Publikationer av Fredrik Gröndahl

Refereegranskade

Artiklar

[1]

T. Chopin et al., "Deep-ocean seaweed dumping for carbon sequestration: Questionable, risky, and not the best use of valuable biomass," One Earth, vol. 7, no. 3, s. 359-364, 2024.

[2]

F. Franzen et al., "Governance hurdles for expansion of low trophic mariculture production in Sweden," Ambio, 2024.

[3]

J. Guyot-Tephany et al., "Two decades of research on ocean multi-use : achievements, challenges and the need for transdisciplinarity," npj Ocean Sustainability, vol. 3, no. 1, 2024.

[4]

J. S. Pechsiri et al., "Comparative life cycle assessment of conventional and novel microalgae production systems and environmental impact mitigation in urban-industrial symbiosis," Science of the Total Environment, vol. 854, 2023.

[5]

J. Li et al., "Life Cycle Assessment of a large commercial kelp farm in Shandong, China," Science of the Total Environment, vol. 903, 2023.

[6]

M. Björk et al., "Methane emissions from macrophyte beach wrack on Baltic seashores," Ambio, vol. 52, no. 1, s. 171-181, 2023.

[7]

A. Guinguina et al., "Potential of the Red Macroalga Bonnemaisonia hamifera in Reducing Methane Emissions from Ruminants," Animals, vol. 13, no. 18, 2023.

[8]

I. Stenius et al., "A system for autonomous seaweed farm inspection with an underwater robot," Sensors, vol. 22, no. 13, 2022.

[9]

J. Kotta, F. Gröndahl och F. R. Barboza, "Assessing the potential for sea-based macroalgae cultivation and its application for nutrient removal in the Baltic Sea," Science of the Total Environment, vol. 839, s. 156230, 2022.

[10]

S. J. Krizsan et al., "Characterization and in vitro assessment of seaweed bioactives with potential to reduce methane production," FRONTIERS IN ANIMAL SCIENCE, vol. 3, 2022.

[11]

T. Söderqvist et al., "Cost–benefit analysis of beach-cast harvest : Closing land-marine nutrient loops in the Baltic Sea region," Ambio, vol. 51, no. 5, s. 1302-1313, 2022.

[12]

Y. Wen et al., "Pyrolysis of engineered beach-cast seaweed : Performances and life cycle assessment," Water Research, vol. 222, 2022.

[13]

R. Sinha et al., "Quantifying nutrient recovery by element flow analysis : Harvest and use of seven marine biomasses to close N and P loops," Resources, Conservation and Recycling, vol. 178, 2022.

[14]

J.-B. Thomas et al., "The effects of cultivation deployment- and harvest-timing, location and depth on growth and composition of Saccharina latissima at the Swedish west coast," Aquaculture, vol. 559, s. 738443-738443, 2022.

[15]

J. S. Pechsiri och F. Gröndahl, "Assessing energy return on investment for harvest of wild Nodularia spumigena during blooms in the Baltic Sea," Journal of Industrial Ecology, 2021.

[16]

M. Sterner och F. Gröndahl, "Extraction of laminarin from Saccharina latissima seaweed using cross-flow filtration," Journal of Applied Phycology, vol. 33, no. 3, s. 1825-1844, 2021.

[17]

J.-B. Thomas et al., "Marine biomass for a circular blue‐green bioeconomy? A life cycle perspective on closing nitrogen and phosphorus land‐marine loops," Journal of Industrial Ecology, 2021.

[18]

L. Hasselström och F. Gröndahl, "Payments for nutrient uptake in the blue bioeconomy & ndash; When to be careful and when to go for it," Marine Pollution Bulletin, vol. 167, 2021.

[19]

J. Potting, J.-B. Thomas och F. Gröndahl, "Stakeholder participation in sustainability assessment of non-wicked problems: The case of a future seaweed industry in Sweden," Ambio, 2021.

[20]

J.-B. Thomas et al., "A comparative environmental life cycle assessment of hatchery, cultivation, and preservation of the kelp Saccharina latissima," ICES Journal of Marine Science, 2020.

[21]

D. W. Abbott et al., "Seaweed and Seaweed Bioactives for Mitigation of Enteric Methane : Challenges and Opportunities," Animals, vol. 10, no. 12, 2020.

[22]

L. Hasselström et al., "Socioeconomic prospects of a seaweed bioeconomy in Sweden," Scientific Reports, vol. 10, no. 1, 2020.

[23]

J. Franzen, E. Infantes och F. Gröndahl, "Beach-cast as biofertiliser in the Baltic Sea region-potential limitations due to cadmium-content," Ocean and Coastal Management, vol. 169, s. 20-26, 2019.

[24]

J.-B. Thomas, F. S. Ramos och F. Gröndahl, "Identifying Suitable Sites for Macroalgae Cultivation on the Swedish West Coast," COASTAL MANAGEMENT, vol. 47, no. 1, s. 88-106, 2019.

[25]

L. Hasselström et al., "The impact of seaweed cultivation on ecosystem services - a case study from the west coast of Sweden," Marine Pollution Bulletin, vol. 133, s. 53-64, 2018.

[26]

J.-B. Thomas et al., "The perception of aquaculture on the Swedish West Coast," Ambio, vol. 47, no. 4, s. 398-409, 2018.

[27]

M. Sterner et al., "Cyclic fractionation process for Saccharina latissima using aqueous chelator and ion exchange resin," Journal of Applied Phycology, vol. 29, no. 6, s. 3175-3189, 2017.

[28]

R. van Oirschot et al., "Explorative environmental life cycle assessment for system design of seaweed cultivation and drying," Algal Research, vol. 27, s. 43-54, 2017.

[29]

E. Risén et al., "Non-market values of algae beach-cast management – Study site Trelleborg, Sweden," Ocean and Coastal Management, vol. 140, s. 59-67, 2017.

[30]

J. S. Pechsiri et al., "Energy performance and greenhouse gas emissions of kelp cultivation for biogas and fertilizer recovery in Sweden," Science of the Total Environment, vol. 573, s. 347-355, 2016.

[31]

J. S. Pechsiri et al., "Harvesting of Nodularia spumigena in the Baltic Sea : Assessment of Potentials and Added Benefits," Journal of Coastal Research, vol. 30, no. 4, s. 825-831, 2014.

[32]

E. Risén et al., "Harvesting of drifting filamentous macroalgae in the Baltic Sea : An energy assessment," Journal of Renewable and Sustainable Energy, vol. 6, no. 1, s. 013116, 2014.

[33]

E. Risén et al., "Assessment of biomethane production from maritime common reed," Journal of Cleaner Production, vol. 53, s. 186-194, 2013.

[34]

A. Iital et al., "Impact of changes in nutrient inputs to the water quality of the shallow Haapsalu Bay, the Baltic Sea," Journal of Environmental Monitoring, vol. 12, no. 8, s. 1531-1536, 2010.

[35]

F. Gröndahl, "Removal of Surface Blooms of the Cyanobacteria Nodularia spumigena : A Pilot Project Conducted in the Baltic Sea," Ambio, vol. 38, no. 2, s. 79-84, 2009.

[36]

F. Gröndahl, J. Sidenmark och A. Thomsen, "Survey of waste water disposal practices at Antarctic research stations," Polar Research, vol. 28, no. 2, s. 298-306, 2009.

Konferensbidrag

[37]

F. Gröndahl et al., "Sustainable use of Baltic Sea natural resources based on ecological engineering and biogas production," i ECOSYSTEMS AND SUSTAINABLE DEVELOPMENT VII, 2009, s. 153-161.

[38]

A. Flaga, T. Stypka och F. Gröndahl, "Polish-Swedish Environmental Management Course : An Integrated Tool for Teaching Sustainable Development," i Commiting Universities to Sustainable Development, 2005, s. 379-384.

[39]

R. Wennersten och F. Gröndahl, "The Relation of Industrial Ecology versus Natural Ecosystems and the Fundamental Principles of Industrial Ecology in Anthropogenic Systems," i Proceedings of the 3rd International Conference of the International Society for Industrial Ecology, 2005.

Kapitel i böcker

[40]

F. Gröndahl och D. Franzén, "A Practical Approach to Integrating Research and Education : A Course Experiment from KTH, Sweden," i New Developments in Engineering Education for Sustainable Development, Walter Leal Filho, Susan Nesbit red., Cham : Springer Nature, 2016, s. 69-79.

[41]

F. Gröndahl, "Chemical Analysis of Water and Sediments - Coastman - Estonia, Fauna and Flora," i Report to the Department of Environmental Engineering, Tallinn, Technical University, Estonia : European Comission in Estonia, 2005.

Icke refereegranskade

Artiklar

[42]

H. Nathaniel et al., "Using stakeholder perceptions to deepen the understanding of beachcast governance and management practices on Gotland, Sweden," Ocean and Coastal Management, vol. 239, 2023.

[43]

T. Sjöåsen, M. Bisther och F. Gröndahl, "Evaluation of an Otter (Lutra lutra)," , 2009.

[44]

N. Brandt et al., "Changes in the Nutrient Mass Balance of Haapsalu Bay, Baltic Sea, Estonia in Relation to the Establishment of a Sewage Treatment Plant," Hydrobiology, In Press, 2008.

[45]

F. Gröndahl och M. Muller, "The Trelleborg Concept," Baltic Cities Environmental bulletin, vol. 2, no. 08, s. 13, 2008.

[46]

F. Gröndahl, "Förödelsen i miljökatastrofens spår," Forskning & Framsteg, no. 4, s. 58-62, 2005.

[47]

F. Gröndahl, "Naturens fantastiska ljusfenomen," WWF-eko : tidskrift för WWF vänner, no. 2, 2005.

Konferensbidrag

[48]

F. Gröndahl, "The Removal of Surface Blooms of the Cyanobacteria Nodularia spumigena," i The 42nd European Marine Biology Symposium, August 27-31, 2007, Kiel, Germany, 2007.

Böcker

[49]

F. Gröndahl och M. Svanström, Hållbar utveckling - en introduktion för ingenjörer och andra problemlösare. 1. uppl. Stockholm : Liber, 2011.

Kapitel i böcker

[50]

J.-B. Thomas, J. Potting och F. Gröndahl, "Environmental impacts of seaweed cultivation: kelp farming and preservation," i Seaweed and microalgae as alternative sources of protein, Xin Gen Lei red., UK : Burleigh Dodds Science Publishing Limited, 2021.

[51]

E. Risén et al., "Natural Resource Potential of Macroalgae Harvesting in the Baltic Sea-Case Study Trelleborg, Sweden," i Global Challenges in Integrated Coastal Zone Management, : John Wiley & Sons, 2013, s. 69-84.