Selina Våge
Cited by
Cited by
The role of mixotrophic protists in the biological carbon pump
A Mitra, KJ Flynn, JM Burkholder, T Berge, A Calbet, JA Raven, E Granéli, ...
Biogeosciences 11 (4), 995-1005, 2014
Defining planktonic protist functional groups on mechanisms for energy and nutrient acquisition: incorporation of diverse mixotrophic strategies
A Mitra, KJ Flynn, U Tillmann, JA Raven, D Caron, DK Stoecker, F Not, ...
Protist 167 (2), 106-120, 2016
A theoretical analysis of how strain-specific viruses can control microbial species diversity
TF Thingstad, S Våge, JE Storesund, RA Sandaa, J Giske
Proceedings of the National Academy of Sciences 111 (21), 7813-7818, 2014
Oceanic protists with different forms of acquired phototrophy display contrasting biogeographies and abundance
SG Leles, A Mitra, KJ Flynn, DK Stoecker, PJ Hansen, A Calbet, ...
Proceedings of the Royal Society B: Biological Sciences 284 (1860), 20170664, 2017
Adding a cost of resistance description extends the ability of virus–host model to explain observed patterns in structure and function of pelagic microbial communities
S Våge, JE Storesund, TF Thingstad
Environmental microbiology 15 (6), 1842-1852, 2013
SAR11 viruses and defensive host strains
S Våge, JE Storesund, TF Thingstad
Nature 499 (7459), E3-E4, 2013
Physical structure of the Barents Sea Polar Front near Storbanken in August 2007
S Våge, SL Basedow, KS Tande, M Zhou
Journal of Marine Systems 130, 256-262, 2014
Successful strategies in size structured mixotrophic food webs
S Våge, M Castellani, J Giske, TF Thingstad
Aquatic Ecology 47, 329-347, 2013
Optimal defense strategies in an idealized microbial food web under trade-off between competition and defense
S Våge, JE Storesund, J Giske, TF Thingstad
PLoS One 9 (7), e101415, 2014
Temperate infection in a virus–host system previously known for virulent dynamics
B Knowles, JA Bonachela, MJ Behrenfeld, KG Bondoc, BB Cael, ...
Nature communications 11 (1), 4626, 2020
Quantifying tradeoffs for marine viruses
NR Record, D Talmy, S Våge
Frontiers in Marine Science 3, 251, 2016
Simple models combining competition, defence and resource availability have broad implications in pelagic microbial food webs
S Våge, G Bratbak, J Egge, M Heldal, A Larsen, S Norland, ...
Ecology letters 21 (9), 1440-1452, 2018
What difference does it make if viruses are strain-, rather than species-specific?
TF Thingstad, B Pree, J Giske, S Våge
Frontiers in Microbiology 6, 128026, 2015
The response of heterotrophic prokaryote and viral communities to labile organic carbon inputs is controlled by the predator food chain structure
RA Sandaa, B Pree, A Larsen, S Våge, B Töpper, JP Töpper, R Thyrhaug, ...
Viruses 9 (9), 238, 2017
Dampened copepod‐mediated trophic cascades in a microzooplankton‐dominated microbial food web: A mesocosm study
B Pree, A Larsen, JK Egge, P Simonelli, R Madhusoodhanan, ...
Limnology and Oceanography 62 (3), 1031-1044, 2017
The role of mixotrophic protists in the biological carbon pump.
A Mitra, KJ Flynn, JM Burkholder, T Berge, A Calbet, JA Raven, E Granéli, ...
Biogeosciences Discussions 10 (8), 2013
Linking internal and external bacterial community control gives mechanistic framework for pelagic virus‐to‐bacteria ratios
S Våge, B Pree, TF Thingstad
Environmental Microbiology 18 (11), 3932-3948, 2016
Structure and dynamics of the Barents Sea Polar Front near the Great Bank and associated plankton distribution in August 2007
S Våge
Universitetet i Tromsø, 2010
Fractal Hypothesis of the Pelagic Microbial Ecosystem—Can Simple Ecological Principles Lead to Self-Similar Complexity in the Pelagic Microbial Food Web?
S Våge, TF Thingstad
Frontiers in Microbiology 6, 166533, 2015
Adaptive evolution of viruses infecting marine microalgae (haptophytes), from acute infections to stable coexistence
R Sandaa, MR Saltvedt, H Dahle, H Wang, S Våge, R Blanc‐Mathieu, ...
Biological Reviews 97 (1), 179-194, 2022
The system can't perform the operation now. Try again later.
Articles 1–20