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1	The systematics of Ceramium : a molecular and morphological approach Ward, Barbara Ann January 1999 (has links) No description available. 580 Ceramium rubrum
2	Molecular systematics of the red algal order Ceramiales McIvor, Lynne Margaret January 2000 (has links) No description available. 580 Ceramium virgatum
3	Effects of the copper-based antifouling paint "Fabi" on growth of the red alga <em>Ceramium tenuicorne</em> Sandberg, Disa January 2009 (has links) <p></p><p>The antifouling paint Fabi 3959 is painted on the hulls of vessels to avoid fouling caused by marine organisms attached to surfaces. The paint is registered for use on pleasure boats and other vessels weighing over 200 kg which are mainly running on the Swedish west coast (www.kemi.se).</p><p>Fabi 3959 contains copper as its active component, which is highly toxic to marine organisms and thus classified as a biocide.</p><p>Fabi antifouling paint was tested under laboratory conditions on the red macro alga <em>Ceramium tenuicorne</em>, in natural brackish water taken from the Baltic Sea. The <em>Ceramium</em> growth inhibition-test was performed using cloned algae exposed to leakage water with and without sediment. The samples containing only water held concentrations in the range of 0.11% of volume-18% of volume per liter, while the samples using sediment held doses measuring between 0.11% of volume-36% of volume leakage water per liter.</p><p>The study showed a growth inhibiting effect on the <em>Ceramium</em> in both water and sediment samples down to the lowest concentration used in the test. There was a difference between the water series and the sediment series in the EC<sub>50</sub> values of the leakage water. The mean EC<sub>50 </sub>value was almost 10 times lower within the sediment series compared to the water series (0.114±0.10 and 1.024±0.75, respectively). This indicates that the sediment series are more toxic to <em>Ceramium</em> than the water series. However, if the mean values of EC<sub>50</sub> are expressed as copper-concentration, there is no clear difference between the two series (0.59 ± 0.13µg/l for the sediment series and 0.62 ± 0.12 µg/l for the water series). Apparently, the test did not indicate that the sediment was absorbing the copper. Instead it cannot be excluded that another substance involved could have a growth inhibiting impact on <em>Ceramium</em>.</p><p> </p> / <p> </p><p>Båtbottenfärgen Fabi 3959 målas på fartygsskrov för att undvika påväxt av marina organismer. Färgen är registrerad att användas på fritidsbåtar och andra fartyg med en egenvikt på över 200 kg och med huvudsaklig fart på Västkusten (www.kemi.se). Den aktiva komponenten i Fabi 3959 är koppar, vilket är mycket giftigt för marina organismer och därför klassificeras den som en biocid.</p><p>Fabi båtbottenfärg testades i laborativ miljö, på den röda makroalgen <em>Ceramium tenuicorne</em> i naturligt brackvatten från Östersjön. Ett tillväxthämningstest utfördes på <em>Ceramium</em>-kloner vilka exponerades för lakvatten i bägare med och utan sediment. Proverna endast innehållande vatten bestod av koncentrationer i intervallen 0,11-18 volym% per liter medan proverna med sedimentvatten hade koncentrationer på 0,11-36 volym% per liter.</p><p>Studien visade på en signifikant tillväxthämningseffekt på <em>Ceramium</em> i både vatten och sediment, ner till den lägsta använda koncentrationen. Det förelåg en tydlig skillnad mellan vattenserierna och sedimentserierna med avseende på resultaten av EC<sub>50</sub>-värdena på lakvattnet; EC<sub>50</sub>-värdena av den toxiska nivån för lakvattnet visade sig ligga tio gånger lägre i sedimentserierna än i vattenserierna (0,114 ± 0,10 i sediment och 1,024 ± 0,75 i vatten). Medelvärdena av EC<sub>50 </sub>för koppar visar inte någon påtaglig skillnad mellan serierna (0,59 ± 0,13µg/l för sediment 0,62 ± 0,12 µg/l för vatten). Testet indikerade därmed inte att sedimentet absorberade koppar. Istället föreligger en möjlighet att en annan substans orsakade tillväxthämning på<em> Ceramium.</em></p><p> </p> Ceramium Ceramium tenuicorne antifouling paint Fabi growth inhibition-test Ceramium Ceramium tenuicorne båtbottenfärg Fabi tillväxthämningstest Environmental toxicology Miljötoxikologi
4	Effects of the copper-based antifouling paint "Fabi" on growth of the red alga Ceramium tenuicorne Sandberg, Disa January 2009 (has links) The antifouling paint Fabi 3959 is painted on the hulls of vessels to avoid fouling caused by marine organisms attached to surfaces. The paint is registered for use on pleasure boats and other vessels weighing over 200 kg which are mainly running on the Swedish west coast (www.kemi.se). Fabi 3959 contains copper as its active component, which is highly toxic to marine organisms and thus classified as a biocide. Fabi antifouling paint was tested under laboratory conditions on the red macro alga Ceramium tenuicorne, in natural brackish water taken from the Baltic Sea. The Ceramium growth inhibition-test was performed using cloned algae exposed to leakage water with and without sediment. The samples containing only water held concentrations in the range of 0.11% of volume-18% of volume per liter, while the samples using sediment held doses measuring between 0.11% of volume-36% of volume leakage water per liter. The study showed a growth inhibiting effect on the Ceramium in both water and sediment samples down to the lowest concentration used in the test. There was a difference between the water series and the sediment series in the EC50 values of the leakage water. The mean EC50 value was almost 10 times lower within the sediment series compared to the water series (0.114±0.10 and 1.024±0.75, respectively). This indicates that the sediment series are more toxic to Ceramium than the water series. However, if the mean values of EC50 are expressed as copper-concentration, there is no clear difference between the two series (0.59 ± 0.13µg/l for the sediment series and 0.62 ± 0.12 µg/l for the water series). Apparently, the test did not indicate that the sediment was absorbing the copper. Instead it cannot be excluded that another substance involved could have a growth inhibiting impact on Ceramium. / Båtbottenfärgen Fabi 3959 målas på fartygsskrov för att undvika påväxt av marina organismer. Färgen är registrerad att användas på fritidsbåtar och andra fartyg med en egenvikt på över 200 kg och med huvudsaklig fart på Västkusten (www.kemi.se). Den aktiva komponenten i Fabi 3959 är koppar, vilket är mycket giftigt för marina organismer och därför klassificeras den som en biocid. Fabi båtbottenfärg testades i laborativ miljö, på den röda makroalgen Ceramium tenuicorne i naturligt brackvatten från Östersjön. Ett tillväxthämningstest utfördes på Ceramium-kloner vilka exponerades för lakvatten i bägare med och utan sediment. Proverna endast innehållande vatten bestod av koncentrationer i intervallen 0,11-18 volym% per liter medan proverna med sedimentvatten hade koncentrationer på 0,11-36 volym% per liter. Studien visade på en signifikant tillväxthämningseffekt på Ceramium i både vatten och sediment, ner till den lägsta använda koncentrationen. Det förelåg en tydlig skillnad mellan vattenserierna och sedimentserierna med avseende på resultaten av EC50-värdena på lakvattnet; EC50-värdena av den toxiska nivån för lakvattnet visade sig ligga tio gånger lägre i sedimentserierna än i vattenserierna (0,114 ± 0,10 i sediment och 1,024 ± 0,75 i vatten). Medelvärdena av EC50 för koppar visar inte någon påtaglig skillnad mellan serierna (0,59 ± 0,13µg/l för sediment 0,62 ± 0,12 µg/l för vatten). Testet indikerade därmed inte att sedimentet absorberade koppar. Istället föreligger en möjlighet att en annan substans orsakade tillväxthämning på Ceramium. Ceramium Ceramium tenuicorne antifouling paint Fabi growth inhibition-test Ceramium Ceramium tenuicorne båtbottenfärg Fabi tillväxthämningstest Environmental Sciences Miljövetenskap
5	Behandlingsvåtmarkers reningseffekt på aktiva läkemedelssubstanser under vinterförhållanden : En studie av fyra svenska våtmarker för avloppsrening / Removal efficiency of pharmaceuticals in treatment wetlands during winter conditions : A study of four Swedish wetlands for waste water treatment Näslund, Maria January 2010 (has links) <p>Pharmaceuticals that are found in marine ecosystems are a threatening environmental concern, which is known to harm both animal and plant life. One of the reasons for this problem is that the waste water treatment techniques are not optimized to clear waste water from its pharmaceuticals contain. In this master thesis four Swedish treatment wetlands were studied, and their ability to reduce numerous pharmaceuticals in waste water. The four treatment wetlands that were studied were those in Oxelösund, Trosa, Nynäshamn and Eskilstuna. Two ecotoxicological tests and chemical analysis were used. The ecotoxicological tests were performed on the copepod <em>Nitocra spinipes</em> and macro algae <em>Ceramium tenuicorne</em>, but the results were ambiguous and could not be related to the chemical analysis. The result from the chemical analysis showed that 50-70 % of the substances were reduced to some degree, and of which 15 % were almost completely reduced. In Nynäshamn’s wetland and Oxelösund’s wetland the pharmaceutical treatment were more efficient than in Trosa’s wetland and Eskilstuna’s wetland. This was probably due to the, at the time, more efficient biological activity. The pharmaceuticals that dominated the incoming waters to all the wetlands were more or less the same. On the contrary, substances were reduced to different degrees in the four wetlands. However, the reduction patterns for both Nynäshamn and Oxelösund were similar, which suggest that the same processes dominated in both wetlands. As the study was performed in cold winter conditions with bad oxygen supply it is likely that greater reduction would be obtained in warmer conditions.</p> treatment wetlands pharmaceuticals sewage treatment degree of treatment ecotoxicological tests Nitocra spinipes Ceramium tenuicorne behandlingsvåtmark läkemedel avloppsrening reningsgrad ekotoxikologiska tester Nitocra spinipes Ceramium tenuicorne
6	Behandlingsvåtmarkers reningseffekt på aktiva läkemedelssubstanser under vinterförhållanden : En studie av fyra svenska våtmarker för avloppsrening / Removal efficiency of pharmaceuticals in treatment wetlands during winter conditions : A study of four Swedish wetlands for waste water treatment Näslund, Maria January 2010 (has links) Pharmaceuticals that are found in marine ecosystems are a threatening environmental concern, which is known to harm both animal and plant life. One of the reasons for this problem is that the waste water treatment techniques are not optimized to clear waste water from its pharmaceuticals contain. In this master thesis four Swedish treatment wetlands were studied, and their ability to reduce numerous pharmaceuticals in waste water. The four treatment wetlands that were studied were those in Oxelösund, Trosa, Nynäshamn and Eskilstuna. Two ecotoxicological tests and chemical analysis were used. The ecotoxicological tests were performed on the copepod Nitocra spinipes and macro algae Ceramium tenuicorne, but the results were ambiguous and could not be related to the chemical analysis. The result from the chemical analysis showed that 50-70 % of the substances were reduced to some degree, and of which 15 % were almost completely reduced. In Nynäshamn’s wetland and Oxelösund’s wetland the pharmaceutical treatment were more efficient than in Trosa’s wetland and Eskilstuna’s wetland. This was probably due to the, at the time, more efficient biological activity. The pharmaceuticals that dominated the incoming waters to all the wetlands were more or less the same. On the contrary, substances were reduced to different degrees in the four wetlands. However, the reduction patterns for both Nynäshamn and Oxelösund were similar, which suggest that the same processes dominated in both wetlands. As the study was performed in cold winter conditions with bad oxygen supply it is likely that greater reduction would be obtained in warmer conditions. treatment wetlands pharmaceuticals sewage treatment degree of treatment ecotoxicological tests Nitocra spinipes Ceramium tenuicorne behandlingsvåtmark läkemedel avloppsrening reningsgrad ekotoxikologiska tester Nitocra spinipes Ceramium tenuicorne
7	Ecotoxicological effects from three antifouling paints on the red macroalga <em>Ceramium tenuicorne.</em> Krantz-Frid, Madelene January 2009 (has links) <p>Antifouling paints are applied on vessels to prevent growth of fouling organisms such hasbarnacles. Presently, there are a number of different paints available on the Swedish marketwith different strategies and active substances. The paints might work by either continuouslyreleasing biocides or physically by peeling off or provide an easily cleansed surface whereorganisms cannot attach. The physically working paints do not need to register an activesubstance since its purpose is not to affect living organisms by a chemical or biological modeof action. In this study, two commercially available paints, the copper-based Fabi 3959(International Paint Ltd) and physically eroding, biocide-free labelled Mille Light (HempelFärg AB) were compared to Hard Racing superior, containing copper and the forbiddensubstance Tributyltin. Fabi International is only allowed to be used on the Swedish west coastdue to 6% added as active substance while the biocide-free Mille Light is eligible for eastcoast usage. The toxic effect from respective paint was investigated by assembling a growthinhibition test with the red macro alga Ceramium tenuicorne. The results show that all thestudied paints had a negative effect on growth and therefore leaked substances inconcentrations high enough to be harmful to the alga. The toxic response differed with theeffect on growth being in the following order, Hard racing superior>Fabi >Mille Light.Implications regarding the current legalization involving biocide-free labelled antifoulingpaints are discussed.</p> Antifouling paint Ceramium tenuicorne biocide-free TBT copper growth inhibition test The Baltic Sea Biology Biologi Toxicology Toxikologi
8	Hydroxylated polybrominated diphenyl ethers in Baltic Sea biota : Natural production, food web distribution and biotransformation Lindqvist, Dennis January 2016 (has links) Hydroxylated polybrominated diphenyl ethers (OH-PBDEs) are naturally produced in aquatic ecosystems e.g. by algae. Many OH-PBDEs have been observed to be highly bioactive and to cause adverse effects through several pathways, e.g. via disrupting oxidative phosphorylation (OXPHOS). The levels of some OH-PBDEs have increased in Baltic biota over the past decades. This may be associated with the nutrient enrichment of the Baltic Sea, which has favored growth of some of the OH-PBDE producers. Ceramium tenuicorne has been suggested to be a producer of OH-PBDEs in the Baltic Sea, which is supported by the results presented in this thesis. The levels of OH-PBDEs were observed to fluctuate greatly in C. tenuicorne over the summer season, and to correlate with the levels of pigments in the algae. However, the observed congener pattern in C. tenuicorne questioned theories regarding the mechanism of their biosynthesis. The results indicate a much more selective pathway for biosynthesis than previously suggested for the production of OH-PBDEs. One of the most abundant OH-PBDEs in C. tenuicorne, 6-OH-BDE137, has previously been observed to be toxic to bacteria, fungi, and crustaceans. Furthermore, Baltic gammarids seemed to change their feeding preferences towards less grazing on C. tenuicorne during the production peek of OH-PBDEs in the alga. This suggests that OH-PBDEs may serve as allelochemical defense agents for C. tenuicorne. The transport and fate of OH-PBDEs through a Baltic food chain was also studied, including C. tenuicorne, Gammarus spp., three-spined stickleback (Gasterosteus aculeatus), and perch (Perca fluviatilis). A small portion of the OH-PBDEs were observed to be methylated in the alga, or by associated bacteria. The methylated OH-PBDEs biomagnified in the food chain up to perch, in which they were converted back to the OH-PBDEs via demethylation. The OH-PBDEs and their methylated counterparts were also partially debrominated in the food chain, which resulted in high concentration of 6-OH-BDE47 in the perch. This congener is the most toxic OH-PBDE with regards to OXPHOS disruption. Another biotransformation of OH-PBDEs was identified in Baltic Sea blue mussels (Mytilus edulis). High concentrations of OH-PBDEs were conjugated with lipophilic moieties, e.g. fatty acids. This increases the residence time of the OH-PBDEs in the mussels. Mussels have been suggested to conjugate steroids with fatty acids as a means to regulate hormone levels. The conjugation of OH-PBDEs to fatty acids may occur due to intrusion into this pathway. Methods were developed to include quantification of conjugated OH-PBDEs in the analysis of mussels. OH-PBDEs were also quantified in blood from Baltic Sea grey seals (Halichoerus grypus). Seals originating from the Baltic proper were observed to be more highly exposed to 6-OH-BDE47 than seals from the Gulf of Bothnia. However, the levels of OH-PBDEs were generally low. A major effort was invested into securing these results, including development of a new analytical method. Blood obtained from dead seals is a difficult matrix for quantification of OH-PBDEs, and previous attempts using an established method yielded unsatisfactory results. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript.</p> OH-PBDEs Baltic Sea Biosynthesis Environmental fate Wildlife exposure Metabolism Analytical methods Ceramium tenuicorne Blue mussel Gammarus spp. Stickleback Perch Grey Seal
9	Ecotoxicological effects from three antifouling paints on the red macroalga Ceramium tenuicorne. Krantz-Frid, Madelene January 2009 (has links) Antifouling paints are applied on vessels to prevent growth of fouling organisms such hasbarnacles. Presently, there are a number of different paints available on the Swedish marketwith different strategies and active substances. The paints might work by either continuouslyreleasing biocides or physically by peeling off or provide an easily cleansed surface whereorganisms cannot attach. The physically working paints do not need to register an activesubstance since its purpose is not to affect living organisms by a chemical or biological modeof action. In this study, two commercially available paints, the copper-based Fabi 3959(International Paint Ltd) and physically eroding, biocide-free labelled Mille Light (HempelFärg AB) were compared to Hard Racing superior, containing copper and the forbiddensubstance Tributyltin. Fabi International is only allowed to be used on the Swedish west coastdue to 6% added as active substance while the biocide-free Mille Light is eligible for eastcoast usage. The toxic effect from respective paint was investigated by assembling a growthinhibition test with the red macro alga Ceramium tenuicorne. The results show that all thestudied paints had a negative effect on growth and therefore leaked substances inconcentrations high enough to be harmful to the alga. The toxic response differed with theeffect on growth being in the following order, Hard racing superior>Fabi >Mille Light.Implications regarding the current legalization involving biocide-free labelled antifoulingpaints are discussed. Antifouling paint Ceramium tenuicorne biocide-free TBT copper growth inhibition test The Baltic Sea Biological Sciences Biologiska vetenskaper Pharmacology and Toxicology Farmakologi och toxikologi
10	En undersökning av potentiellt odlingsbara makroalger i Hanöbukten, Östersjön Persson, Beatrice January 2023 (has links) In the future, the cultivation of algae for food may become increasingly important in Sweden. But this area is still new in Europe and most of the harvest today comes from wild stocks. In Sweden, cultivation is only available on the west coast, but research is underway to see if it is possible to start cultivating macroalgae in the Baltic Sea as well. The Baltic Sea has completely different biological conditions than the west coast, and one of the challenges is the low salinity, which limits the species that can live in the Baltic Sea. This is something that the Marine Center in Simrishamn is also researching in the project Tångkusten, of which this study is a part of. The purpose of this study is to use a literature study to compile available knowledge about which algae that has the potential to be cultivated in the future and what the life cycles of these algae look like. An inventory of the macroalgae found locally in Hanöbukten was also carried out. Based on this information, possible cultivation methods and the advantages of each species are discussed, but also the challenges that may arise. The results showed that the most abundant species were filamentous brown algae, bladder wrack and saw wrack . The species deemed most cultivable are gut weed and sea lettuce. Clawed fork weed, bladder wrack and saw wrack are also considered to have some cultivation potential. Among the biggest challenges are the growth of epiphytic algae and finding a suitable site for cultivation. / Projektet Tångkusten på Marint centrum i Simrishamn macroalgae aquaculture Baltic Sea seaweed Fucus vesiculosus Fucus serratus Ulva fenestrata Ulva intestinalis Ceramium tenuicorne Furcellaria lumbricalis Monostroma grevillei Monostroma balticum Cladophora glomerata makroalger havsodling Östersjön tång Fucus vesiculosus Fucus serratus Ulva fenestrata Ulva intestinalis Ceramium tenuicorne Furcellaria lumbricalis Monostroma grevillei Monostroma balticum Cladophora glomerata Biological Sciences Biologiska vetenskaper

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