|Explorative environmental life cycle assessment for system design of seaweed cultivation and drying|
R van Oirschot, JBE Thomas, F Gröndahl, KPJ Fortuin, W Brandenburg, ...
Algal Research 27, 43-54, 2017
|Socioeconomic prospects of a seaweed bioeconomy in Sweden|
L Hasselström, JB Thomas, J Nordström, G Cervin, GM Nylund, H Pavia, ...
Scientific reports 10 (1), 1610, 2020
|Energy performance and greenhouse gas emissions of kelp cultivation for biogas and fertilizer recovery in Sweden|
JS Pechsiri, JBE Thomas, E Risén, MS Ribeiro, ME Malmström, ...
Science of the Total Environment 573, 347-355, 2016
|The perception of aquaculture on the Swedish West Coast|
JBE Thomas, J Nordström, E Risén, ME Malmström, F Gröndahl
Ambio 47, 398-409, 2018
|A comparative environmental life cycle assessment of hatchery, cultivation, and preservation of the kelp Saccharina latissima|
JBE Thomas, M Sodré Ribeiro, J Potting, G Cervin, GM Nylund, J Olsson, ...
ICES Journal of Marine Science 78 (1), 451-467, 2021
|Cambay-Hazad (!) Petroleum System in the South Cambay Basin, India: Chapter 37: Part VI. Case Studies--Eastern Hemisphere|
SK Biswas, MK Rangaraju, J Thomas, SK Bhattacharya
AAPG Special Volumes 77, 615-624, 1994
|Identifying suitable sites for macroalgae cultivation on the Swedish West Coast|
JBE Thomas, FS Ramos, F Gröndahl
Coastal management 47 (1), 88-106, 2019
|Marine biomass for a circular blue‐green bioeconomy? A life cycle perspective on closing nitrogen and phosphorus land‐marine loops|
JBE Thomas, R Sinha, Å Strand, T Söderqvist, J Stadmark, F Franzén, ...
Journal of Industrial Ecology 26 (6), 2136-2153, 2022
|The Deccan Traps and Indian Ocean volcanism|
SK Biswas, J Thomas
First Indian Ocean Petroleum Seminar: Seychelles, United Nations Department …, 1992
|Insights on the sustainability of a Swedish seaweed industry|
KTH Royal Institute of Technology, 2018
|Quantifying nutrient recovery by element flow analysis: Harvest and use of seven marine biomasses to close N and P loops|
R Sinha, JBE Thomas, Å Strand, T Söderqvist, J Stadmark, F Franzen, ...
Resources, Conservation and Recycling 178, 106031, 2022
|A system for autonomous seaweed farm inspection with an underwater robot|
I Stenius, J Folkesson, S Bhat, CI Sprague, L Ling, Ö Özkahraman, N Bore, ...
Sensors 22 (13), 5064, 2022
|Pyrolysis of engineered beach-cast seaweed: performances and life cycle assessment|
Y Wen, S Wang, Z Shi, Y Jin, JB Thomas, ES Azzi, D Franzén, F Gröndahl, ...
Water Research 222, 118875, 2022
|Stakeholder participation in sustainability assessment of non-wicked problems: The case of a future seaweed industry in Sweden|
J Potting, JBE Thomas, F Gröndahl
Ambio, 1-13, 2022
|Cost–benefit analysis of beach-cast harvest: Closing land-marine nutrient loops in the Baltic Sea region|
T Söderqvist, H Nathaniel, D Franzén, F Franzén, L Hasselström, ...
Ambio, 1-12, 2021
|Prospects of low trophic marine aquaculture contributing to food security in a net zero-carbon world|
G Krause, L Le Vay, BH Buck, BA Costa-Pierce, T Dewhurst, ...
Frontiers in Sustainable Food Systems, 209, 2022
|Environmental impacts of seaweed cultivation: kelp farming and preservation|
JB Thomas, J Potting, F Gröndahl
Burleigh Dodds Science Publishing Limited, 2021
|Comparative life cycle assessment of conventional and novel microalgae production systems and environmental impact mitigation in urban-industrial symbiosis|
JS Pechsiri, JBE Thomas, N El Bahraoui, FGA Fernandez, J Chaouki, ...
Science of the Total Environment 854, 158445, 2023
|A critical review of the life cycle climate impact in seaweed value chains to support carbon accounting and blue carbon financing|
L Hasselström, JBE Thomas
Cleaner Environmental Systems, 100093, 2022
|The effects of cultivation deployment-and harvest-timing, location and depth on growth and composition of Saccharina latissima at the Swedish west coast|
JB Thomas, M Sterner, GM Nylund, E Albers, U Edlund, I Undeland, ...
Aquaculture 559, 738443, 2022