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101. A comparative environmental life cycle assessment of hatchery, cultivation, and preservation of the kelp Saccharina latissima

Author

Thomas, Jean-Baptiste, Ribeiro, Mauricio S., Potting, Josepha, Cervin, G, Nylund, Göran M, Olsson, Joakim, Albers, Eva, Undeland, Ingrid, Pavia, Henrik, Gröndahl, Fredrik, Thomas, Jean-Baptiste, Ribeiro, Mauricio S., Potting, Josepha, Cervin, G, Nylund, Göran M, Olsson, Joakim, Albers, Eva, Undeland, Ingrid, Pavia, Henrik, and Gröndahl, Fredrik

Abstract

Seaweed cultivation and processing industries could contribute to sustainable blue growth and the European bioeconomy. This article contributes a case study evaluation of environmental sustainability of preserved brown seaweed Saccharina latissima by means of environmental life cycle assessment of a pilot facility in Sweden. The study accounts for nutrient bioremediation and carbon capture and includes two alternative hatchery processes, a 2-ha longline cultivation, and four alternative preservation methods (hang-drying outdoors, heated air-cabinet drying, ensiling, and freezing). The study found that as a result of carbon capture and nitrogen and phosphorus uptake (bioremediation) by seaweed, more CO2 and PO4 equivalents are (temporarily) absorbed than emitted by the supply chain. The extent of emissions is most affected by preservation methods undertaken. Impact profiles of the supply chain show that the greatest impact shares result from freezing and air-cabinet drying, both the two most energy-intensive processes, followed by the cultivation infrastructure, highlighting strategic optimization opportunities. Hatchery processes, harvesting, and the low-energy ensilage and hang-drying outdoors were found to have relatively small impact shares. These findings presage the environmentally friendliness of seaweed-based products by documenting their potential to mitigate eutrophication and climate change, even when taking a life cycle perspective., QC 20200925

Published
2020
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102. Socioeconomic prospects of a seaweed bioeconomy in Sweden

Author

Hasselström, Linus, Thomas, Jean Baptiste, Nordström, Jonas, Cervin, Gunnar, Nylund, Göran M., Pavia, Henrik, Gröndahl, Fredrik, Hasselström, Linus, Thomas, Jean Baptiste, Nordström, Jonas, Cervin, Gunnar, Nylund, Göran M., Pavia, Henrik, and Gröndahl, Fredrik

Abstract

Seaweed cultivation is a large industry worldwide, but production in Europe is small compared to production in Asian countries. In the EU, the motivations for seaweed farming may be seen from two perspectives; one being economic growth through biomass production and the other being the provisioning of ecosystem services such as mitigating eutrophication. In this paper, we assess the economic potential of large-scale cultivation of kelp, Saccharina latissima, along the Swedish west coast, including the value of externalities. The findings suggest that seaweed farming has the potential of becoming a profitable industry in Sweden. Furthermore, large-scale seaweed farming can sequester a significant share of annual anthropogenic nitrogen and phosphorus inflows to the basins of the Swedish west coast (8% of N and 60% of P). Concerning the valuation of externalities, positive values generated from sequestration of nitrogen and phosphorus are potentially counteracted by negative values from interference with recreational values. Despite the large N and P uptake, the socioeconomic value of this sequestration is only a minor share of the potential financial value from biomass production. This suggests that e.g. payment schemes for nutrient uptake based on the socioeconomic values generated is not likely to be a tipping point for the industry. Additionally, seaweed cultivation is not a cost-efficient measure in itself to remove nutrients. Policy should thus be oriented towards industry development, as the market potential of the biomass will be the driver that may unlock these bioremediation opportunities.

Published
2020

105. Chemical defences against herbivores

Author

Pavia, Henrik, primary, Baumgartner, Finn, additional, Cervin, Gunnar, additional, Enge, Swantje, additional, Kubanek, Julia, additional, Nylund, Göran M., additional, Selander, Erik, additional, Svensson, J. Robin, additional, and Toth, Gunilla B., additional

Published
2012
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108. Phidianidine A and Synthetic Analogues as Naturally Inspired Marine Antifoulants

Author

Labriere, Christophe, primary, Elumalai, Vijayaragavan, additional, Staffansson, Jannie, additional, Cervin, Gunnar, additional, Le Norcy, Tiffany, additional, Denardou, Hugo, additional, Réhel, Karine, additional, Moodie, Lindon W. K., additional, Hellio, Claire, additional, Pavia, Henrik, additional, Hansen, Jørn H., additional, and Svenson, Johan, additional

Published
2020
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111. Underpinning the Development of Seaweed Biotechnology: Cryopreservation of Brown Algae (Saccharina latissima) Gametophytes

Author

Visch, Wouter, Rad-Menéndez, Cecilia, Nylund, Göran M., Pavia, Henrik, Ryan, Matthew J., and Day, John

Subjects
Kelp, aquaculture, Cell Survival, Saccharina latissima, Dimethyl Sulfoxide, Original Articles, Germ Cells, Plant, Phaeophyta, Seaweed, brown algae, cryopreservation, gametophyte, Cell Proliferation
Abstract

Sugar kelp (Saccharina latissima) is an economically important species, and natural populations provide diverse and productive habitats as well as important ecosystem services. For seaweed aquaculture to be successful in newly emerging industry in Europe and other Western countries, it will have to develop sustainable production management strategies. A key feature in this process is the capacity to conserve genetic diversity for breeding programs aimed at developing seed stock for onward cultivation, as well as in the management of wild populations, as potentially interesting genetic resources are predicted to disappear due to climate change. In this study, the cryopreservation of male and female gametophytes (haploid life stage) of S. latissima by different combinations of two-step cooling methods and cryoprotectants was explored. We report here that cryopreservation constitutes an attractive option for the long-term preservation of S. latissima gametophytes, with viable cells in all treatment combinations. The highest viabilities for both male and female gametophytes were found using controlled-rate cooling methods combined with dimethyl sulfoxide 10% (v/v). Morphological normal sporophytes were observed to develop from cryopreserved vegetative gametophytic cells, independent of treatment. This indicates that cryopreservation is a useful preservation method for male and female S. latissima gametophytes.

Published
2019

112. Geographic variation in fitness-related traits of the bladderwrack Fucus vesiculosus along the Baltic Sea-North Sea salinity gradient

Author

Barboza, Francisco R., Kotta, Jonne, Weinberger, Florian, Jormalainen, Veijo, Kraufvelin, Patrik, Molis, Markus, Schubert, Hendrik, Pavia, Henrik, Nylund, Göran M., Kautsky, Lena, Schagerström, Ellen, Rickert, Esther, Saha, Mahasweta, Fredriksen, Stein, Martin, Georg, Torn, Kaire, Ruuskanen, Ari, Wahl, Martin, Barboza, Francisco R., Kotta, Jonne, Weinberger, Florian, Jormalainen, Veijo, Kraufvelin, Patrik, Molis, Markus, Schubert, Hendrik, Pavia, Henrik, Nylund, Göran M., Kautsky, Lena, Schagerström, Ellen, Rickert, Esther, Saha, Mahasweta, Fredriksen, Stein, Martin, Georg, Torn, Kaire, Ruuskanen, Ari, and Wahl, Martin

Abstract

In the course of the ongoing global intensification and diversification of human pressures, the study of variation patterns of biological traits along environmental gradients can provide relevant information on the performance of species under shifting conditions. The pronounced salinity gradient, co-occurrence of multiple stressors, and accelerated rates of change make the Baltic Sea and its transition to North Sea a suitable region for this type of study. Focusing on the bladderwrack Fucus vesiculosus, one of the main foundation species on hard-bottoms of the Baltic Sea, we analyzed the phenotypic variation among populations occurring along 2,000 km of coasts subjected to salinities from 4 to >30 and a variety of other stressors. Morphological and biochemical traits, including palatability for grazers, were recorded at 20 stations along the Baltic Sea and four stations in the North Sea. We evaluated in a common modeling framework the relative contribution of multiple environmental drivers to the observed trait patterns. Salinity was the main and, in some cases, the only environmental driver of the geographic trait variation in F. vesiculosus. The decrease in salinity from North Sea to Baltic Sea stations was accompanied by a decline in thallus size, photosynthetic pigments, and energy storage compounds, and affected the interaction of the alga with herbivores and epibiota. For some traits, drivers that vary locally such as wave exposure, light availability or nutrient enrichment were also important. The strong genetic population structure in this macroalgae might play a role in the generation and maintenance of phenotypic patterns across geographic scales. In light of our results, the desalination process projected for the Baltic Sea could have detrimental impacts on F. vesiculosus in areas close to its tolerance limit, affecting ecosystem functions such as habitat formation, primary production, and food supply.

Published
2019
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113. A step towards closing the food-waste gap in novel protein sources: Post-harvest protein boost of the seaweed crop Ulvaby herring production tub water

Author

Steinhagen, Sophie, Stedt, Kristoffer, Trigo, João P., Undeland, Ingrid, and Pavia, Henrik

Abstract

Sea lettuce (Ulva) species have been identified as a future protein source, and post-harvest techniques, including the sustainable integration of liquid food side streams, have been developed to further increase their protein content and commercial market value. This study explores the post-harvest treatment of commercially produced seaweed biomass from large-scale, sea-based cultivations of U. fenestratawith residual water streams emerging from industrial storage of herring – so called herring production tub water (TUB). Growth rates of U. fenestratawere significantly higher in TUB treated seaweeds compared to controls. Further, the crude protein content was 71.26 % higher when cultivated in TUB, compared to controls, reaching a crude protein content of 37.37 ± 1.83 % dry weight. Notably, there were no limiting amino acids, nor fish-related allergenic activity in the seaweed biomass. Our study demonstrates a new nutrient loop turning food waste into protein-rich biomass by applying sustainable seaweed cultivation.

Published
2024
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114. Antifouling activity of portimine, select semisynthetic analogues, and other microalga-derived spirocyclic imines

Author

Brooke, Darby G., Cervin, Gunnar, Champeau, Olivier, D. Tim Harwood, Pavia, Henrik, Selwood, Andrew I., Svenson, Johan, Tremblay, Louis A., and Cahill, Patrick L.

Abstract

A range of natural products from marine invertebrates, bacteria and fungi have been assessed as leads for nature-inspired antifouling (AF) biocides, but little attention has been paid to microalgal-derived compounds. This study assessed the AF activity of the spirocyclic imine portimine (1), which is produced by the benthic mat-forming dinoflagellate Vulcanodinium rugosum. Portimine displayed potent AF activity in a panel of four macrofouling bioassays (EC50 0.06–62.5 ng ml−1), and this activity was distinct from that of the related compounds gymnodimine-A (2), 13-desmethyl spirolide C (3), and pinnatoxin-F (4). The proposed mechanism of action for portimine is induction of apoptosis, based on the observation that portimine inhibited macrofouling organisms at developmental stages known to involve apoptotic processes. Semisynthetic modification of select portions of the portimine molecule was subsequently undertaken. Observed changes in bioactivity of the resulting semisynthetic analogues of portimine were consistent with portimine’s unprecedented 5-membered imine ring structure playing a central role in its AF activity.

Published
2018
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117. Geographic variation in fitness‐related traits of the bladderwrack Fucus vesiculosus along the Baltic Sea‐North Sea salinity gradient

Author

Barboza, Francisco R., primary, Kotta, Jonne, additional, Weinberger, Florian, additional, Jormalainen, Veijo, additional, Kraufvelin, Patrik, additional, Molis, Markus, additional, Schubert, Hendrik, additional, Pavia, Henrik, additional, Nylund, Göran M., additional, Kautsky, Lena, additional, Schagerström, Ellen, additional, Rickert, Esther, additional, Saha, Mahasweta, additional, Fredriksen, Stein, additional, Martin, Georg, additional, Torn, Kaire, additional, Ruuskanen, Ari, additional, and Wahl, Martin, additional

Published
2019
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120. Effects of irradiance, temperature, nutrients, and pCO2 on the growth and biochemical composition of cultivated Ulva fenestrata.

Author

Toth, Gunilla B., Harrysson, Hanna, Wahlström, Niklas, Olsson, Joakim, Oerbekke, Annelous, Steinhagen, Sophie, Kinnby, Alexandra, White, Joel, Albers, Eva, Edlund, Ulrica, Undeland, Ingrid, and Pavia, Henrik

Abstract

Ulva fenestrata is an economically and ecologically important green algal species with a large potential in seaweed aquaculture due to its high productivity, wide environmental tolerance, as well as interesting functional and nutritional properties. Here, we performed a series of manipulative cultivation experiments in order to investigate the effects of irradiance (50, 100, and 160 μmol photons m−2 s−1), temperature (13 and 18 °C), nitrate (< 5, 150, and 500 μM), phosphate (< 1 and 50 μM), and pCO2 (200, 400, and 2500 ppm) on the relative growth rate and biochemical composition (fatty acid, protein, phenolic, ash, and biochar content) in indoor tank cultivation of Swedish U. fenestrata. High irradiance and low temperature were optimal for the growth of this northern hemisphere U. fenestrata strain, but addition of nutrients or changes in pCO2 levels were not necessary to increase growth. Low irradiance resulted in the highest fatty acid, protein, and phenolic content, while low temperature had a negative effect on the fatty acid content but a positive effect on the protein content. Addition of nutrients (especially nitrate) increased the fatty acid, protein, and phenolic content. High nitrate levels decreased the total ash content of the seaweeds. The char content of the seaweeds did not change in response to any of the manipulated factors, and the only significant effect of changes in pCO2 was a negative relationship with phenolic content. We conclude that the optimal cultivation conditions for Swedish U. fenestrata are dependent on the desired biomass traits (biomass yield or biochemical composition). [ABSTRACT FROM AUTHOR]

Published
2020
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124. Combustion of seaweed : a fuel design strategy

Author

Skoglund, Nils, Werner, Kajsa, Nylund, Göran M., Pavia, Henrik, Albers, Eva, Broström, Markus, Skoglund, Nils, Werner, Kajsa, Nylund, Göran M., Pavia, Henrik, Albers, Eva, and Broström, Markus

Abstract

The high ash content and varying ash composition in algal biomass is often mentioned as problematic if to beused for thermal energy conversion. This paper suggests an approach where detailed information on ash compositionand predicted ash formation reactions are basis for successful remedies enabling the use of fuels consideredto be difficult. The procedure is demonstrated on seaweed (Saccharina latissima) cultivated for biorefinery purposes. The ash composition of the seaweed was found suitable for co-combustion with Miscanthus x giganteus, an energy crop high in alkali and silicon. Fuel mixtures were combusted in a bubbling fluidized bed reactorand ash samples were analyzed by SEM-EDS and XRD. The results showed that Ca from the seaweed was veryreactive and thus efficient in solving the silicatemelting problems. The fuel design approach was proven successfuland the potential for using otherwise difficult seaweed fuels in synergetic co-combustion was demonstrated., Bio4Energy

Published
2017
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125. Probing the Structure-Activity Relationship of the Natural Antifouling Agent Polygodial against both Micro- and Macrofoulers by Semisynthetic Modification

Author

Moodie, Lindon W. K., Trepos, Rozenn, Cervin, Gunnar, Larsen, Lesley, Larsen, David S., Pavia, Henrik, Hellio, Claire, Cahill, Patrick, Svenson, Johan, Moodie, Lindon W. K., Trepos, Rozenn, Cervin, Gunnar, Larsen, Lesley, Larsen, David S., Pavia, Henrik, Hellio, Claire, Cahill, Patrick, and Svenson, Johan

Abstract

The current study represents the first comprehensive investigation into the general antifouling activities of the natural drimane sesquiterpene polygodial. Previous studies have highlighted a high antifouling effect toward macrofoulers, such as ascidians, tubeworms, and mussels, but no reports about the general antifouling effect of polygodial have been communicated before. To probe the structural and chemical basis for antifouling activity, a library of 11 polygodial analogues was prepared by semisynthesis. The library was designed to yield derivatives with ranging polarities and the ability to engage in both covalent and noncovalent interactions, while still remaining within the drimane sesquiterpene scaffold. The prepared compounds were screened against 14 relevant marine micro- and macrofouling species. Several of the polygodial analogues displayed inhibitory activities at sub-microgram/mL concentrations. These antifouling effects were most pronounced against the macrofouling ascidian Ciona savignyi and the barnacle Balanus improvisus, with inhibitory activities observed for selected compounds comparable or superior to several commercial antifouling products. The inhibitory activity against the microfouling bacteria and microalgae was reversible and significantly less pronounced than for the macrofoulers. This study illustrates that the macro- and microfoulers are targeted by the compounds via different mechanisms.

Published
2017
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126. Prevention of Marine Biofouling Using the Natural Allelopathic Compound Batatasin-Ill and Synthetic Analogues

Author

Moodie, Lindon W. K., Trepos, Rozenn, Cervin, Gunnar, Brathen, Kari Anne, Lindgard, Bente, Reiersen, Rigmor, Cahil, Patrick, Pavia, Henrik, Hellio, Claire, Svenson, Johan, Moodie, Lindon W. K., Trepos, Rozenn, Cervin, Gunnar, Brathen, Kari Anne, Lindgard, Bente, Reiersen, Rigmor, Cahil, Patrick, Pavia, Henrik, Hellio, Claire, and Svenson, Johan

Abstract

The current study reports the first comprehensive evaluation of a class of allelopathic terrestrial natural products as antifoulants in a marine setting. To investigate the antifouling potential of the natural dihydrostilbene scaffold, a library of 22 synthetic dihydrostilbenes with varying substitution patterns, many of which occur naturally in terrestrial plants, were prepared and assessed for their antifouling capacity. The compounds were evaluated in an extensive screen against 16 fouling marine organisms. The dihydrostilbene scaffold was shown to possess powerful general antifouling effects against both marine microfoulers and macrofoulers with inhibitory activities at low concentrations. The species of microalgae examined displayed a particular sensitivity toward the evaluated compounds at low ng/mL concentrations. It was shown that several of the natural and synthetic compounds exerted their repelling activities via nontoxic and reversible mechanisms. The activities of the most active compounds such as 3,5-dimethoxybibenzyl (5), 3,4-dimethoxybibenzyl (9), and 3-hyolroxy-3',4,5'-trirnethoxybibenzyl (20) were comparable to the commercial antifouling booster biocide. Sea-nine, which was employed as a positive control. The investigation of terrestrial allelopathic natural products to counter marine fouling represents a novel strategy for the design of "green" antifouling technologies, and these compounds offer a potential alternative to traditional biocidal antifoulants.

Published
2017
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127. A Review of Herbivore Effects on Seaweed Invasions

Author

Enge, Swantje, Sagerman, Josefin, Wikström, Sofia A., Pavia, Henrik, Enge, Swantje, Sagerman, Josefin, Wikström, Sofia A., and Pavia, Henrik

Abstract

Almost 300 non-native seaweeds are identified worldwide and an increasing number of these are classified as invasive with potential negative effects on the diversity and functioning of native ecosystems. Marine herbivores affect seaweed biomass and community structure in marine habitats across the globe. Consequently, herbivore-seaweed interactions are expected to be important for the establishment and invasion success of non-native seaweeds. To synthesize current knowledge of consumer effects on non-native seaweeds, we performed a meta-analysis on feeding preferences of native herbivores for non-native versus native seaweeds. Data were included from 35 studies, published from 1992-2015 and comprising 18 non-native seaweeds. Results showed that overall, native herbivores tended to prefer to feed on native rather than non-native seaweeds. Preferences were, however, variable across studies with significant differences between taxonomic and functional groups of seaweeds. In particular, filamentous red non-native seaweeds were of low palatability to native herbivores. No general feeding preferences were apparent between natives and non-natives for brown and green seaweeds, or for leathery and corticated seaweeds. In addition, we reviewed the existing studies on the effects of consumers on the performance of native and non-native seaweeds in invaded communities. This indicated that non-native seaweeds performed better than their native competitors in the presence of grazers, but in many cases had superior competitive abilities also in the absence of herbivory. To achieve a comprehensive evaluation of consumers' role in seaweed invasion success, future research should have a larger focus on manipulative community experiments, ideally on time scales that include seasonal changes and complete life cycles of the seaweeds.

Published
2017
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132. CIRCUMGLOBAL INVASION BY THE BROWN SEAWEED SARGASSUM MUTICUM

Author

Engelen, Aschwin H., Serebryakova, Alexandra, Ang, Put, Britton-Simmons, Kevin, Mineur, Frédéric, Pedersen, Morten F., Arenas, Francisco, Fernandez, Consolacion, Steen, Henning, Svenson, Robin, Pavia, Henrik, Toth, Gunilla, Viard, Frédérique, Santos, Rui, School of Biological Sciences, Queen's University [Belfast] (QUB), Station biologique de Roscoff [Roscoff] (SBR), Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS), University of Gothenburg (GU), DIVersité et COnnectivité dans le paysage marin côtier (DIVCO), Adaptation et diversité en milieu marin (AD2M), Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Station biologique de Roscoff [Roscoff] (SBR), Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), Marine Plant Ecology Research Group (ALGAE), Centre of Marine Sciences [Faro] (CCMAR), University of Algarve [Portugal]-University of Algarve [Portugal], Hughes, RN and Hughes, DJ and Smith, IP and Dale, and AC

Subjects
taxonomy, seaweed, [SDV]Life Sciences [q-bio], [SDE]Environmental Sciences, impact, Sargassum muticum, interactions, ecology, invasion, non-indigenous species, invasive species
Abstract

International audience; Hundreds of macroalgal species have been spread outside their natural range by human activities, and many of these introductions are occurring at a worldwide scale. This review considers one of the best-studied and most widespread invasive macroalgae, Sargassum muticum, to determine the traits and processes important in marine invasions and to identify important lines of future research. Particular emphasis is placed on the ecology of S. muticum in its native range and on the four stages of invasion transport, colonization, establishment, and spread integrating taxonomy, invasion history, dispersal, impact, invasiveness and invasibility, and general ecology. Although S. muticum has received a lot of scientific attention, with more than 650 papers on this species, key information on its taxonomy, invasive biology, and evolutionary potential is still lacking. Most previous studies have been local or descriptive or provide circumstantial evidence, and too few have been hypothesis driven. Only by local-scale research conducted in different geographical regions, especially including the native range, and developed in an eco-evolutionary framework, will it be possible to greatly improve our understanding of the complex of factors, traits, and processes involved in macroalgal invasions.

Published
2015

133. Sensory and consumer aspects of sea lettuce (Ulva fenestrata)– impact of harvest time, cultivation conditions and protein level

Author

Wendin, Karin, Stedt, Kristoffer, Steinhagen, Sophie, Pavia, Henrik, and Undeland, Ingrid

Abstract

•Sea lettuce is green, has tastes of umami, salt, bitter, and sour.•Sea lettuce has odours and flavours of grass and fresh seaweed and crispy texture.•Cultivation conditions and harvest time affected the protein content.•Protein content affected green colour and intensity of bitter taste.•Consumers are positive towards seaweeds as foods.

Published
2024
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134. Solid phase extraction and metabolic profiling of exudates from living copepods

Author

Selander, Erik, Heuschele, Jan, Nylund, Göran M., Pohnert, Georg, Pavia, Henrik, Bjærke, Oda, Pender-Healy, Larisa A., Tiselius, Peter, Kiørboe, Thomas, Selander, Erik, Heuschele, Jan, Nylund, Göran M., Pohnert, Georg, Pavia, Henrik, Bjærke, Oda, Pender-Healy, Larisa A., Tiselius, Peter, and Kiørboe, Thomas

Abstract

Copepods are ubiquitous in aquatic habitats. They exude bioactive compounds that mediate mate finding or induce defensive traits in prey organisms. However, little is known about the chemical nature of the copepod exometabolome that contributes to the chemical landscape in pelagic habitats. Here we describe the development of a closed loop solid phase extraction setup that allows for extraction of exuded metabolites from live copepods. We captured exudates from male and female Temora longicornis and analyzed the content with high resolution LC-MS. Chemometric methods revealed 87 compounds that constitute a specific chemical pattern either qualitatively or quantitatively indicating copepod presence. The majority of the compounds were present in both female and male exudates, but nine compounds were mainly or exclusively present in female exudates and hence potential pheromone candidates. Copepodamide G, known to induce defensive responses in phytoplankton, was among the ten compounds of highest relative abundance in both male and female extracts. The presence of copepodamide G shows that the method can be used to capture and analyze chemical signals from living source organisms. We conclude that solid phase extraction in combination with metabolic profiling of exudates is a useful tool to develop our understanding of the chemical interplay between pelagic organisms

Published
2016

135. Water-borne cues induce chemical defense in a marine alga (Ascophyllum nodosum)

Author

Toth, Gunilla B. and Pavia, Henrik

Subjects
Marine algae -- Physiological aspects, Phytochemistry -- Research, Gastropoda -- Food and nutrition, Science and technology
Abstract

It is well known that herbivores can induce chemical defenses in terrestrial vascular plants, but few examples of inducible production of defense chemicals have been reported for aquatic macrophytes. Furthermore, it is well established that water-borne chemical cues from predators or predator-wounded conspecifics can induce defensive changes of aquatic prey animals, but no such communication between aquatic herbivores and seaweeds has been reported. Here we show that water-borne cues from actively feeding herbivorous gastropods, flat periwinkles (Littorina obtusata), can serve as external signals to induce production of defense chemicals (phlorotannins) in unharmed individuals of seaweeds, knotted wrack (Ascophyllum nodosum), and that the increased levels of defense chemicals deter further feeding by periwinkles. Because seaweeds have poorly developed internal-transport systems and may not be able to elicit systemic-induced chemical defenses through conveyance of internal signals, this mechanism ensures that seaweeds can anticipate future periwinkle attacks without receiving direct damage by herbivores.

Published
2000

137. Seasonal and spatial variation in biochemical composition of Saccharina latissima during a potential harvesting season for Western Sweden

Author

Vilg, Jenny Veide, Nylund, Göran M., Werner, Tony, Qvirist, Linnea, Mayers, Joshua J., Pavia, Henrik, Undeland, Ingrid, Albers, Eva, Vilg, Jenny Veide, Nylund, Göran M., Werner, Tony, Qvirist, Linnea, Mayers, Joshua J., Pavia, Henrik, Undeland, Ingrid, and Albers, Eva

Abstract

This study monitored the biomass composition of Saccharina latissima during a potential harvesting season on the West coast of Sweden, in order to find suitable harvest times for biorefinery purposes. Specimens of S. latissima were sampled at three locations in June, August and October and the biomass was analysed for its macromolecular composition, as well as for the content of several specific compounds, e.g. sugars and fatty acids. PERMANOVA analyses showed that there was a significant difference in the biomass composition among time points. The total carbohydrate concentration was lowest in June and peaked at 360 mg g-1 dry weight in August, while the mannitol content was highest, 90 mg g-1, in June and decreased throughout the sampling period. Total protein and fatty acid concentrations were found to be approximately 80 and 3 mg g-1, respectively, with relatively little variation over time. Overall, there was little spatial variation in the macromolecular composition, although the concentration of some specific monosaccharides and fatty acids, as well as the total phenolic content, differed among localities. We discuss the implications of the observed variation in biomass composition of S. latissima for future biorefinery purposes.

Published
2015
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138. Molecular identification of the ubiquitous green algae Ulva reveals high biodiversity, crypticity, and invasive species in the Atlantic-Baltic Sea region.

Author

Steinhagen, Sophie, Hoffmann, Samanta, Pavia, Henrik, and Toth, Gunilla B.

Abstract

Correct species identification is fundamental for assessment and understanding of biodiversity. Erroneous species identification may impede conservation management and may delay detection of invasive species. The ubiquitous green algal genus Ulva is known for its wide environmental tolerance, plastic morphology, occurrence of cryptic species and ambiguous species concepts that hinder clear identification. We used molecular monitoring to assess species diversity and distribution of Ulva along the full Atlantic-Baltic Sea salinity gradient (> 10,000 km). Ulva specimens were collected from Denmark, Finland, Germany, Norway, and Sweden. DNA barcoding analysis of the tuf A gene revealed 20 genetic entities in total, of which 11 could be identified to species level (U. californica , U. flexuosa , U. torta, U. linza , U. prolifera , U. fenestrata , U. australis , U. intestinalis , U. compressa , U. gigantea , U. lacinulata). Nine entities (Ulva sp. 1–9; [ Ulva capillata ]) yielded novel sequence reads that belonged to either unidentified species, species complexes, or singletons. At least 3 of the discovered species (U. australis , U. californica , U. gigantea) are considered non-native and potentially invasive. Furthermore, considerable differences between the observed and the historically estimated species distributions were found. The highest diversity was recorded in the Atlantic and Skagerrak region whereas only two entities of taxonomically accepted species where found north-east the Blekinge coast. Our study shows that the species diversity of Ulva in the study area is diverging from previous reports, and that molecular methods are imperative for species identification in this morphologically plastic genus. Furthermore, the presence of non-native species indicates a necessity for further fine-scale monitoring in specific areas to e.g. mitigate formation of green tides. • Our study provides a completely revised picture of the status quo of the molecular biodiversity of Ulva spp. within the Atlantic-Baltic Sea transect and defines distribution patterns and range margins for the different species. • Further, our study unravels the existence of multiple invasive and unidentified species in the investigated area. • The observations of the present study provide a basis for e.g. the development of managing efforts, invasive species tracking, as well as for strain selection of the emerging seaweed aquaculture industry. [ABSTRACT FROM AUTHOR]

Published
2023
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147. Ecological role of a seaweed secondary metabolite for a colonizing bacterial community

Author

Persson, Frank, Svensson, Robin, Nylund, Göran M., Fredriksson, Nils Johan, Pavia, Henrik, Hermansson, Malte, Persson, Frank, Svensson, Robin, Nylund, Göran M., Fredriksson, Nils Johan, Pavia, Henrik, and Hermansson, Malte

Abstract

Bacteria associated with seaweeds can both harm and benefit their hosts. Many seaweed species are known to produce compounds that inhibit growth of bacterial isolates, but the ecological role of seaweed metabolites for the associated bacterial community structure is not well understood. In this study the response of a colonizing bacterial community to the secondary metabolite (1,1,3,3-tetrabromo-2-heptanone) from the red alga Bonnemaisonia hamifera was investigated by using field panels coated with the metabolite at a range of concentrations covering those measured at the algal surface. The seaweed metabolite has previously been shown to have antibacterial effects. The metabolite significantly affected the natural fouling community by (i) altering the composition, (ii) altering the diversity by increasing the evenness and (iii) decreasing the density, as measured by terminal restriction fragment length polymorphism in conjunction with clone libraries of the 16S rRNA genes and by bacterial enumeration. No single major bacterial taxon (phylum, class) was particularly affected by the metabolite. Instead changes in community composition were observed at a more detailed phylogenetic level. This indicates a broad specificity of the seaweed metabolite against bacterial colonization, which is supported by the observation that the bacterial density was significantly affected at a lower concentration (0.02 g cm-2) than the composition (1-2.5 g cm-2) and the evenness (5 g cm-2) of the bacterial communities. Altogether, the results emphasize the role of secondary metabolites for control of the density and structure of seaweed-associated bacterial communities., Funding Agencies:MARICE, a strategic research platform in marine chemical ecology at the Faculty of Science University of Gothenburg Fundations of Helge Ax:son Johnsson and Wilhelm & Martina Lundgren

Published
2011
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