Showing results 25 to 44 of 70
< previous
next >
Issue Date | Title | Author(s) |
2016-01-01 | A game of russian roulette for a generalist dinoflagellate parasitoid: Host susceptibility is the key to success | Alacid, E; Park, MG; Turon, M; Petrou, K; Garcés, E |
2011-05-01 | Heterogeneity in the photoprotective capacity of three Antarctic diatoms during short-term changes in salinity and temperature | Petrou, K; Doblin, MA; Ralph, PJ |
2013-05-01 | Host-released dimethylsulphide activates the dinoflagellate parasitoid Parvilucifera sinerae | Garcés, E; Alacid, E; Reñé, A; Petrou, K; Simó, R |
2014-01-01 | The impact of iron limitation on the physiology of the Antarctic diatom Chaetoceros simplex | Petrou, K; Trimborn, S; Rost, B; Ralph, PJ; Hassler, CS |
2022-09-09 | Increased DMSP availability during thermal stress influences DMSP-degrading bacteria in coral mucus | Gardner, SGG; Nitschke, MRR; O'Brien, J; Motti, CAA; Seymour, JRR; Ralph, PJJ; Petrou, K; Raina, J-B |
2011 | The influence of iron and light on net community production in the Subantarctic and Polar Frontal Zones | Cassar, N; Difiore, P; Barnett, B; Bender, M; Bowie, A; Tilbrook, B; Westwood, K; Wright, S; Lefevre, D; Petrou, K |
2011-02-09 | The influence of iron and light on net community production in the Subantarctic and Polar Frontal Zones | Cassar, N; Difiore, PJ; Barnett, BA; Bender, ML; Bowie, AR; Tilbrook, B; Petrou, K; Westwood, KJ; Wright, SW; Lefevre, D |
2011-11-01 | Iron-limitation and high light stress on phytoplankton populations from the Australian Sub-Antarctic Zone (SAZ) | Petrou, K; Hassler, CS; Doblin, MA; Shelly, K; Schoemann, V; van den Enden, R; Wright, S; Ralph, PJ |
2023-04-04 | Lipid stores reveal the state of the coral-algae symbiosis at the single-cell level. | Nielsen, DA; Petrou, K |
2020-03-23 | Macromolecular composition, productivity and dimethylsulfoniopropionate in Antarctic pelagic and sympagic microalgal communities | Sheehan, CE; Nielsen, DA; Petrou, K |
2022-12-01 | Microbial dimethylsulfoniopropionate (DMSP) cycling in the ultraoligotrophic eastern Indian Ocean | O'Brien, J; Focardi, A; Deschaseaux, ESM; Petrou, K; Ostrowski, M; Beckley, LE; Seymour, JR |
- | Microbial tropicalization driven by a strengthening western ocean boundary current | Messer, LF; Ostrowski, M; Doblin, MA; Petrou, K; Baird, ME; Ingleton, T; Bissett, A; Van de Kamp, J; Nelson, T; Paulsen, I; Bodrossy, L; Fuhrman, JA; Seymour, JR; Brown, MV |
2017-12-07 | A multi-trait systems approach reveals a response cascade to bleaching in corals | Gardner, SG; Raina, JB; Nitschke, MR; Nielsen, DA; Stat, M; Motti, CA; Ralph, PJ; Petrou, K |
2016-01-01 | Nutrient uplift in a cyclonic eddy increases diversity, primary productivity and iron demand of microbial communities relative to a western boundary current | Doblin, MA; Petrou, K; Sinutok, S; Seymour, JR; Messer, LF; Brown, MV; Norman, L; Everett, JD; McInnes, AS; Ralph, PJ; Thompson, PA; Hassler, CS |
2016-03-12 | Nutrient uplift in a cyclonic eddy increases diversity, primary productivity and iron demand of microbial communities relative to a western boundary current | Doblin, MA; Petrou, K; Sinutok, S; Seymour, JR; Messer, LF; Brown, MV; Norman, L; Everett, JD; McInnes, AS; Ralph, PJ; Thompson, PA; Hassler, CS |
2022-02 | Ocean acidification alters the nutritional value of Antarctic diatoms. | Duncan, RJ; Nielsen, DA; Sheehan, CE; Deppeler, S; Hancock, AM; Schulz, KG; Davidson, AT; Petrou, K |
2018-01-11 | Ocean acidification of a coastal Antarctic marine microbial community reveals a critical threshold for CO2 tolerance in phytoplankton productivity | Deppeler, S; Petrou, K; Schulz, KG; Westwood, K; Pearce, I; McKinlay, J; Davidson, A |
2023-11-20 | Ocean acidification reduces iodide production by the marine diatom Chaetoceros sp. (CCMP 1690) | Bey, E; Hughes, C; Hogg, K; Chance, R; Petrou, K |
2016-04-01 | Partitioning of fungal assemblages across different marine habitats | Jeffries, TC; Curlevski, NJ; Brown, MV; Harrison, DP; Doblin, MA; Petrou, K; Ralph, PJ; Seymour, JR |
2014-01-01 | PH sensitivity of chlorophyll fluorescence quenching is determined by the detergent/protein ratio and the state of LHCII aggregation | Petrou, K; Belgio, E; Ruban, AV |