Your search keyword '"Gröndahl F"' showing total 26 results

1. Quantifying nutrient recovery by element flow analysis: Harvest and use of seven marine biomasses to close N and P loops

Author

Sinha, R., Thomas, J.-B.E., Strand, Å., Söderqvist, T., Stadmark, J., Franzen, F., Ingmansson, I., Gröndahl, F., and Hasselström, L.

Published

2022

2. Corrigendum to “Assessing the potential for sea-based macroalgae cultivation and its application for nutrient removal in the Baltic Sea” [Sci. Total Environ. 839 (2022) 156230]

Author

Kotta, J., primary, Raudsepp, U., additional, Szava-Kovats, R., additional, Aps, R., additional, Armoskaite, A., additional, Barda, I., additional, Bergström, P., additional, Futter, M., additional, Gröndahl, F., additional, Hargrave, M., additional, Jakubowska, M., additional, Jänes, H., additional, Kaasik, A., additional, Kraufvelin, P., additional, Kovaltchouk, N., additional, Krost, P., additional, Kulikowski, T., additional, Kõivupuu, A., additional, Kotta, I., additional, Lees, L., additional, Loite, S., additional, Maljutenko, I., additional, Nylund, G., additional, Paalme, T., additional, Pavia, H., additional, Purina, I., additional, Rahikainen, M., additional, Sandow, V., additional, Visch, W., additional, Yang, B., additional, and Barboza, F.R., additional

Published

2023

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

Author

Thomas, J -B E, primary, Sodré Ribeiro, M, additional, Potting, J, additional, Cervin, G, additional, Nylund, G M, additional, Olsson, J, additional, Albers, E, additional, Undeland, I, additional, Pavia, H, additional, and Gröndahl, F, additional

Published

2020

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

Author

Thomas, J -B E, Ribeiro, M Sodré, Potting, J, Cervin, G, Nylund, G M, Olsson, J, Albers, E, Undeland, I, Pavia, H, and Gröndahl, F

Subjects

SACCHARINA, KELPS, SUSTAINABILITY, MARINE algae, SUPPLY chains, LAMINARIA, MARINE plants

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. [ABSTRACT FROM AUTHOR]

Published

2021

5. Interactions between polyps of Aurelia aurita and planktonic larvae of scyphozoans: an experimental study

Author

Gröndahl, F.

Published

1988

6. Evidence of gregarious settlement of planula larvae of the scyphozoan Aurelia aurita: an experimental study

Author

Gröndahl, F.

Published

1989

7. A comparative ecological study on the scyphozoans Aurelia aurita, Cyanea capillata and C. lamarckii in the Gullmar Fjord, western Sweden, 1982 to 1986

Author

Gröndahl, F.

Published

1988

8. Sustainable use of Baltic Sea natural resources based on ecological engineering and biogas production

Author

Gröndahl, F., primary, Brandt, N., additional, Karlsson, S., additional, and Malmström, M. E., additional

Published

2009

9. Governance hurdles for expansion of low trophic mariculture production in Sweden.

Author

Franzén F, Strand Å, Stadmark J, Ingmansson I, Thomas JE, Söderqvist T, Sinha R, Gröndahl F, and Hasselström L

Subjects

Sweden, Conservation of Natural Resources methods, Animals, Sustainable Development, Ecosystem, Seaweed growth & development, Mollusca growth & development, Decision Making, Aquaculture legislation & jurisprudence

Abstract

The study examines the governance of low trophic species mariculture (LTM) using Sweden as a case study. LTM, involving species such as seaweeds and mollusks, offers ecosystem services and nutritious foods. Despite its potential to contribute to blue growth and Sustainable Development Goals, LTM development in the EU and OECD countries has stagnated. A framework for mapping governance elements (institutions, structures, and processes) and analyzing governance objective (effective, equitable, responsive, and robust) was combined with surveys addressed to the private entrepreneurs in the sector. Analysis reveals ineffective institutions due to lack of updated legislation and guidance, resulting in ambiguous interpretations. Governance structures include multiple decision-making bodies without a clear coordination agency. Licensing processes were lengthy and costly for the private entrepreneurs, and the outcomes were uncertain. To support Sweden's blue bioeconomy, LTM governance requires policy integration, clearer direction, coordinated decision-making, and mechanisms for conflict resolution and learning., (© 2024. The Author(s).)

Published

2024

10. Life Cycle Assessment of a large commercial kelp farm in Shandong, China.

Author

Li J, Bergman K, Thomas JE, Gao Y, and Gröndahl F

Abstract

The environmental benefits of seaweed cultivation have gained a lot of attention, both in policy strategies and by private companies. Sustainability evaluations of seaweed farming have however focused on a very small part of global production of seaweed - on European cultivations at research and pilot-scales although Asia stands for 99 % of global production with China alone producing 60 %. In this study, we use Life Cycle Assessment (LCA) to evaluate the environmental performance of a 400-hectare Chinese kelp farm with a yearly harvest of 60,000 tons. Primary data from the farm was used to assess impacts up until harvest for the functional unit of 1 ton of fresh-weight kelp. Included in the LCA were impact on climate change, acidification terrestrial and marine eutrophication, and use of land water and energy. In addition, we calculated nutrient uptake. Further, we extracted inventory data of four published LCA studies of farmed kelp and recalculated environmental impacts, applying the same background data and method choices with the aim to compare the effects of scale and cultivation system. The results of the hotspot analysis showed that the plastic ropes and buoys dominated impacts on climate change, freshwater and marine eutrophication, and energy consumption. Consequently, the most effective improvement action was recycling after use. The yearly harvest of the Chinese farm was 1000-4000 times larger than previously evaluated farms compared. Results suggest that streamlined and mature production in the large-scale Chinese kelp farm led to lower electricity and fuel consumption compared to small-scale production, thus placing the Chinese farm with a climate impact of 57.5 kg CO 2 eq. per ton fresh-weight kelp on the lower end when comparing the carbon footprint. There was a large variation in carbon footprints, which implies that the kelp cultivation sector has considerable room for optimization., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: FG is a co-founder of a kelp farming start-up, Nordic Seafarm Ltd. All other authors declare no conflicts of interest., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

11. Potential of the Red Macroalga Bonnemaisonia hamifera in Reducing Methane Emissions from Ruminants.

Author

Guinguina A, Hayes M, Gröndahl F, and Krizsan SJ

Abstract

Researchers have been exploring seaweeds to reduce methane (CH 4 ) emissions from livestock. This study aimed to investigate the potential of a red macroalga, B. hamifera , as an alternative to mitigate CH 4 emissions. B. hamifera , harvested from the west coast of Sweden, was used in an in vitro experiment using a fully automated gas production system. The experiment was a randomized complete block design consisting of a 48 h incubation that included a control (grass silage) and B. hamifera inclusions at 2.5%, 5.0%, and 7.5% of grass silage OM mixed with buffered rumen fluid. Predicted in vivo CH 4 production and total gas production were estimated by applying a set of models to the gas production data and in vitro fermentation characteristics were evaluated. The results demonstrated that the inclusion of B. hamifera reduced ( p = 0.01) predicted in vivo CH 4 and total gas productions, and total gas production linearly decreased ( p = 0.03) with inclusion of B. hamifera . The molar proportion of propionate increased ( p = 0.03) while isovalerate decreased ( p = 0.04) with inclusion of B. hamifera . Chemical analyses revealed that B. hamifera had moderate concentrations of polyphenols. The iodine content was low, and there was no detectable bromoform, suggesting quality advantages over Asparagopsis taxiformis . Additionally, B. hamifera exhibited antioxidant activity similar to Resveratrol. The findings of this study indicated that B. hamifera harvested from temperate waters of Sweden possesses capacity to mitigate CH 4 in vitro.

Published

2023

12. Methane emissions from macrophyte beach wrack on Baltic seashores.

Author

Björk M, Rosenqvist G, Gröndahl F, and Bonaglia S

Subjects

Seasons, Temperature, Water, Carbon Dioxide analysis, Methane analysis, Greenhouse Gases

Abstract

Beach wrack of marine macrophytes is a natural component of many beaches. To test if such wrack emits the potent greenhouse gas methane, field measurements were made at different seasons on beach wrack depositions of different ages, exposure, and distance from the water. Methane emissions varied greatly, from 0 to 176 mg CH 4 -C m -2  day -1 , with a clear positive correlation between emission and temperature. Dry wrack had lower emissions than wet. Using temperature data from 2016 to 2020, seasonal changes in fluxes were calculated for a natural wrack accumulation area. Such calculated average emissions were close to zero during winter, but peaked in summer, with very high emissions when daily temperatures exceeded 20 °C. We conclude that waterlogged beach wrack significantly contributes to greenhouse gas emissions and that emissions might drastically increase with increasing global temperatures. When beach wrack is collected into heaps away from the water, the emissions are however close to zero., (© 2022. The Author(s).)

Published

2023

13. Comparative life cycle assessment of conventional and novel microalgae production systems and environmental impact mitigation in urban-industrial symbiosis.

Author

Pechsiri JS, Thomas JE, Bahraoui NE, Fernandez FGA, Chaouki J, Chidami S, Tinoco RR, Martin JP, Gomez C, Combe M, and Gröndahl F

Subjects

Animals, Symbiosis, Photobioreactors, Environment, Life Cycle Stages, Biomass, Microalgae

Abstract

The versatility of microalgae biomass as candidates for various products and bioremediation needs motivates interests towards design and implementation of novel microalgae bioreactors. Conventional open-reactors are reliant on large quantities of sunlight and space while yields are constrained by outdoor environment conditions. Conversely, closed-reactor systems like bubble columns reduces these constrains on microalgae growth while occupying far less space at the expense of high energy demands, notably from lighting systems. A novel patented closed reactor design has recently been proposed that improves the bubble column concept with an efficient and effective lighting system. The present study uses Life Cycle Assessment approach to compare the environmental performance of conventional reactors and the proposed internally luminated novel closed reactor design, expressing impacts per kg biostimulant for the Scenedesmus almeriensis harvest from such units. All performance data was collected from a pilot facility in Almeria, Spain. Urban-industrial symbiosis scenarios are also portrayed in the study using wastewater and incinerator flue gas. Results show that under synthetic nutrient and carbon inputs in Spanish pilot operations, the cumulative energy demand for the novel photobioreactors is similar to conventional vertically-stacked horizon bioreactors but are substantially more demanding than conventional open reactors. However, when leveraging renewable energy sources and the photosynthesis process to consume wastestreams in urban-industrial symbiosis scenarios, the novel photobioreactor was able to achieve up to 80 % improvements in several impact categories e.g. eutrophication and climate change. Impact mitigation credits per kg dwt biomass across all energy scenarios in symbiosis amount to ≈1.8 kg CO 2 eq and ≈0.09 kg PO4 eq. This highlights that such closed and internally illuminated photobioreactors can be competitive with conventional reactors, and have potential to harness photosynthesis to reduce environmental burdens in an urban-industrial symbiosis setting. Possible economies of scale and the associated potential gains in efficiencies are further discussed., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: All Authors reports financial support was provided by SYCTOM, L'AGENCE METROPOLITAINE DES DECHETS MENAGERS. SYCTOM, L'AGENCE METROPOLITAINE DES DECHETS MENAGER has patent #Internally illuminated photo bioreactor with light pipe distributor for photo-reactive microorganism culture (Application number EP21305251.7, PCT submission number 10718919, PCT application number: PCT/EP2022/055315) pending to the European Patent Office for the following Licensee/Assignee: SYCTOM, L'AGENCE METROPOLITAINE DES DECHETS MENAGERS, SETEC ENERGIE ENVIRONNEMENT, LA CORPORATION DE L'ECOLE POLYTECHNIQUE DE MONTREAL, ASSOCIATION POUR LA RECHERCHE ET LE DEVELOPPEMENT DES METHODES ET PROCESSUS INDUSTRIELS, Kungliga Tekniska Högskolan., (Copyright © 2022 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

14. Assessing the potential for sea-based macroalgae cultivation and its application for nutrient removal in the Baltic Sea.

Author

Kotta J, Raudsepp U, Szava-Kovats R, Aps R, Armoskaite A, Barda I, Bergström P, Futter M, Gröndahl F, Hargrave M, Jakubowska M, Jänes H, Kaasik A, Kraufvelin P, Kovaltchouk N, Krost P, Kulikowski T, Kõivupuu A, Kotta I, Lees L, Loite S, Maljutenko I, Nylund G, Paalme T, Pavia H, Purina I, Rahikainen M, Sandow V, Visch W, Yang B, and Barboza FR

Subjects

Baltic States, Eutrophication, Nutrients, Oceans and Seas, Water, Fucus, Seaweed

Abstract

Marine eutrophication is a pervasive and growing threat to global sustainability. Macroalgal cultivation is a promising circular economy solution to achieve nutrient reduction and food security. However, the location of production hotspots is not well known. In this paper the production potential of macroalgae of high commercial value was predicted across the Baltic Sea region. In addition, the nutrient limitation within and adjacent to macroalgal farms was investigated to suggest optimal site-specific configuration of farms. The production potential of Saccharina latissima was largely driven by salinity and the highest production yields are expected in the westernmost Baltic Sea areas where salinity is >23. The direct and interactive effects of light availability, temperature, salinity and nutrient concentrations regulated the predicted changes in the production of Ulva intestinalis and Fucus vesiculosus. The western and southern Baltic Sea exhibited the highest farming potential for these species, with promising areas also in the eastern Baltic Sea. Macroalgal farming did not induce significant nutrient limitation. The expected spatial propagation of nutrient limitation caused by macroalgal farming was less than 100-250 m. Higher propagation distances were found in areas of low nutrient and low water exchange (e.g. offshore areas in the Baltic Proper) and smaller distances in areas of high nutrient and high water exchange (e.g. western Baltic Sea and Gulf of Riga). The generated maps provide the most sought-after input to support blue growth initiatives that foster the sustainable development of macroalgal cultivation and reduction of in situ nutrient loads in the Baltic Sea., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022. Published by Elsevier B.V.)

Published

2022

15. Pyrolysis of engineered beach-cast seaweed: Performances and life cycle assessment.

Author

Wen Y, Wang S, Shi Z, Jin Y, Thomas JB, Azzi ES, Franzén D, Gröndahl F, Martin A, Tang C, Mu W, Jönsson PG, and Yang W

Subjects

Animals, Biofuels, Life Cycle Stages, Temperature, Vegetables, Pyrolysis, Seaweed

Abstract

The blooming of beach-cast seaweed has caused environmental degradation in some coastal regions. Therefore, a proper treating and utilizing method of beach-cast seaweed is demanded. This study investigated the potential of producing power or biofuel from pyrolysis of beach-cast seaweed and the effect of the ash-washing process. First, the raw and washed beach-cast seaweeds (RS and WS) were prepared. Thereafter, thermogravimetric analysis (TG), bench-scale pyrolysis experiment, process simulation, and life cycle assessment (LCA) were conducted. The TG results showed that the activation energies of thermal decomposition of the main organic contents of RS and WS were 44.23 and 58.45 kJ/mol, respectively. Three peak temperatures of 400, 500, and 600 °C were used in the bench-scale pyrolysis experiments of WS. The 600 °C case yielded the most desirable gas and liquid products. The bench-scale pyrolysis experiment of RS was conducted at 600 °C as well. Also, an LCA was conducted based on the simulation result of 600 °C pyrolysis of WS. The further process simulation and LCA results show that compare to producing liquid biofuel and syngas, a process designed for electricity production is most favored. It was estimated that treating 1 ton of dry WS can result in a negative cumulative energy demand of -2.98 GJ and carbon emissions of -790.89 kg CO 2 equivalence., (Copyright © 2022 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2022

16. A System for Autonomous Seaweed Farm Inspection with an Underwater Robot.

Author

Stenius I, Folkesson J, Bhat S, Sprague CI, Ling L, Özkahraman Ö, Bore N, Cong Z, Severholt J, Ljung C, Arnwald A, Torroba I, Gröndahl F, and Thomas JB

Subjects

Algorithms, Aquaculture, Farms, Robotics methods, Seaweed

Abstract

This paper outlines challenges and opportunities in operating underwater robots (so-called AUVs) on a seaweed farm. The need is driven by an emerging aquaculture industry on the Swedish west coast where large-scale seaweed farms are being developed. In this paper, the operational challenges are described and key technologies in using autonomous systems as a core part of the operation are developed and demonstrated. The paper presents a system and methods for operating an AUV in the seaweed farm, including initial localization of the farm based on a prior estimate and dead-reckoning navigation, and the subsequent scanning of the entire farm. Critical data from sidescan sonars for algorithm development are collected from real environments at a test site in the ocean, and the results are demonstrated in a simulated seaweed farm setup.

Published

2022

17. Cost-benefit analysis of beach-cast harvest: Closing land-marine nutrient loops in the Baltic Sea region.

Author

Söderqvist T, Nathaniel H, Franzén D, Franzén F, Hasselström L, Gröndahl F, Sinha R, Stadmark J, Strand Å, Ingmansson I, Lingegård S, and Thomas JB

Subjects

Baltic States, Biomass, Cost-Benefit Analysis, Nitrogen analysis, Sweden, Eutrophication, Nutrients

Abstract

Harvesting beach-cast can help mitigate marine eutrophication by closing land-marine nutrient loops and provide a blue biomass raw material for the bioeconomy. Cost-benefit analysis was applied to harvest activities during 2009-2018 on the island of Gotland in the Baltic Sea, highlighting benefits such as nutrient removal from the marine system and improved recreational opportunities as well as costs of using inputs necessary for harvest. The results indicate that the activities entailed a net gain to society, lending substance to continued funding for harvests on Gotland and assessments of upscaling of harvest activities to other areas in Sweden and elsewhere. The lessons learnt from the considerable harvest experience on Gotland should be utilized for developing concrete guidelines for carrying out sustainable harvest practice, paying due attention to local conditions but also to what can be generalized to a wider national and international context., (© 2021. The Author(s).)

Published

2022

18. Stakeholder participation in sustainability assessment of non-wicked problems: The case of a future seaweed industry in Sweden.

Author

Potting J, Thomas JE, and Gröndahl F

Subjects

Sweden, Seaweed, Stakeholder Participation

Abstract

Acceptance by, and cooperation with relevant stakeholders in developing new sustainability initiatives when they are generally perceived as positive, is one of the keys for successful implementation of such new sustainability initiatives later on. It is remarkable, however, that ample literature exists about involving stakeholders in research projects focusing on problems with diverging views (controversy) around facts and values (wicked problems), but there is very little literature addressing whether and how to involve relevant stakeholders in case of initiatives where diverging norms and values do not play a (substantial) role, like in sustainability assessment for a future seaweed industry. This perspectives paper addresses that gap, and explores how to design such sustainability assessment, illustrated by how stakeholder interaction influenced the assessment and its results for a future seaweed industry in Sweden, followed by a discussion whether and how a similar approach may benefit sustainability assessment of other non-wicked sustainability initiatives., (© 2021. The Author(s).)

Published

2022

19. Payments for nutrient uptake in the blue bioeconomy - When to be careful and when to go for it.

Author

Hasselström L and Gröndahl F

Subjects

Biomass, Nutrients, Ecosystem, Eutrophication

Abstract

Harvesting of marine biomass for various applications may generate ecosystem services that currently lack a market price. One of these is nutrient uptake, which could counteract eutrophication. Market-based instruments (MBIs) such as cap & trade, compensatory mitigation, and payment for ecosystem services could help internalize such positive externalities. However, activities of the blue bioeconomy are diverse. We show that identifiable market characteristics can provide guidance concerning when to use these instruments and not. We find that the activities most suitable for MBIs are those that have positive environmental impacts but that are not (yet) financially viable. For activities that are already profitable on the biomass market, ensuring 'additionality' may be a significant problem for MBIs, especially for cap & trade systems or compensatory mitigation. We provide an overview of how some current biomass options fit into this framework and give suggestions on which biomass types to target., (Copyright © 2021 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2021

20. Socioeconomic prospects of a seaweed bioeconomy in Sweden.

Author

Hasselström L, Thomas JB, Nordström J, Cervin G, Nylund GM, Pavia H, and Gröndahl F

Subjects

Aquaculture methods, Asia, Biomass, Ecosystem, Kelp growth & development, Kelp metabolism, Nitrogen metabolism, Nutrients metabolism, Phosphorus metabolism, Seaweed metabolism, Socioeconomic Factors, Sweden, Seaweed growth & development

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

21. The impact of seaweed cultivation on ecosystem services - a case study from the west coast of Sweden.

Author

Hasselström L, Visch W, Gröndahl F, Nylund GM, and Pavia H

Subjects

Biomass, Sweden, Aquaculture, Ecosystem, Seaweed

Abstract

Seaweed cultivation attracts growing interest and sustainability assessments from various perspectives are needed. The paper presents a holistic qualitative assessment of ecosystem services affected by seaweed cultivation on the Swedish west coast. Results suggest that supporting, regulating and provisioning services are mainly positively or non-affected while some of the cultural services are likely negatively affected. The analysis opens for a discussion on the framing of seaweed cultivation - is it a way of supplying ecosystem services and/or a way of generating valuable biomass? Exploring these framings further in local contexts may be valuable for identifying trade-offs and designing appropriate policies and development strategies. Many of the found impacts are likely generalizable in their character across sites and scales of cultivation, but for some services, including most of the supporting services, the character of impacts is likely to be site-specific and not generalizable., (Copyright © 2018 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2018

22. The perception of aquaculture on the Swedish West Coast.

Author

Thomas JE, Nordström J, Risén E, Malmström ME, and Gröndahl F

Subjects

Animals, Biodiversity, Female, Humans, Male, Perception, Public Opinion, Sweden, Aquaculture, Conservation of Natural Resources

Abstract

Efforts are on the way on the Swedish West Coast to develop the capacity for cultivation of marine resources, notably of kelps. Given that this is a region of great natural and national heritage, public opposition to marine developments has been identified as a possible risk factor. This survey thus sought to shed light on awareness levels, perceptions of different types of aquaculture and on reactions to a scenario depicting future aquaculture developments on the West Coast. When asked about their general opinions of aquaculture, respondents tended to be favourable though a majority chose neutral responses. On the whole, respondents were favourable to the depicted scenario. Finally, it was found that the high-awareness group tended to be more supportive than the low or medium-awareness groups, hinting at the benefits of increasing awareness to reduce public aversion and to support a sustainable development of aquaculture on the Swedish West Coast.

Published

2018

23. Cyclic fractionation process for Saccharina latissima using aqueous chelator and ion exchange resin.

Author

Sterner M, Ribeiro MS, Gröndahl F, and Edlund U

Abstract

A new approach to process Saccharina latissima algal biomass was developed using sodium citrate and a polyvalent cation-specific resin to sequentially extract the alginate into several usable fractions. The fractionation was performed in a cyclic manner, utilizing a stepwise removal of the native polyvalent ions present in the algae to isolate fractions of alginate with different solubility in the presence of these ions. Sodium citrate was used in different concentrations in the extraction solution to remove polyvalent cations to adjust the alginate liberation while AMBERLITE IRC718 resin was added to further remove these ions and regenerate the extraction solution. Alginate was recovered by acid precipitation and analyzed for its uronic acid composition and molecular weight, and the carbohydrate compositions of the insoluble and soluble parts of the algal biomass residue were determined. Finally, the fractionation method was assessed with a life cycle analysis to determine the energy and water efficiency as well as the greenhouse gas emissions and the results were compared to conventional alkaline extraction. The results indicate that the energy and water use as well as the emissions are considerably lower for the cyclic extraction in comparison with the conventional methods.

Published

2017

24. Energy performance and greenhouse gas emissions of kelp cultivation for biogas and fertilizer recovery in Sweden.

Author

Pechsiri JS, Thomas JE, Risén E, Ribeiro MS, Malmström ME, Nylund GM, Jansson A, Welander U, Pavia H, and Gröndahl F

Abstract

The cultivation of seaweed as a feedstock for third generation biofuels is gathering interest in Europe, however, many questions remain unanswered in practise, notably regarding scales of operation, energy returns on investment (EROI) and greenhouse gas (GHG) emissions, all of which are crucial to determine commercial viability. This study performed an energy and GHG emissions analysis, using EROI and GHG savings potential respectively, as indicators of commercial viability for two systems: the Swedish Seafarm project's seaweed cultivation (0.5ha), biogas and fertilizer biorefinery, and an estimation of the same system scaled up and adjusted to a cultivation of 10ha. Based on a conservative estimate of biogas yield, neither the 0.5ha case nor the up-scaled 10ha estimates met the (commercial viability) target EROI of 3, nor the European Union Renewable Energy Directive GHG savings target of 60% for biofuels, however the potential for commercial viability was substantially improved by scaling up operations: GHG emissions and energy demand, per unit of biogas, was almost halved by scaling operations up by a factor of twenty, thereby approaching the EROI and GHG savings targets set, under beneficial biogas production conditions. Further analysis identified processes whose optimisations would have a large impact on energy use and emissions (such as anaerobic digestion) as well as others embodying potential for further economies of scale (such as harvesting), both of which would be of interest for future developments of kelp to biogas and fertilizer biorefineries., (Copyright © 2016. Published by Elsevier B.V.)

Published

2016

25. Impact of changes in nutrient inputs to the water quality of the shallow Haapsalu Bay, the Baltic Sea.

Author

Iital A, Brandt N, Gröndahl F, Loigu E, and Klõga M

Subjects

Cost-Benefit Analysis, Environment, Oceans and Seas, Rivers chemistry, Seawater chemistry, Socioeconomic Factors, Waste Disposal, Fluid economics, Environmental Monitoring, Nitrogen analysis, Phosphorus analysis, Water Pollutants, Chemical analysis, Water Pollution, Chemical statistics & numerical data

Abstract

This study evaluated the impact of socio-economic and lifestyle changes on nutrient loads and water quality in Haapsalu Bay, the Baltic Sea between 1995-1996 and 2003-2004. Monthly monitoring data of water quality in four rivers discharging to the bay and seawater at five sea stations were used. External input of TN to the bay remained almost unchanged during the study period despite of the somewhat higher riverine load that was explained by intensified agriculture. The TP input decreased by approximately 45% due to the decrease in river and point source loads. Point sources contribute about one-third of the P load to the bay. An overall decreasing gradient from the rivers to the mouth of the bay was observed both for TP and TN concentrations indicating probable removal of these elements from the water column along the east-west transect. In order to keep the TN/TP ratio within the range that suppresses eutrophication in the bay, further efforts must be implemented to reduce point source phosphorus load.

Published

2010

26. Removal of surface blooms of the cyanobacteria Nodularia spumigena: a pilot project conducted in the Baltic Sea.

Author

Gröndahl F

Subjects

Nodularia growth & development, Pilot Projects, Seawater, Nodularia isolation & purification, Water Microbiology

Abstract

Blooms of Cyanobacteria are a major concern during the summer period in the Baltic Sea Proper. The nitrogen-fixing Nodularia spumigena forms massive toxic blooms in the surface layers, with a concentration of biomass in the uppermost 1-m water layer. This pilot study describes the construction and test of a Nodularia collecting device during the summer of 2006. Oil booms were modified so that their dragging skirt was replaced with a water-permeable forming fabric used in the pulp and paper industry. The results showed that the modified oil booms worked and operated in an effective way when towed in the sea. Calculations showed that the collecting device used in this study has a theoretical capacity of cleaning 0.055 km2 (5.5 ha) of sea surface hr(-1), compared with the 6600 km2 of the Baltic Sea that were covered by Nodularia blooms during the summer of 2005. Future possibilities for Nodularia harvesting are discussed.

Published

2009