehtinen

Subjects

high-frequency observations, 0106 biological sciences, Cyanobacteria, lcsh:QH1-199.5, 010504 meteorology & atmospheric sciences, Ocean Engineering, levät, lcsh:General. Including nature conservation, geographical distribution, Aquatic Science, Oceanography, Aphanizomenon, cyanobacteria, 01 natural sciences, Algal bloom, bloom dynamics, Algae, Phytoplankton, flow-sytometria, leväkukinta, 14. Life underwater, syanobakteerit, meriekologia, lcsh:Science, virtaussytometria, 0105 earth and related environmental sciences, Water Science and Technology, Global and Planetary Change, kukinta, biology, rehevöityminen, 010604 marine biology & hydrobiology, plankton, Plankton, biology.organism_classification, ekosysteemit (ekologia), Imaging FlowCytobot, cyanophyte, IFCB, vesianalyysi, Environmental science, lcsh:Q, Oscillatoriales, Bloom

Abstract

Cyanobacteria are an important part of phytoplankton communities, however, they are also known for forming massive blooms with potentially deleterious effects on recreational use, human and animal health, and ecosystem functioning. Emerging high-frequency imaging flow cytometry applications, such as Imaging FlowCytobot (IFCB), are crucial in furthering our understanding of the factors driving bloom dynamics, since these applications provide community composition information at frequencies impossible to attain using conventional monitoring methods. However, the proof of applicability of automated imaging applications for studying dynamics of filamentous cyanobacteria is still scarce. In this study we present the first results of IFCB applied to a Baltic Sea cyanobacterial bloom community using a continuous flow-through setup. Our main aim was to demonstrate the pros and cons of the IFCB in identifying filamentous cyanobacterial taxa and in estimating their biomass. Selected environmental parameters (water temperature, wind speed and salinity) were included, in order to demonstrate the dynamics of the system the cyanobacteria occur in and the possibilities for analyzing high-frequency phytoplankton observations against changes in the environment. In order to compare the IFCB results with conventional monitoring methods, filamentous cyanobacteria were enumerated from water samples using light microscopical analysis. Two common bloom forming filamentous cyanobacteria in the Baltic Sea, Aphanizomenon flosaquae and Dolichospermum spp. dominated the bloom, followed by an increase in Oscillatoriales abundance. The IFCB results compared well with the results of the light microscopical analysis, especially in the case of Dolichospermum. Aphanizomenon biomass varied slightly between the methods and the Oscillatoriales results deviated the most. Bloom formation was initiated as water temperature increased to over 15°C and terminated as the wind speed increased, dispersing the bloom. Community shifts were closely related to movements of the water mass. We demonstrate how using a high-frequency imaging flow cytometry application can help understand the development of cyanobacteria summer blooms.

Published

2021

8. The Baltic Health Index (BHI): assessing the socialecological status of the Baltic Sea

Author

Andrea De Cervo, Julia S. Stewart Lowndes, Benjamin S. Halpern, Eleanore Campbell, Henn Ojaveer, Melanie Frazier, Annika Nilsson, Christoffer Boström, Wilfried Rickels, Thorsten Blenckner, Vivi Fleming, Christian Möllmann, Christine S. Palmlöv, Susa Niiranen, Markku Viitasalo, Andrea Belgrano, Jennifer R. Griffiths, Jens Olsson, Martin F. Quaas, Sofia A. Wikström, Anna Sobek, and Stefan Neuenfeldt

Subjects

0106 biological sciences, Index (economics), 01 natural sciences, ecosystem-based management, social-ecological system, 11. Sustainability, lcsh:Human ecology. Anthropogeography, meriekologia, Marine resource management, 0303 health sciences, kestävä kehitys, Ecology, Baltic Health Index, Environmental resource management, health, Miljövetenskap, sustainability, Ecosystem-based management, ekologia, Geography, Sustainability, Health, management targets, kestävyys, meret, terveys, BHI, ecosystem‐based management, index, kestävä käyttö, Social-ecological system, Baltic Sea, rannikkoalueet, sosiaaliekologia, 12. Responsible consumption, 03 medical and health sciences, Health index, SDG 3 - Good Health and Well-being, Open sea, lcsh:QH540-549.5, Management targets, indices, Marine ecosystem, ekologinen tila, 14. Life underwater, SDG 14 - Life Below Water, social–ecological system, luonnonvarat, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Ekologi, indeksit, business.industry, 010604 marine biology & hydrobiology, 15. Life on land, Baltic sea, 13. Climate action, lcsh:Ecology, lcsh:GF1-900, business, Environmental Sciences

Abstract

Improving the health of coastal and open sea marine ecosystems represents a substantial challenge for sustainable marine resource management, since it requires balancing human benefits and impacts on the ocean. This challenge is often exacerbated by incomplete knowledge and lack of tools that measure ocean and coastal ecosystem health in a way that allows consistent monitoring of progress towards predefined management targets. The lack of such tools often limits capabilities to enact and enforce effective governance. We introduce the Baltic Health Index (BHI) as a transparent, collaborative and repeatable assessment tool. The Index complements existing, more ecological-oriented, approaches by including a human dimension on the status of the Baltic Sea, an ecosystem impacted by multiple anthropogenic pressures and governed by a multitude of comprehensive national and international policies. Using a large amount of social-ecological data available, we assessed the health of the Baltic Sea for nine goals that represent the status towards set targets, for example, clean waters, biodiversity, food provision, natural products extraction and tourism. Our results indicate that the overall health of the Baltic Sea is suboptimal (a score of 76 out of 100), and a substantial effort is required to reach the management objectives and associated targets. Subregionally, the lowest BHI scores were measured for carbon storage, contaminants and lasting special places (i.e. marine protected areas), albeit with large spatial variation. Overall, the likely future status of all goals in the BHI averaged for the entire Baltic Sea is better than the present status, indicating a positive trend towards a healthier Baltic Sea. However, in some Baltic Sea basins, the trend for specific goals was decreasing, highlighting locations and issues that should be the focus of management priorities. The BHI outcomes can be used to identify both pan-Baltic and subregional scale management priorities and to illustrate the interconnectedness between goals linked by cumulative pressures. Hence, the information provided by the BHI tool and its further development will contribute towards the fulfilment of the UN Agenda 2030 and its Sustainability Development Goals. A free Plain Language Summary can be found within the Supporting Information of this article. A free Plain Language Summary can be found within the Supporting Information of this article.

Published

2021

9. Marine food web perspective to fisheries-induced evolution

Author

Hočevar, Sara and Kuparinen, Anna

Subjects

fishing-induced evolution, kalastus, marine food webs, kalatalous, life-history, kalakannat, size-selective fishing, evoluutio, trophic cascades, recovery potential, eco-evolutionary change, meriekologia, ravintoverkot

Abstract

Fisheries exploitation can cause genetic changes in heritable traits of targeted stocks. The direction of selective pressure forced by harvest acts typically in reverse to natural selection and selects for explicit life-histories, usually for younger and smaller spawners with deprived spawning potential. While the consequences that such selection might have on the populational dynamics of a single species are well emphasised, we are just beginning to perceive the variety and severity of its propagating effects within the entire marine food webs and ecosystems. Here, we highlight the potential pathways in which fishing-induced evolution, driven by size-selective fishing, might resonate through globally connected systems. We look at: i) how a size-truncation may induce shifts in ecological niches of harvested species, ii) how a changed maturation schedule might affect the spawning potential and biomass flow, iii) how changes in life-histories can initiate trophic cascades, iv) how the role of apex predators may be shifting, and v) whether fishing-induced evolution could co-drive species to depletion and biodiversity loss. Globally increasing effective fishing effort and the uncertain reversibility of eco-evolutionary change induced by fishing necessitate further research, discussion, and precautionary action considering the impacts of fishing-induced evolution within marine food webs. peerReviewed

Published

2021

10. Combined effects of human pressures on Europe’s marine ecosystems

Author

Leena Laamanen, Monika Peterlin, Ulf Stein, Katja Klancnik, Juuso Haapaniemi, Emilie Kallenbach, Lena Bergström, E. Therese Harvey, Johnny Reker, Marco Nurmi, Leonardo Tunesi, David Vaughan, Samuli Korpinen, Jesper H. Andersen, and Ciarán Murray

Subjects

0106 biological sciences, climate changes, Good Environmental Status, environmental effects, vaikutukset, Geography, Planning and Development, coastal waters, meriensuojelu, 01 natural sciences, Marine Strategy Framework Directive, toiminta, Human use, merenkulkijat, marine management, meriekologia, mariners, biodiversity, evaluation, Ecology, development (active), Environmental resource management, kehittäminen, General Medicine, Europe, Europe's seas, cumulative effect assessments, ympäristövaikutukset, marine assessment, ihminen, meret, Environmental Monitoring, Conservation of Natural Resources, conservation of the seas, Oceans and Seas, rannikkoalueet, seas, ranta-alueet, coastal areas, 010603 evolutionary biology, effects (results), rannikot, Humans, Environmental Chemistry, Marine ecosystem, 14. Life underwater, Ecosystem, merialueet, business.industry, 010604 marine biology & hydrobiology, Marine habitats, sea areas, 15. Life on land, ilmastonmuutokset, ecosystems (ecology), biodiversiteetti, ekosysteemit (ekologia), Marine management, Disturbance (ecology), human activities, 13. Climate action, merentutkimus, käsittely, coasts, Environmental science, anthropogenic pressures, rannikkovedet, business, arviointi

Abstract

Marine ecosystems are under high demand for human use, giving concerns about how pressures from human activities may affect their structure, function, and status. In Europe, recent developments in mapping of marine habitats and human activities now enable a coherent spatial evaluation of potential combined effects of human activities. Results indicate that combined effects from multiple human pressures are spread to 96% of the European marine area, and more specifically that combined effects from physical disturbance are spread to 86% of the coastal area and 46% of the shelf area. We compare our approach with corresponding assessments at other spatial scales and validate our results with European-scale status assessments for coastal waters. Uncertainties and development points are identified. Still, the results suggest that Europe’s seas are widely disturbed, indicating potential discrepancy between ambitions for Blue Growth and the objective of achieving good environmental status within the Marine Strategy Framework Directive.

Published

2021

11. Distribution and species composition of red algal communities in the northern Baltic Sea

Author

Henna Rinne, Kirsi Kostamo, Suomen ympäristökeskus, and The Finnish Environment Institute

Subjects

marine biodiversity, rocky shores, Baltic Sea, pohjakasvillisuus, fungi, levinneisyys, kasvillisuus, levät, Aquatic Science, Oceanography, ekologia, punalevät, biodiversiteetti, Polysiphonia, Itämeri, Rhodophyta, seuranta, macroalgal monitoring, meriekologia, makrolevät, meret, phytobenthos

Abstract

Highlights • Prevalence and depth distribution of several red algal species were studied. • Distribution patterns were highly variable across environmental gradients. • Reduced depth penetration and occurrence were found in comparison to older data. • Most representative areas for red algae were revealed with GIS analyses. • The results advance management and conservation of these threatened habitats. Red algae are an important component of the Baltic Sea rocky shores. Within the Finnish marine area, in the northern Baltic Sea, red algal communities (on habitat level) are currently listed as endangered, due to eutrophication effects and potential future decrease in salinity. At species level, Rhodomela confervoides and Ceramium virgatum are red-listed. Despite their common use in different management contexts within the Baltic Sea, e.g. their depth distribution used as an indicator of the status of the sea areas, we know little about the commonness and more detailed distribution patterns of the red algal species. This limits the reliability of algae-based assessments. The aim of this study was to describe the general occurrence patterns, abundance and prevalence of erect perennial and annual red algae, based on extensive scuba-diving inventories within the Finnish marine area. Furthermore, the most representative areas for the red algal communities were identified. The results show high variation in depth distribution and prevalence across environmental gradients for many red algal species, e.g. for the relatively common perennial species Furcellaria lumbricalis and Vertebrata fucoides. In comparison to older data, reductions in depth penetration and occurrence were identified especially for deep-occurring species such as Rhodomela confervoides. With improved knowledge on the occurrence patterns of red algal species in relation to environmental variation, our results enable more reliable use of red algae as indicators of the status of the sea areas. By identifying areas where red algal communities are currently most representative, the results also allow better targeting of management efforts aiming to improve their status, such as areal protection measures or reducing nutrient input from point sources.

Published

2022

12. Habitat patchiness, ecological connectivity and the uneven recovery of boreal stream ecosystems from an experimental drought

Author

Ryan A. Sponseller, Amélie Truchy, Romain Sarremejane, Richard K. Johnson, Kaisa Lehosmaa, Heikki Mykrä, Brendan G. McKie, David G. Angeler, Ari Huusko, and Timo Muotka

Subjects

0106 biological sciences, kuivuus, climate changes, avaruudelliset verkkoyhteydet, 010504 meteorology & atmospheric sciences, drought, ravinteet, 01 natural sciences, nutrients (plants), metaekosysteemi, ekosysteemin prosessit, meriekologia, ravinnekierto, biodiversity, General Environmental Science, algae, Global and Planetary Change, Biomass (ecology), Ecology, marine ecology, vesiekosysteemit, Community structure, food and beverages, elinympäristön paikkaus, eliöyhteisöt, Miljövetenskap, Droughts, boreaalinen vyöhyke, Habitat, Benthic zone, environmental changes, boreal zone, hyphomycete, spatial connectivity, sienet, ympäristönmuutokset, dryness, meta-ecosystem, meta, levät, biotic communities, 010603 evolutionary biology, levän tuotanto, Rivers, ekosysteemiprosessit, Animals, zoobenthos, Environmental Chemistry, Ecosystem, ecosystem processes, aquatic ecosystems, 0105 earth and related environmental sciences, accrual, elinympäristön laastari, metaecosystem, fungi, hyphomycete fungi, nutrient cycle, Detritivore, algal production, habitat patch, hyphomycete sieni, ilmastonmuutokset, 15. Life on land, detritivori, ecosystems (ecology), Invertebrates, metaekojärjestelmä, biodiversiteetti, ekosysteemit (ekologia), detritivores, detritivoret, pohjaeläimistö, Boreal, 13. Climate action, kertyminen, Biological dispersal, Environmental science, levätuotanto, Environmental Sciences

Abstract

Ongoing climate change is increasing the occurrence and intensity of drought episodes worldwide, including in boreal regions not previously regarded as drought prone, and where the impacts of drought remain poorly understood. Ecological connectivity is one factor that might influence community structure and ecosystem functioning post‐drought, by facilitating the recovery of sensitive species via dispersal at both local (e.g. a nearby habitat patch) and regional (from other systems within the same region) scales. In an outdoor mesocosm experiment, we investigated how impacts of drought on boreal stream ecosystems are altered by the spatial arrangement of local habitat patches within stream channels, and variation in ecological connectivity with a regional species pool. We measured basal ecosystem processes underlying carbon and nutrient cycling: (a) algal biomass accrual; (b) microbial respiration; and (c) decomposition of organic matter, and sampled communities of aquatic fungi and benthic invertebrates. An 8‐day drought event had strong impacts on both community structure and ecosystem functioning, including algal accrual, leaf decomposition and microbial respiration, with many of these impacts persisting even after water levels had been restored for 3.5 weeks. Enhanced connectivity with the regional species pool and increased aggregation of habitat patches also affected multiple response variables, especially those associated with microbes, and in some cases reduced the effects of drought to a small extent. This indicates that spatial processes might play a role in the resilience of communities and ecosystem functioning, given enough time. These effects were however insufficient to facilitate significant recovery in algal growth before seasonal dieback began in autumn. The limited resilience of ecosystem functioning in our experiment suggests that even short‐term droughts can have extended consequences for stream ecosystems in the world‘s vast boreal region, and especially on the ecosystem processes and services mediated by algal biofilms.

Published

2020

13. Consistency in microbiomes in cultures of Alexandrium species isolated from brackish and marine waters

Author

Sörenson, Eva, Bertos-Fortis, Mireia, Farnelid, Hanna, Kremp, Anke, Krüger, Karen, Lindehoff, Elin, and Legrand, Catherine

Subjects

vuorovaikutus, strain on the water system, Baltic Sea, Alexandrium minutum, Oceans and Seas, Alexandrium, species, microbiome, interaction, marine biology, seas, parasites, levät, meribiologia, cyanobacteria, marine animals, vesistönkuormitus, Host Specificity, bakteerit, marine water, loiset, Mediterranean Sea, Seawater, meriekologia, syanobakteerit, Alexandrium tamarense, Ecosystem, aquatic ecosystems, algae, panssarilevät, consistency, Bacteria, Brief Report, Microbiota, marine ecology, plankton, fungi, vesiekosysteemit, merieläimistö, Alexandrium ostenfeldii, cultures, mikrobisto, yhtenäisyys, Phytoplankton, Dinoflagellida, dinoflagellates, Brief Reports, meret, brackish water

Abstract

Summary Phytoplankton and bacteria interactions have a significant role in aquatic ecosystem functioning. Associations can range from mutualistic to parasitic, shaping biogeochemical cycles and having a direct influence on phytoplankton growth. How variations in phenotype and sampling location, affect the phytoplankton microbiome is largely unknown. A high‐resolution characterization of the bacterial community in cultures of the dinoflagellate Alexandrium was performed on strains isolated from different geographical locations and at varying anthropogenic impact levels. Microbiomes of Baltic Sea Alexandrium ostenfeldii isolates were dominated by Betaproteobacteria and were consistent over phenotypic and genotypic Alexandrium strain variation, resulting in identification of an A. ostenfeldii core microbiome. Comparisons with in situ bacterial communities showed that taxa found in this A. ostenfeldii core were specifically associated to dinoflagellate dynamics in the Baltic Sea. Microbiomes of Alexandrium tamarense and minutum, isolated from the Mediterranean Sea, differed from those of A. ostenfeldii in bacterial diversity and composition but displayed high consistency, and a core set of bacterial taxa was identified. This indicates that Alexandrium isolates with diverse phenotypes host predictable, species‐specific, core microbiomes reflecting the abiotic conditions from which they were isolated. These findings enable in‐depth studies of potential interactions occurring between Alexandrium and specific bacterial taxa.

Published

2019

14. Suomenlahti elpyy vähitellen

Subjects

ympäristöongelmat, Suomenlahti, ta1172, meriensuojelu, merien saastuminen, sedimentit, meriekologia, fosfori

Published

2015

15. Kalojen kasvusta Helsingin merialueella

Author

Seppänen, Pertti and Seppänen, Pertti

Published

1971