SECT_ID,ctd_cast_number,ace_event_number,niskin_bottle_number,depth [m],parameter_name,project_principle_investigator_name
ACE01,1,75,18,15,bacteria,Christel Hassler
ACE01,1,75,18,15,biogenic silica,Michael Ellwood
ACE01,1,75,18,15,DNA,Sarah Fawcett
ACE01,1,75,18,15,nitrate isotopes,Sarah Fawcett
ACE01,1,75,19,15,ammonium (NH4),Sarah Fawcett
ACE01,1,75,19,15,coomasie stainable particles,Rafel Simó
ACE01,1,75,19,15,transparent exopolymeric particles,Rafel Simó
ACE01,1,75,19,15,volatile organic compounds,Rafel Simó
ACE01,1,75,20,15,biogenic silica,Michael Ellwood
ACE01,1,75,20,15,chlorophyll-a,David Antoine
ACE01,1,75,20,15,photosynthetic efficiency,David Antoine
ACE01,1,75,20,15,genetics,Nicolas Cassar
ACE01,1,75,20,15,nutrients,Michael Ellwood
ACE01,1,75,20,15,particle size distribution using the Coulter Counter,David Antoine
ACE01,1,75,20,15,pigments,David Antoine
ACE01,1,75,21,15,metaviromes,Christel Hassler
ACE01,1,75,22,15,metaviromes,Christel Hassler
ACE01,1,75,23,15,metaviromes,Christel Hassler
ACE01,1,75,15,30,ammonium (NH4),Sarah Fawcett
ACE01,1,75,15,30,chlorophyll-a,David Antoine
ACE01,1,75,15,30,DNA,Sarah Fawcett
ACE01,1,75,15,30,photosynthetic efficiency,David Antoine
ACE01,1,75,15,30,nitrate isotopes,Sarah Fawcett
ACE01,1,75,15,30,nutrients,Michael Ellwood
ACE01,1,75,15,30,particle size distribution using the Coulter Counter,David Antoine
ACE01,1,75,15,30,pigments,David Antoine
ACE01,1,75,16,30,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,1,75,17,30,biogenic silica,Michael Ellwood
ACE01,1,75,17,30,coomasie stainable particles,Rafel Simó
ACE01,1,75,17,30,particulate organic carbon,Sarah Fawcett
ACE01,1,75,17,30,particulate organic nitrogen,Sarah Fawcett
ACE01,1,75,17,30,transparent exopolymeric particles,Rafel Simó
ACE01,1,75,14,40,biogenic silica,Michael Ellwood
ACE01,1,75,14,40,chlorophyll-a,David Antoine
ACE01,1,75,14,40,photosynthetic efficiency,David Antoine
ACE01,1,75,14,40,nitrate isotopes,Sarah Fawcett
ACE01,1,75,14,40,nutrients,Michael Ellwood
ACE01,1,75,14,40,particle size distribution using the Coulter Counter,David Antoine
ACE01,1,75,14,40,particulate organic carbon,Sarah Fawcett
ACE01,1,75,14,40,particulate organic nitrogen,Sarah Fawcett
ACE01,1,75,14,40,pigments,David Antoine
ACE01,1,75,14,40,volatile organic compounds,Rafel Simó
ACE01,1,75,10,60,biogenic silica,Michael Ellwood
ACE01,1,75,10,60,coomasie stainable particles,Rafel Simó
ACE01,1,75,10,60,nitrate isotopes,Sarah Fawcett
ACE01,1,75,10,60,phytoplankton,Sarah Fawcett
ACE01,1,75,10,60,transparent exopolymeric particles,Rafel Simó
ACE01,1,75,10,60,volatile organic compounds,Rafel Simó
ACE01,1,75,11,60,bacteria,Sarah Fawcett
ACE01,1,75,11,60,pigments,David Antoine
ACE01,1,75,12,60,ammonium (NH4),Sarah Fawcett
ACE01,1,75,12,60,photosynthetic efficiency,David Antoine
ACE01,1,75,12,60,genetics,Nicolas Cassar
ACE01,1,75,12,60,particle size distribution using the Coulter Counter,David Antoine
ACE01,1,75,12,60,particulate organic carbon,Sarah Fawcett
ACE01,1,75,12,60,particulate organic nitrogen,Sarah Fawcett
ACE01,1,75,13,60,chlorophyll-a,David Antoine
ACE01,1,75,13,60,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,1,75,13,60,photosynthetic efficiency,David Antoine
ACE01,1,75,13,60,particle size distribution using the Coulter Counter,David Antoine
ACE01,1,75,9,70,ammonium (NH4),Sarah Fawcett
ACE01,1,75,9,70,biogenic silica,Michael Ellwood
ACE01,1,75,9,70,coomasie stainable particles,Rafel Simó
ACE01,1,75,9,70,nitrate isotopes,Sarah Fawcett
ACE01,1,75,9,70,nutrients,Michael Ellwood
ACE01,1,75,9,70,particulate organic carbon,Sarah Fawcett
ACE01,1,75,9,70,particulate organic nitrogen,Sarah Fawcett
ACE01,1,75,9,70,transparent exopolymeric particles,Rafel Simó
ACE01,1,75,9,70,volatile organic compounds,Rafel Simó
ACE01,1,75,8,80,ammonium (NH4),Sarah Fawcett
ACE01,1,75,8,80,biogenic silica,Michael Ellwood
ACE01,1,75,8,80,nitrate isotopes,Sarah Fawcett
ACE01,1,75,8,80,nutrients,Michael Ellwood
ACE01,1,75,8,80,particulate organic carbon,Sarah Fawcett
ACE01,1,75,8,80,particulate organic nitrogen,Sarah Fawcett
ACE01,1,75,6,100,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,1,75,6,100,nitrate isotopes,Sarah Fawcett
ACE01,1,75,7,100,ammonium (NH4),Sarah Fawcett
ACE01,1,75,7,100,biogenic silica,Michael Ellwood
ACE01,1,75,7,100,chlorophyll-a,David Antoine
ACE01,1,75,7,100,coomasie stainable particles,Rafel Simó
ACE01,1,75,7,100,photosynthetic efficiency,David Antoine
ACE01,1,75,7,100,nutrients,Michael Ellwood
ACE01,1,75,7,100,particle size distribution using the Coulter Counter,David Antoine
ACE01,1,75,7,100,particulate organic carbon,Sarah Fawcett
ACE01,1,75,7,100,particulate organic nitrogen,Sarah Fawcett
ACE01,1,75,7,100,pigments,David Antoine
ACE01,1,75,7,100,transparent exopolymeric particles,Rafel Simó
ACE01,1,75,5,125,ammonium (NH4),Sarah Fawcett
ACE01,1,75,5,125,biogenic silica,Michael Ellwood
ACE01,1,75,5,125,chlorophyll-a,David Antoine
ACE01,1,75,5,125,photosynthetic efficiency,David Antoine
ACE01,1,75,5,125,nitrate isotopes,Sarah Fawcett
ACE01,1,75,5,125,nutrients,Michael Ellwood
ACE01,1,75,5,125,particle size distribution using the Coulter Counter,David Antoine
ACE01,1,75,5,125,particulate organic carbon,Sarah Fawcett
ACE01,1,75,5,125,particulate organic nitrogen,Sarah Fawcett
ACE01,1,75,5,125,pigments,David Antoine
ACE01,1,75,1,150,metaviromes,Christel Hassler
ACE01,1,75,2,150,metaviromes,Christel Hassler
ACE01,1,75,3,150,coomasie stainable particles,Rafel Simó
ACE01,1,75,3,150,genetics,Nicolas Cassar
ACE01,1,75,3,150,pigments,David Antoine
ACE01,1,75,3,150,transparent exopolymeric particles,Rafel Simó
ACE01,1,75,4,150,biogenic silica,Michael Ellwood
ACE01,1,75,4,150,coomasie stainable particles,Rafel Simó
ACE01,1,75,4,150,dissolved inorganic carbon,David Antoine
ACE01,1,75,4,150,particulate organic carbon,Sarah Fawcett
ACE01,1,75,4,150,particulate organic nitrogen,Sarah Fawcett
ACE01,1,75,4,150,ta,David Antoine
ACE01,1,75,4,150,transparent exopolymeric particles,Rafel Simó
ACE01,2,80,23,0,alkali,David Antoine
ACE01,2,80,23,0,ammonium (NH4),Sarah Fawcett
ACE01,2,80,23,0,biogenic silica,Michael Ellwood
ACE01,2,80,23,0,dissolved inorganic carbon,David Antoine
ACE01,2,80,23,0,nitrate isotopes,Sarah Fawcett
ACE01,2,80,23,0,nutrients,Michael Ellwood
ACE01,2,80,23,0,particulate organic nitrogen,Sarah Fawcett
ACE01,2,80,23,0,particulate organic phosphorus,Sarah Fawcett
ACE01,2,80,22,15,ammonium (NH4),Sarah Fawcett
ACE01,2,80,22,15,biogenic silica,Michael Ellwood
ACE01,2,80,22,15,nitrate isotopes,Sarah Fawcett
ACE01,2,80,22,15,nutrients,Michael Ellwood
ACE01,2,80,22,15,particulate organic nitrogen,Sarah Fawcett
ACE01,2,80,22,15,particulate organic phosphorus,Sarah Fawcett
ACE01,2,80,21,30,ammonium (NH4),Sarah Fawcett
ACE01,2,80,21,30,biogenic silica,Michael Ellwood
ACE01,2,80,21,30,nitrate isotopes,Sarah Fawcett
ACE01,2,80,21,30,nutrients,Michael Ellwood
ACE01,2,80,21,30,particulate organic nitrogen,Sarah Fawcett
ACE01,2,80,21,30,particulate organic phosphorus,Sarah Fawcett
ACE01,2,80,20,45,ammonium (NH4),Sarah Fawcett
ACE01,2,80,20,45,biogenic silica,Michael Ellwood
ACE01,2,80,20,45,nitrate isotopes,Sarah Fawcett
ACE01,2,80,20,45,nutrients,Michael Ellwood
ACE01,2,80,20,45,particulate organic nitrogen,Sarah Fawcett
ACE01,2,80,20,45,particulate organic phosphorus,Sarah Fawcett
ACE01,2,80,19,50,ammonium (NH4),Sarah Fawcett
ACE01,2,80,19,50,biogenic silica,Michael Ellwood
ACE01,2,80,19,50,nitrate isotopes,Sarah Fawcett
ACE01,2,80,19,50,nutrients,Michael Ellwood
ACE01,2,80,19,50,particulate organic nitrogen,Sarah Fawcett
ACE01,2,80,19,50,particulate organic phosphorus,Sarah Fawcett
ACE01,2,80,18,60,ammonium (NH4),Sarah Fawcett
ACE01,2,80,18,60,biogenic silica,Michael Ellwood
ACE01,2,80,18,60,nitrate isotopes,Sarah Fawcett
ACE01,2,80,18,60,nutrients,Michael Ellwood
ACE01,2,80,18,60,particulate organic nitrogen,Sarah Fawcett
ACE01,2,80,18,60,particulate organic phosphorus,Sarah Fawcett
ACE01,2,80,17,70,ammonium (NH4),Sarah Fawcett
ACE01,2,80,17,70,biogenic silica,Michael Ellwood
ACE01,2,80,17,70,nitrate isotopes,Sarah Fawcett
ACE01,2,80,17,70,nutrients,Michael Ellwood
ACE01,2,80,17,70,particulate organic nitrogen,Sarah Fawcett
ACE01,2,80,17,70,particulate organic phosphorus,Sarah Fawcett
ACE01,2,80,16,100,ammonium (NH4),Sarah Fawcett
ACE01,2,80,16,100,biogenic silica,Michael Ellwood
ACE01,2,80,16,100,nitrate isotopes,Sarah Fawcett
ACE01,2,80,16,100,nutrients,Michael Ellwood
ACE01,2,80,16,100,particulate organic nitrogen,Sarah Fawcett
ACE01,2,80,16,100,particulate organic phosphorus,Sarah Fawcett
ACE01,2,80,15,125,ammonium (NH4),Sarah Fawcett
ACE01,2,80,15,125,biogenic silica,Michael Ellwood
ACE01,2,80,15,125,nitrate isotopes,Sarah Fawcett
ACE01,2,80,15,125,nutrients,Michael Ellwood
ACE01,2,80,15,125,particulate organic nitrogen,Sarah Fawcett
ACE01,2,80,15,125,particulate organic phosphorus,Sarah Fawcett
ACE01,2,80,14,150,ammonium (NH4),Sarah Fawcett
ACE01,2,80,14,150,biogenic silica,Michael Ellwood
ACE01,2,80,14,150,nitrate isotopes,Sarah Fawcett
ACE01,2,80,14,150,nutrients,Michael Ellwood
ACE01,2,80,14,150,particulate organic nitrogen,Sarah Fawcett
ACE01,2,80,14,150,particulate organic phosphorus,Sarah Fawcett
ACE01,2,80,13,200,ammonium (NH4),Sarah Fawcett
ACE01,2,80,13,200,biogenic silica,Michael Ellwood
ACE01,2,80,13,200,nitrate isotopes,Sarah Fawcett
ACE01,2,80,13,200,nutrients,Michael Ellwood
ACE01,2,80,13,200,oxygen concentration,Guillaume Massé
ACE01,2,80,12,250,ammonium (NH4),Sarah Fawcett
ACE01,2,80,12,250,biogenic silica,Michael Ellwood
ACE01,2,80,12,250,nitrate isotopes,Sarah Fawcett
ACE01,2,80,12,250,nutrients,Michael Ellwood
ACE01,2,80,11,300,ammonium (NH4),Sarah Fawcett
ACE01,2,80,11,300,biogenic silica,Michael Ellwood
ACE01,2,80,11,300,nitrate isotopes,Sarah Fawcett
ACE01,2,80,11,300,nutrients,Michael Ellwood
ACE01,2,80,10,400,ammonium (NH4),Sarah Fawcett
ACE01,2,80,10,400,biogenic silica,Michael Ellwood
ACE01,2,80,10,400,nitrate isotopes,Sarah Fawcett
ACE01,2,80,10,400,nutrients,Michael Ellwood
ACE01,2,80,9,500,ammonium (NH4),Sarah Fawcett
ACE01,2,80,9,500,biogenic silica,Michael Ellwood
ACE01,2,80,9,500,nitrate isotopes,Sarah Fawcett
ACE01,2,80,9,500,nutrients,Michael Ellwood
ACE01,2,80,8,600,ammonium (NH4),Sarah Fawcett
ACE01,2,80,8,600,biogenic silica,Michael Ellwood
ACE01,2,80,8,600,nitrate isotopes,Sarah Fawcett
ACE01,2,80,8,600,nutrients,Michael Ellwood
ACE01,2,80,7,700,ammonium (NH4),Sarah Fawcett
ACE01,2,80,7,700,biogenic silica,Michael Ellwood
ACE01,2,80,7,700,nitrate isotopes,Sarah Fawcett
ACE01,2,80,7,700,nutrients,Michael Ellwood
ACE01,2,80,6,800,ammonium (NH4),Sarah Fawcett
ACE01,2,80,6,800,biogenic silica,Michael Ellwood
ACE01,2,80,6,800,nitrate isotopes,Sarah Fawcett
ACE01,2,80,6,800,nutrients,Michael Ellwood
ACE01,2,80,5,900,ammonium (NH4),Sarah Fawcett
ACE01,2,80,5,900,biogenic silica,Michael Ellwood
ACE01,2,80,5,900,nitrate isotopes,Sarah Fawcett
ACE01,2,80,5,900,nutrients,Michael Ellwood
ACE01,2,80,1,1000,bacteria,Christel Hassler
ACE01,2,80,2,1000,bacteria,Christel Hassler
ACE01,2,80,3,1000,alkali,David Antoine
ACE01,2,80,3,1000,ammonium (NH4),Sarah Fawcett
ACE01,2,80,3,1000,dissolved inorganic carbon,David Antoine
ACE01,2,80,3,1000,genetics,Nicolas Cassar
ACE01,2,80,3,1000,nitrate isotopes,Sarah Fawcett
ACE01,2,80,3,1000,nutrients,Michael Ellwood
ACE01,2,80,4,1000,biogenic silica,Michael Ellwood
ACE01,2,80,4,1000,oxygen concentration,Guillaume Massé
ACE01,3,123,19,15,coomasie stainable particles,Rafel Simó
ACE01,3,123,19,15,genetics,Nicolas Cassar
ACE01,3,123,19,15,nitrate isotopes,Sarah Fawcett
ACE01,3,123,19,15,oxygen-18 isotope,Katherine Leonard
ACE01,3,123,19,15,salinity,Katherine Leonard
ACE01,3,123,19,15,transparent exopolymeric particles,Rafel Simó
ACE01,3,123,19,15,volatile organic compounds,Rafel Simó
ACE01,3,123,20,15,ammonium (NH4),Sarah Fawcett
ACE01,3,123,20,15,chlorophyll-a,David Antoine
ACE01,3,123,20,15,nutrients,Michael Ellwood
ACE01,3,123,20,15,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,3,123,20,15,particulate organic carbon,Sarah Fawcett
ACE01,3,123,20,15,particulate organic nitrogen,Sarah Fawcett
ACE01,3,123,20,15,pigments,David Antoine
ACE01,3,123,21,15,metaviromes,Christel Hassler
ACE01,3,123,22,15,metaviromes,Christel Hassler
ACE01,3,123,23,15,bacteria,Christel Hassler
ACE01,3,123,23,15,biogenic silica,Michael Ellwood
ACE01,3,123,23,15,metaviromes,Christel Hassler
ACE01,3,123,16,30,coomasie stainable particles,Rafel Simó
ACE01,3,123,16,30,DNA,Sarah Fawcett
ACE01,3,123,16,30,transparent exopolymeric particles,Rafel Simó
ACE01,3,123,17,30,ammonium (NH4),Sarah Fawcett
ACE01,3,123,17,30,biogenic silica,Michael Ellwood
ACE01,3,123,17,30,chlorophyll-a,David Antoine
ACE01,3,123,17,30,nutrients,Michael Ellwood
ACE01,3,123,17,30,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,3,123,17,30,particulate organic carbon,Sarah Fawcett
ACE01,3,123,17,30,particulate organic nitrogen,Sarah Fawcett
ACE01,3,123,17,30,pigments,David Antoine
ACE01,3,123,18,30,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,3,123,18,30,nitrate isotopes,Sarah Fawcett
ACE01,3,123,15,45,ammonium (NH4),Sarah Fawcett
ACE01,3,123,15,45,biogenic silica,Michael Ellwood
ACE01,3,123,15,45,chlorophyll-a,David Antoine
ACE01,3,123,15,45,nitrate isotopes,Sarah Fawcett
ACE01,3,123,15,45,nutrients,Michael Ellwood
ACE01,3,123,15,45,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,3,123,15,45,particulate organic carbon,Sarah Fawcett
ACE01,3,123,15,45,particulate organic nitrogen,Sarah Fawcett
ACE01,3,123,15,45,pigments,David Antoine
ACE01,3,123,15,45,volatile organic compounds,Rafel Simó
ACE01,3,123,11,60,bacteria,Sarah Fawcett
ACE01,3,123,11,60,genetics,Nicolas Cassar
ACE01,3,123,11,60,volatile organic compounds,Rafel Simó
ACE01,3,123,12,60,bacteria,Sarah Fawcett
ACE01,3,123,12,60,biogenic silica,Michael Ellwood
ACE01,3,123,12,60,coomasie stainable particles,Rafel Simó
ACE01,3,123,12,60,nutrients,Michael Ellwood
ACE01,3,123,12,60,phytoplankton,Sarah Fawcett
ACE01,3,123,12,60,transparent exopolymeric particles,Rafel Simó
ACE01,3,123,13,60,ammonium (NH4),Sarah Fawcett
ACE01,3,123,13,60,bacteria,Sarah Fawcett
ACE01,3,123,13,60,chlorophyll-a,David Antoine
ACE01,3,123,13,60,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,3,123,13,60,particulate organic carbon,Sarah Fawcett
ACE01,3,123,13,60,particulate organic nitrogen,Sarah Fawcett
ACE01,3,123,13,60,pigments,David Antoine
ACE01,3,123,14,60,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,3,123,14,60,nitrate isotopes,Sarah Fawcett
ACE01,3,123,9,75,chlorophyll-a,David Antoine
ACE01,3,123,9,75,coomasie stainable particles,Rafel Simó
ACE01,3,123,9,75,nitrate isotopes,Sarah Fawcett
ACE01,3,123,9,75,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,3,123,9,75,pigments,David Antoine
ACE01,3,123,9,75,transparent exopolymeric particles,Rafel Simó
ACE01,3,123,9,75,volatile organic compounds,Rafel Simó
ACE01,3,123,10,75,biogenic silica,Michael Ellwood
ACE01,3,123,10,75,nutrients,Michael Ellwood
ACE01,3,123,10,75,oxygen-18 isotope,Katherine Leonard
ACE01,3,123,10,75,salinity,Katherine Leonard
ACE01,3,123,7,100,ammonium (NH4),Sarah Fawcett
ACE01,3,123,7,100,biogenic silica,Michael Ellwood
ACE01,3,123,7,100,chlorophyll-a,David Antoine
ACE01,3,123,7,100,nitrate isotopes,Sarah Fawcett
ACE01,3,123,7,100,nutrients,Michael Ellwood
ACE01,3,123,7,100,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,3,123,7,100,particulate organic carbon,Sarah Fawcett
ACE01,3,123,7,100,particulate organic nitrogen,Sarah Fawcett
ACE01,3,123,7,100,pigments,David Antoine
ACE01,3,123,8,100,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,3,123,2,150,metaviromes,Christel Hassler
ACE01,3,123,3,150,metaviromes,Christel Hassler
ACE01,3,123,4,150,ammonium (NH4),Sarah Fawcett
ACE01,3,123,4,150,bacteria,Christel Hassler
ACE01,3,123,4,150,biogenic silica,Michael Ellwood
ACE01,3,123,4,150,coomasie stainable particles,Rafel Simó
ACE01,3,123,4,150,metaviromes,Christel Hassler
ACE01,3,123,4,150,nitrate isotopes,Sarah Fawcett
ACE01,3,123,4,150,nutrients,Michael Ellwood
ACE01,3,123,4,150,transparent exopolymeric particles,Rafel Simó
ACE01,3,123,5,150,genetics,Nicolas Cassar
ACE01,3,123,5,150,oxygen-18 isotope,Katherine Leonard
ACE01,3,123,5,150,salinity,Katherine Leonard
ACE01,3,123,6,150,chlorophyll-a,David Antoine
ACE01,3,123,6,150,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,3,123,6,150,particulate organic carbon,Sarah Fawcett
ACE01,3,123,6,150,particulate organic nitrogen,Sarah Fawcett
ACE01,3,123,6,150,pigments,David Antoine
ACE01,3,123,1,200,ammonium (NH4),Sarah Fawcett
ACE01,3,123,1,200,biogenic silica,Michael Ellwood
ACE01,3,123,1,200,nitrate isotopes,Sarah Fawcett
ACE01,3,123,1,200,nutrients,Michael Ellwood
ACE01,3,123,1,200,oxygen concentration,Guillaume Massé
ACE01,3,123,1,200,volatile organic compounds,Rafel Simó
ACE01,4,264,19,0,genetics,Nicolas Cassar
ACE01,4,264,19,0,oxygen concentration,Guillaume Massé
ACE01,4,264,19,0,phytoplankton,Sarah Fawcett
ACE01,4,264,20,0,biogenic silica,Michael Ellwood
ACE01,4,264,20,0,nutrients,Michael Ellwood
ACE01,4,264,20,0,Particulate and dissolved methylamines,Rafel Simó
ACE01,4,264,21,0,metaviromes,Christel Hassler
ACE01,4,264,22,0,metaviromes,Christel Hassler
ACE01,4,264,23,0,ammonium (NH4),Sarah Fawcett
ACE01,4,264,23,0,bacteria,Christel Hassler
ACE01,4,264,23,0,metaviromes,Christel Hassler
ACE01,4,264,23,0,nitrate isotopes,Sarah Fawcett
ACE01,4,264,23,0,particulate organic carbon,Sarah Fawcett
ACE01,4,264,23,0,particulate organic nitrogen,Sarah Fawcett
ACE01,4,264,11,10,ammonium (NH4),Sarah Fawcett
ACE01,4,264,11,10,biogenic silica,Michael Ellwood
ACE01,4,264,11,10,nitrate isotopes,Sarah Fawcett
ACE01,4,264,11,10,nutrients,Michael Ellwood
ACE01,4,264,11,10,particulate organic carbon,Sarah Fawcett
ACE01,4,264,11,10,particulate organic nitrogen,Sarah Fawcett
ACE01,4,264,11,10,phytoplankton,Sarah Fawcett
ACE01,4,264,12,10,genetics,Nicolas Cassar
ACE01,4,264,15,15,ammonium (NH4),Sarah Fawcett
ACE01,4,264,15,15,biogenic silica,Michael Ellwood
ACE01,4,264,15,15,genetics,Nicolas Cassar
ACE01,4,264,15,15,nutrients,Michael Ellwood
ACE01,4,264,15,15,oxygen concentration,Guillaume Massé
ACE01,4,264,16,15,bacteria,Christel Hassler
ACE01,4,264,16,15,metaviromes,Christel Hassler
ACE01,4,264,17,15,metaviromes,Christel Hassler
ACE01,4,264,18,15,metaviromes,Christel Hassler
ACE01,4,264,18,15,particulate organic carbon,Sarah Fawcett
ACE01,4,264,18,15,particulate organic nitrogen,Sarah Fawcett
ACE01,4,264,14,30,ammonium (NH4),Sarah Fawcett
ACE01,4,264,14,30,biogenic silica,Michael Ellwood
ACE01,4,264,14,30,nutrients,Michael Ellwood
ACE01,4,264,14,30,particulate organic carbon,Sarah Fawcett
ACE01,4,264,14,30,particulate organic nitrogen,Sarah Fawcett
ACE01,4,264,13,60,ammonium (NH4),Sarah Fawcett
ACE01,4,264,13,60,biogenic silica,Michael Ellwood
ACE01,4,264,13,60,nutrients,Michael Ellwood
ACE01,4,264,13,60,particulate organic carbon,Sarah Fawcett
ACE01,4,264,13,60,particulate organic nitrogen,Sarah Fawcett
ACE01,4,264,10,80,ammonium (NH4),Sarah Fawcett
ACE01,4,264,10,80,biogenic silica,Michael Ellwood
ACE01,4,264,10,80,nitrate isotopes,Sarah Fawcett
ACE01,4,264,10,80,nutrients,Michael Ellwood
ACE01,4,264,10,80,particulate organic carbon,Sarah Fawcett
ACE01,4,264,10,80,particulate organic nitrogen,Sarah Fawcett
ACE01,4,264,9,100,ammonium (NH4),Sarah Fawcett
ACE01,4,264,9,100,biogenic silica,Michael Ellwood
ACE01,4,264,9,100,nitrate isotopes,Sarah Fawcett
ACE01,4,264,9,100,nutrients,Michael Ellwood
ACE01,4,264,9,100,oxygen concentration,Guillaume Massé
ACE01,4,264,9,100,particulate organic carbon,Sarah Fawcett
ACE01,4,264,9,100,particulate organic nitrogen,Sarah Fawcett
ACE01,4,264,5,150,ammonium (NH4),Sarah Fawcett
ACE01,4,264,5,150,genetics,Nicolas Cassar
ACE01,4,264,5,150,nitrate isotopes,Sarah Fawcett
ACE01,4,264,5,150,particulate organic carbon,Sarah Fawcett
ACE01,4,264,5,150,particulate organic nitrogen,Sarah Fawcett
ACE01,4,264,6,150,bacteria,Christel Hassler
ACE01,4,264,6,150,metaviromes,Christel Hassler
ACE01,4,264,7,150,biogenic silica,Michael Ellwood
ACE01,4,264,7,150,metaviromes,Christel Hassler
ACE01,4,264,7,150,nutrients,Michael Ellwood
ACE01,4,264,8,150,biogenic silica,Michael Ellwood
ACE01,4,264,8,150,metaviromes,Christel Hassler
ACE01,4,264,8,150,nutrients,Michael Ellwood
ACE01,4,264,4,200,ammonium (NH4),Sarah Fawcett
ACE01,4,264,4,200,biogenic silica,Michael Ellwood
ACE01,4,264,4,200,nitrate isotopes,Sarah Fawcett
ACE01,4,264,4,200,nutrients,Michael Ellwood
ACE01,4,264,3,250,ammonium (NH4),Sarah Fawcett
ACE01,4,264,3,250,biogenic silica,Michael Ellwood
ACE01,4,264,3,250,nitrate isotopes,Sarah Fawcett
ACE01,4,264,3,250,nutrients,Michael Ellwood
ACE01,4,264,3,250,oxygen concentration,Guillaume Massé
ACE01,4,264,2,300,ammonium (NH4),Sarah Fawcett
ACE01,4,264,2,300,biogenic silica,Michael Ellwood
ACE01,4,264,2,300,nitrate isotopes,Sarah Fawcett
ACE01,4,264,2,300,nutrients,Michael Ellwood
ACE01,4,264,1,400,ammonium (NH4),Sarah Fawcett
ACE01,4,264,1,400,biogenic silica,Michael Ellwood
ACE01,4,264,1,400,nitrate isotopes,Sarah Fawcett
ACE01,4,264,1,400,nutrients,Michael Ellwood
ACE01,5,285,18,0,oxygen concentration,Guillaume Massé
ACE01,5,285,19,0,chlorophyll-a,David Antoine
ACE01,5,285,19,0,coomasie stainable particles,Rafel Simó
ACE01,5,285,19,0,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,5,285,19,0,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,5,285,19,0,pigments,David Antoine
ACE01,5,285,19,0,transparent exopolymeric particles,Rafel Simó
ACE01,5,285,19,0,volatile organic compounds,Rafel Simó
ACE01,5,285,20,0,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,5,285,21,0,bacteria,Sarah Fawcett
ACE01,5,285,22,0,bacteria,Sarah Fawcett
ACE01,5,285,23,0,bacteria,Sarah Fawcett
ACE01,5,285,23,0,DNA,Sarah Fawcett
ACE01,5,285,16,15,DNA,Sarah Fawcett
ACE01,5,285,17,15,chlorophyll-a,David Antoine
ACE01,5,285,17,15,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,5,285,17,15,pigments,David Antoine
ACE01,5,285,13,30,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,5,285,13,30,oxygen concentration,Guillaume Massé
ACE01,5,285,14,30,coomasie stainable particles,Rafel Simó
ACE01,5,285,14,30,transparent exopolymeric particles,Rafel Simó
ACE01,5,285,14,30,volatile organic compounds,Rafel Simó
ACE01,5,285,15,30,chlorophyll-a,David Antoine
ACE01,5,285,15,30,DNA,Sarah Fawcett
ACE01,5,285,15,30,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,5,285,15,30,pigments,David Antoine
ACE01,5,285,12,45,chlorophyll-a,David Antoine
ACE01,5,285,12,45,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,5,285,12,45,pigments,David Antoine
ACE01,5,285,9,60,coomasie stainable particles,Rafel Simó
ACE01,5,285,9,60,transparent exopolymeric particles,Rafel Simó
ACE01,5,285,9,60,volatile organic compounds,Rafel Simó
ACE01,5,285,10,60,chlorophyll-a,David Antoine
ACE01,5,285,10,60,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,5,285,10,60,pigments,David Antoine
ACE01,5,285,6,70,bacteria,Sarah Fawcett
ACE01,5,285,6,70,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,5,285,7,70,bacteria,Sarah Fawcett
ACE01,5,285,7,70,coomasie stainable particles,Rafel Simó
ACE01,5,285,7,70,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,5,285,7,70,transparent exopolymeric particles,Rafel Simó
ACE01,5,285,7,70,volatile organic compounds,Rafel Simó
ACE01,5,285,8,70,bacteria,Sarah Fawcett
ACE01,5,285,8,70,chlorophyll-a,David Antoine
ACE01,5,285,8,70,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,5,285,8,70,pigments,David Antoine
ACE01,5,285,4,80,oxygen concentration,Guillaume Massé
ACE01,5,285,5,80,chlorophyll-a,David Antoine
ACE01,5,285,5,80,coomasie stainable particles,Rafel Simó
ACE01,5,285,5,80,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,5,285,5,80,pigments,David Antoine
ACE01,5,285,5,80,transparent exopolymeric particles,Rafel Simó
ACE01,5,285,5,80,volatile organic compounds,Rafel Simó
ACE01,5,285,2,100,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,5,285,2,100,oxygen concentration,Guillaume Massé
ACE01,5,285,3,100,chlorophyll-a,David Antoine
ACE01,5,285,3,100,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,5,285,3,100,pigments,David Antoine
ACE01,5,285,1,150,coomasie stainable particles,Rafel Simó
ACE01,5,285,1,150,transparent exopolymeric particles,Rafel Simó
ACE01,5,285,1,150,volatile organic compounds,Rafel Simó
ACE01,6,317,22,0,ammonium (NH4),Sarah Fawcett
ACE01,6,317,22,0,biogenic silica,Michael Ellwood
ACE01,6,317,22,0,nitrate isotopes,Sarah Fawcett
ACE01,6,317,22,0,nutrients,Michael Ellwood
ACE01,6,317,22,0,particulate and dissolved methylamines and osmolytes,Rafel Simó
ACE01,6,317,22,0,particulate organic carbon,Sarah Fawcett
ACE01,6,317,22,0,particulate organic nitrogen,Sarah Fawcett
ACE01,6,317,21,15,ammonium (NH4),Sarah Fawcett
ACE01,6,317,21,15,biogenic silica,Michael Ellwood
ACE01,6,317,21,15,nitrate isotopes,Sarah Fawcett
ACE01,6,317,21,15,particulate organic carbon,Sarah Fawcett
ACE01,6,317,21,15,particulate organic nitrogen,Sarah Fawcett
ACE01,6,317,20,30,ammonium (NH4),Sarah Fawcett
ACE01,6,317,20,30,biogenic silica,Michael Ellwood
ACE01,6,317,20,30,nitrate isotopes,Sarah Fawcett
ACE01,6,317,20,30,oxygen concentration,Guillaume Massé
ACE01,6,317,20,30,particulate organic carbon,Sarah Fawcett
ACE01,6,317,20,30,particulate organic nitrogen,Sarah Fawcett
ACE01,6,317,19,45,ammonium (NH4),Sarah Fawcett
ACE01,6,317,19,45,biogenic silica,Michael Ellwood
ACE01,6,317,19,45,nitrate isotopes,Sarah Fawcett
ACE01,6,317,19,45,particulate organic carbon,Sarah Fawcett
ACE01,6,317,19,45,particulate organic nitrogen,Sarah Fawcett
ACE01,6,317,17,70,ammonium (NH4),Sarah Fawcett
ACE01,6,317,17,70,biogenic silica,Michael Ellwood
ACE01,6,317,17,70,nitrate isotopes,Sarah Fawcett
ACE01,6,317,17,70,nutrients,Michael Ellwood
ACE01,6,317,17,70,particulate organic carbon,Sarah Fawcett
ACE01,6,317,17,70,particulate organic nitrogen,Sarah Fawcett
ACE01,6,317,16,80,ammonium (NH4),Sarah Fawcett
ACE01,6,317,16,80,biogenic silica,Michael Ellwood
ACE01,6,317,16,80,nitrate isotopes,Sarah Fawcett
ACE01,6,317,16,80,nutrients,Michael Ellwood
ACE01,6,317,16,80,particulate organic carbon,Sarah Fawcett
ACE01,6,317,16,80,particulate organic nitrogen,Sarah Fawcett
ACE01,6,317,15,100,ammonium (NH4),Sarah Fawcett
ACE01,6,317,15,100,biogenic silica,Michael Ellwood
ACE01,6,317,15,100,nitrate isotopes,Sarah Fawcett
ACE01,6,317,15,100,nutrients,Michael Ellwood
ACE01,6,317,15,100,oxygen concentration,Guillaume Massé
ACE01,6,317,15,100,particulate organic carbon,Sarah Fawcett
ACE01,6,317,15,100,particulate organic nitrogen,Sarah Fawcett
ACE01,6,317,12,150,metaviromes,Christel Hassler
ACE01,6,317,13,150,metaviromes,Christel Hassler
ACE01,6,317,14,150,ammonium (NH4),Sarah Fawcett
ACE01,6,317,14,150,bacteria,Christel Hassler
ACE01,6,317,14,150,biogenic silica,Michael Ellwood
ACE01,6,317,14,150,metaviromes,Christel Hassler
ACE01,6,317,14,150,nitrate isotopes,Sarah Fawcett
ACE01,6,317,14,150,nutrients,Michael Ellwood
ACE01,6,317,14,150,particulate organic carbon,Sarah Fawcett
ACE01,6,317,14,150,particulate organic nitrogen,Sarah Fawcett
ACE01,6,317,10,200,ammonium (NH4),Sarah Fawcett
ACE01,6,317,10,200,biogenic silica,Michael Ellwood
ACE01,6,317,10,200,nitrate isotopes,Sarah Fawcett
ACE01,6,317,10,200,nutrients,Michael Ellwood
ACE01,6,317,10,200,oxygen concentration,Guillaume Massé
ACE01,6,317,9,300,ammonium (NH4),Sarah Fawcett
ACE01,6,317,9,300,biogenic silica,Michael Ellwood
ACE01,6,317,9,300,nitrate isotopes,Sarah Fawcett
ACE01,6,317,9,300,nutrients,Michael Ellwood
ACE01,6,317,9,300,oxygen concentration,Guillaume Massé
ACE01,6,317,8,400,ammonium (NH4),Sarah Fawcett
ACE01,6,317,8,400,biogenic silica,Michael Ellwood
ACE01,6,317,8,400,nitrate isotopes,Sarah Fawcett
ACE01,6,317,8,400,nutrients,Michael Ellwood
ACE01,6,317,8,400,oxygen-18 isotope,Katherine Leonard
ACE01,6,317,8,400,salinity,Katherine Leonard
ACE01,6,317,7,500,ammonium (NH4),Sarah Fawcett
ACE01,6,317,7,500,biogenic silica,Michael Ellwood
ACE01,6,317,7,500,nitrate isotopes,Sarah Fawcett
ACE01,6,317,7,500,nutrients,Michael Ellwood
ACE01,6,317,6,600,ammonium (NH4),Sarah Fawcett
ACE01,6,317,6,600,biogenic silica,Michael Ellwood
ACE01,6,317,6,600,nitrate isotopes,Sarah Fawcett
ACE01,6,317,6,600,nutrients,Michael Ellwood
ACE01,6,317,5,700,ammonium (NH4),Sarah Fawcett
ACE01,6,317,5,700,biogenic silica,Michael Ellwood
ACE01,6,317,5,700,nitrate isotopes,Sarah Fawcett
ACE01,6,317,5,700,nutrients,Michael Ellwood
ACE01,6,317,4,800,ammonium (NH4),Sarah Fawcett
ACE01,6,317,4,800,biogenic silica,Michael Ellwood
ACE01,6,317,4,800,nitrate isotopes,Sarah Fawcett
ACE01,6,317,4,800,nutrients,Michael Ellwood
ACE01,6,317,4,800,oxygen concentration,Guillaume Massé
ACE01,6,317,1,1000,metaviromes,Christel Hassler
ACE01,6,317,2,1000,ammonium (NH4),Sarah Fawcett
ACE01,6,317,2,1000,bacteria,Christel Hassler
ACE01,6,317,2,1000,metaviromes,Christel Hassler
ACE01,6,317,2,1000,nitrate isotopes,Sarah Fawcett
ACE01,6,317,3,1000,biogenic silica,Michael Ellwood
ACE01,6,317,3,1000,genetics,Nicolas Cassar
ACE01,6,317,3,1000,nutrients,Michael Ellwood
ACE01,7,318,20,0,bacteria,Sarah Fawcett
ACE01,7,318,20,0,chlorophyll-a,David Antoine
ACE01,7,318,20,0,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,7,318,20,0,pigments,David Antoine
ACE01,7,318,21,0,bacteria,Sarah Fawcett
ACE01,7,318,21,0,genetics,Nicolas Cassar
ACE01,7,318,22,0,bacteria,Sarah Fawcett
ACE01,7,318,22,0,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,7,318,23,0,coomasie stainable particles,Rafel Simó
ACE01,7,318,23,0,DNA,Sarah Fawcett
ACE01,7,318,23,0,transparent exopolymeric particles,Rafel Simó
ACE01,7,318,23,0,volatile organic compounds,Rafel Simó
ACE01,7,318,15,15,metaviromes,Christel Hassler
ACE01,7,318,16,15,metaviromes,Christel Hassler
ACE01,7,318,17,15,bacteria,Christel Hassler
ACE01,7,318,17,15,metaviromes,Christel Hassler
ACE01,7,318,18,15,chlorophyll-a,David Antoine
ACE01,7,318,18,15,genetics,Nicolas Cassar
ACE01,7,318,18,15,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,7,318,18,15,pigments,David Antoine
ACE01,7,318,19,15,coomasie stainable particles,Rafel Simó
ACE01,7,318,19,15,transparent exopolymeric particles,Rafel Simó
ACE01,7,318,19,15,volatile organic compounds,Rafel Simó
ACE01,7,318,13,30,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,7,318,14,30,chlorophyll-a,David Antoine
ACE01,7,318,14,30,coomasie stainable particles,Rafel Simó
ACE01,7,318,14,30,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,7,318,14,30,pigments,David Antoine
ACE01,7,318,14,30,transparent exopolymeric particles,Rafel Simó
ACE01,7,318,14,30,volatile organic compounds,Rafel Simó
ACE01,7,318,8,45,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,7,318,9,45,bacteria,Sarah Fawcett
ACE01,7,318,10,45,bacteria,Sarah Fawcett
ACE01,7,318,11,45,bacteria,Sarah Fawcett
ACE01,7,318,11,45,chlorophyll-a,David Antoine
ACE01,7,318,11,45,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,7,318,11,45,pigments,David Antoine
ACE01,7,318,12,45,coomasie stainable particles,Rafel Simó
ACE01,7,318,12,45,transparent exopolymeric particles,Rafel Simó
ACE01,7,318,12,45,volatile organic compounds,Rafel Simó
ACE01,7,318,7,60,chlorophyll-a,David Antoine
ACE01,7,318,7,60,coomasie stainable particles,Rafel Simó
ACE01,7,318,7,60,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,7,318,7,60,pigments,David Antoine
ACE01,7,318,7,60,transparent exopolymeric particles,Rafel Simó
ACE01,7,318,7,60,volatile organic compounds,Rafel Simó
ACE01,7,318,5,70,chlorophyll-a,David Antoine
ACE01,7,318,5,70,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,7,318,5,70,pigments,David Antoine
ACE01,7,318,4,80,chlorophyll-a,David Antoine
ACE01,7,318,4,80,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,7,318,4,80,pigments,David Antoine
ACE01,7,318,2,100,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,7,318,3,100,chlorophyll-a,David Antoine
ACE01,7,318,3,100,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,7,318,3,100,pigments,David Antoine
ACE01,7,318,1,150,genetics,Nicolas Cassar
ACE01,8,369,20,15,alkali,David Antoine
ACE01,8,369,20,15,ammonium (NH4),Sarah Fawcett
ACE01,8,369,20,15,biogenic silica,Michael Ellwood
ACE01,8,369,20,15,dissolved inorganic carbon,David Antoine
ACE01,8,369,20,15,genetics,Nicolas Cassar
ACE01,8,369,20,15,nutrients,Michael Ellwood
ACE01,8,369,20,15,oxygen-18 isotope,Katherine Leonard
ACE01,8,369,20,15,pH,Katherine Leonard
ACE01,8,369,20,15,salinity,Katherine Leonard
ACE01,8,369,21,15,metaviromes,Christel Hassler
ACE01,8,369,22,15,metaviromes,Christel Hassler
ACE01,8,369,23,15,bacteria,Christel Hassler
ACE01,8,369,23,15,genetics,Nicolas Cassar
ACE01,8,369,23,15,metaviromes,Christel Hassler
ACE01,8,369,23,15,oxygen concentration,Guillaume Massé
ACE01,8,369,19,80,alkali,David Antoine
ACE01,8,369,19,80,ammonium (NH4),Sarah Fawcett
ACE01,8,369,19,80,biogenic silica,Michael Ellwood
ACE01,8,369,19,80,dissolved inorganic carbon,David Antoine
ACE01,8,369,19,80,nitrate isotopes,Sarah Fawcett
ACE01,8,369,19,80,nutrients,Michael Ellwood
ACE01,8,369,19,80,oxygen concentration,Guillaume Massé
ACE01,8,369,19,80,oxygen-18 isotope,Katherine Leonard
ACE01,8,369,19,80,pH,Katherine Leonard
ACE01,8,369,19,80,salinity,Katherine Leonard
ACE01,8,369,18,100,alkali,David Antoine
ACE01,8,369,18,100,ammonium (NH4),Sarah Fawcett
ACE01,8,369,18,100,biogenic silica,Michael Ellwood
ACE01,8,369,18,100,dissolved inorganic carbon,David Antoine
ACE01,8,369,18,100,nitrate isotopes,Sarah Fawcett
ACE01,8,369,18,100,nutrients,Michael Ellwood
ACE01,8,369,18,100,oxygen-18 isotope,Katherine Leonard
ACE01,8,369,18,100,pH,Katherine Leonard
ACE01,8,369,18,100,salinity,Katherine Leonard
ACE01,8,369,14,150,alkali,David Antoine
ACE01,8,369,14,150,ammonium (NH4),Sarah Fawcett
ACE01,8,369,14,150,biogenic silica,Michael Ellwood
ACE01,8,369,14,150,chlorophyll-a,David Antoine
ACE01,8,369,14,150,dissolved inorganic carbon,David Antoine
ACE01,8,369,14,150,genetics,Nicolas Cassar
ACE01,8,369,14,150,nitrate isotopes,Sarah Fawcett
ACE01,8,369,14,150,nutrients,Michael Ellwood
ACE01,8,369,14,150,pH,Katherine Leonard
ACE01,8,369,14,150,salinity,Katherine Leonard
ACE01,8,369,15,150,bacteria,Christel Hassler
ACE01,8,369,15,150,genetics,Nicolas Cassar
ACE01,8,369,15,150,metaviromes,Christel Hassler
ACE01,8,369,15,150,oxygen concentration,Guillaume Massé
ACE01,8,369,16,150,metaviromes,Christel Hassler
ACE01,8,369,17,150,metaviromes,Christel Hassler
ACE01,8,369,13,200,alkali,David Antoine
ACE01,8,369,13,200,ammonium (NH4),Sarah Fawcett
ACE01,8,369,13,200,biogenic silica,Michael Ellwood
ACE01,8,369,13,200,chlorophyll-a,David Antoine
ACE01,8,369,13,200,dissolved inorganic carbon,David Antoine
ACE01,8,369,13,200,nitrate isotopes,Sarah Fawcett
ACE01,8,369,13,200,nutrients,Michael Ellwood
ACE01,8,369,13,200,pH,Katherine Leonard
ACE01,8,369,13,200,salinity,Katherine Leonard
ACE01,8,369,12,250,alkali,David Antoine
ACE01,8,369,12,250,ammonium (NH4),Sarah Fawcett
ACE01,8,369,12,250,dissolved inorganic carbon,David Antoine
ACE01,8,369,12,250,nitrate isotopes,Sarah Fawcett
ACE01,8,369,12,250,nutrients,Michael Ellwood
ACE01,8,369,12,250,pH,Katherine Leonard
ACE01,8,369,12,250,salinity,Katherine Leonard
ACE01,8,369,11,300,alkali,David Antoine
ACE01,8,369,11,300,ammonium (NH4),Sarah Fawcett
ACE01,8,369,11,300,biogenic silica,Michael Ellwood
ACE01,8,369,11,300,dissolved inorganic carbon,David Antoine
ACE01,8,369,11,300,nitrate isotopes,Sarah Fawcett
ACE01,8,369,11,300,nutrients,Michael Ellwood
ACE01,8,369,11,300,pH,Katherine Leonard
ACE01,8,369,11,300,salinity,Katherine Leonard
ACE01,8,369,10,400,alkali,David Antoine
ACE01,8,369,10,400,ammonium (NH4),Sarah Fawcett
ACE01,8,369,10,400,biogenic silica,Michael Ellwood
ACE01,8,369,10,400,dissolved inorganic carbon,David Antoine
ACE01,8,369,10,400,nitrate isotopes,Sarah Fawcett
ACE01,8,369,10,400,nutrients,Michael Ellwood
ACE01,8,369,10,400,pH,Katherine Leonard
ACE01,8,369,10,400,salinity,Katherine Leonard
ACE01,8,369,9,500,alkali,David Antoine
ACE01,8,369,9,500,ammonium (NH4),Sarah Fawcett
ACE01,8,369,9,500,biogenic silica,Michael Ellwood
ACE01,8,369,9,500,dissolved inorganic carbon,David Antoine
ACE01,8,369,9,500,nitrate isotopes,Sarah Fawcett
ACE01,8,369,9,500,nutrients,Michael Ellwood
ACE01,8,369,9,500,oxygen concentration,Guillaume Massé
ACE01,8,369,9,500,pH,Katherine Leonard
ACE01,8,369,9,500,salinity,Katherine Leonard
ACE01,8,369,8,600,alkali,David Antoine
ACE01,8,369,8,600,ammonium (NH4),Sarah Fawcett
ACE01,8,369,8,600,biogenic silica,Michael Ellwood
ACE01,8,369,8,600,dissolved inorganic carbon,David Antoine
ACE01,8,369,8,600,nitrate isotopes,Sarah Fawcett
ACE01,8,369,8,600,nutrients,Michael Ellwood
ACE01,8,369,8,600,pH,Katherine Leonard
ACE01,8,369,8,600,salinity,Katherine Leonard
ACE01,8,369,7,700,alkali,David Antoine
ACE01,8,369,7,700,ammonium (NH4),Sarah Fawcett
ACE01,8,369,7,700,biogenic silica,Michael Ellwood
ACE01,8,369,7,700,dissolved inorganic carbon,David Antoine
ACE01,8,369,7,700,nitrate isotopes,Sarah Fawcett
ACE01,8,369,7,700,nutrients,Michael Ellwood
ACE01,8,369,7,700,pH,Katherine Leonard
ACE01,8,369,7,700,salinity,Katherine Leonard
ACE01,8,369,6,800,alkali,David Antoine
ACE01,8,369,6,800,ammonium (NH4),Sarah Fawcett
ACE01,8,369,6,800,biogenic silica,Michael Ellwood
ACE01,8,369,6,800,dissolved inorganic carbon,David Antoine
ACE01,8,369,6,800,nitrate isotopes,Sarah Fawcett
ACE01,8,369,6,800,nutrients,Michael Ellwood
ACE01,8,369,6,800,pH,Katherine Leonard
ACE01,8,369,6,800,salinity,Katherine Leonard
ACE01,8,369,2,1000,alkali,David Antoine
ACE01,8,369,2,1000,ammonium (NH4),Sarah Fawcett
ACE01,8,369,2,1000,biogenic silica,Michael Ellwood
ACE01,8,369,2,1000,dissolved inorganic carbon,David Antoine
ACE01,8,369,2,1000,genetics,Nicolas Cassar
ACE01,8,369,2,1000,nitrate isotopes,Sarah Fawcett
ACE01,8,369,2,1000,nutrients,Michael Ellwood
ACE01,8,369,2,1000,pH,Katherine Leonard
ACE01,8,369,2,1000,salinity,Katherine Leonard
ACE01,8,369,3,1000,bacteria,Christel Hassler
ACE01,8,369,3,1000,genetics,Nicolas Cassar
ACE01,8,369,3,1000,metaviromes,Christel Hassler
ACE01,8,369,4,1000,metaviromes,Christel Hassler
ACE01,8,369,5,1000,metaviromes,Christel Hassler
ACE01,8,369,1,1250,alkali,David Antoine
ACE01,8,369,1,1250,ammonium (NH4),Sarah Fawcett
ACE01,8,369,1,1250,biogenic silica,Michael Ellwood
ACE01,8,369,1,1250,dissolved inorganic carbon,David Antoine
ACE01,8,369,1,1250,nitrate isotopes,Sarah Fawcett
ACE01,8,369,1,1250,nutrients,Michael Ellwood
ACE01,8,369,1,1250,pH,Katherine Leonard
ACE01,8,369,1,1250,salinity,Katherine Leonard
ACE01,9,370,20,0,bacteria,Sarah Fawcett
ACE01,9,370,20,0,biogenic silica,Michael Ellwood
ACE01,9,370,20,0,dissolved inorganic carbon,David Antoine
ACE01,9,370,20,0,nutrients,Michael Ellwood
ACE01,9,370,20,0,pH,\N \N
ACE01,9,370,21,0,bacteria,Sarah Fawcett
ACE01,9,370,21,0,DNA,Sarah Fawcett
ACE01,9,370,22,0,bacteria,Sarah Fawcett
ACE01,9,370,22,0,nitrogen osmolites,Rafel Simó
ACE01,9,370,22,0,particulate organic carbon,Sarah Fawcett
ACE01,9,370,22,0,particulate organic nitrogen,Sarah Fawcett
ACE01,9,370,22,0,phytoplankton,Sarah Fawcett
ACE01,9,370,23,0,ammonium (NH4),Sarah Fawcett
ACE01,9,370,23,0,chlorophyll-a,David Antoine
ACE01,9,370,23,0,coomasie stainable particles,Rafel Simó
ACE01,9,370,23,0,isotopes,\N \N
ACE01,9,370,23,0,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,9,370,23,0,pigments,David Antoine
ACE01,9,370,23,0,transparent exopolymeric particles,Rafel Simó
ACE01,9,370,23,0,volatile organic compounds,Rafel Simó
ACE01,9,370,18,15,chlorophyll-a,David Antoine
ACE01,9,370,18,15,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,9,370,18,15,particulate organic carbon,Sarah Fawcett
ACE01,9,370,18,15,particulate organic nitrogen,Sarah Fawcett
ACE01,9,370,18,15,pigments,David Antoine
ACE01,9,370,15,30,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,9,370,16,30,dissolved inorganic carbon,David Antoine
ACE01,9,370,16,30,pH,\N \N
ACE01,9,370,17,30,ammonium (NH4),Sarah Fawcett
ACE01,9,370,17,30,biogenic silica,Michael Ellwood
ACE01,9,370,17,30,chlorophyll-a,David Antoine
ACE01,9,370,17,30,isotopes,\N \N
ACE01,9,370,17,30,nutrients,Michael Ellwood
ACE01,9,370,17,30,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,9,370,17,30,particulate organic carbon,Sarah Fawcett
ACE01,9,370,17,30,particulate organic nitrogen,Sarah Fawcett
ACE01,9,370,17,30,pigments,David Antoine
ACE01,9,370,13,45,coomasie stainable particles,Rafel Simó
ACE01,9,370,13,45,transparent exopolymeric particles,Rafel Simó
ACE01,9,370,14,45,ammonium (NH4),Sarah Fawcett
ACE01,9,370,14,45,chlorophyll-a,David Antoine
ACE01,9,370,14,45,dissolved inorganic carbon,David Antoine
ACE01,9,370,14,45,isotopes,\N \N
ACE01,9,370,14,45,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,9,370,14,45,particulate organic carbon,Sarah Fawcett
ACE01,9,370,14,45,particulate organic nitrogen,Sarah Fawcett
ACE01,9,370,14,45,pH,\N \N
ACE01,9,370,14,45,pigments,David Antoine
ACE01,9,370,14,45,volatile organic compounds,Rafel Simó
ACE01,9,370,8,60,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,9,370,9,60,bacteria,Sarah Fawcett
ACE01,9,370,9,60,phytoplankton,Sarah Fawcett
ACE01,9,370,10,60,bacteria,Sarah Fawcett
ACE01,9,370,10,60,coomasie stainable particles,Rafel Simó
ACE01,9,370,10,60,transparent exopolymeric particles,Rafel Simó
ACE01,9,370,10,60,volatile organic compounds,Rafel Simó
ACE01,9,370,11,60,bacteria,Sarah Fawcett
ACE01,9,370,11,60,chlorophyll-a,David Antoine
ACE01,9,370,11,60,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,9,370,11,60,pigments,David Antoine
ACE01,9,370,12,60,ammonium (NH4),Sarah Fawcett
ACE01,9,370,12,60,biogenic silica,Michael Ellwood
ACE01,9,370,12,60,dissolved inorganic carbon,David Antoine
ACE01,9,370,12,60,isotopes,\N \N
ACE01,9,370,12,60,nutrients,Michael Ellwood
ACE01,9,370,12,60,particulate organic carbon,Sarah Fawcett
ACE01,9,370,12,60,particulate organic nitrogen,Sarah Fawcett
ACE01,9,370,12,60,pH,\N \N
ACE01,9,370,6,70,chlorophyll-a,David Antoine
ACE01,9,370,6,70,dissolved inorganic carbon,David Antoine
ACE01,9,370,6,70,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,9,370,6,70,particulate organic carbon,Sarah Fawcett
ACE01,9,370,6,70,particulate organic nitrogen,Sarah Fawcett
ACE01,9,370,6,70,pH,\N \N
ACE01,9,370,6,70,pigments,David Antoine
ACE01,9,370,7,70,ammonium (NH4),Sarah Fawcett
ACE01,9,370,7,70,coomasie stainable particles,Rafel Simó
ACE01,9,370,7,70,isotopes,\N \N
ACE01,9,370,7,70,transparent exopolymeric particles,Rafel Simó
ACE01,9,370,7,70,volatile organic compounds,Rafel Simó
ACE01,9,370,5,80,chlorophyll-a,David Antoine
ACE01,9,370,5,80,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,9,370,5,80,particulate organic carbon,Sarah Fawcett
ACE01,9,370,5,80,particulate organic nitrogen,Sarah Fawcett
ACE01,9,370,5,80,pigments,David Antoine
ACE01,9,370,4,90,ammonium (NH4),Sarah Fawcett
ACE01,9,370,4,90,chlorophyll-a,David Antoine
ACE01,9,370,4,90,dissolved inorganic carbon,David Antoine
ACE01,9,370,4,90,isotopes,\N \N
ACE01,9,370,4,90,particulate organic carbon,Sarah Fawcett
ACE01,9,370,4,90,particulate organic nitrogen,Sarah Fawcett
ACE01,9,370,4,90,pH,\N \N
ACE01,9,370,2,100,chlorophyll-a,David Antoine
ACE01,9,370,2,100,coomasie stainable particles,Rafel Simó
ACE01,9,370,2,100,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,9,370,2,100,particulate organic carbon,Sarah Fawcett
ACE01,9,370,2,100,particulate organic nitrogen,Sarah Fawcett
ACE01,9,370,2,100,pigments,David Antoine
ACE01,9,370,2,100,transparent exopolymeric particles,Rafel Simó
ACE01,9,370,2,100,volatile organic compounds,Rafel Simó
ACE01,9,370,3,100,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,9,370,3,100,salinity,Katherine Leonard
ACE01,9,370,1,125,ammonium (NH4),Sarah Fawcett
ACE01,9,370,1,125,biogenic silica,Michael Ellwood
ACE01,9,370,1,125,chlorophyll-a,David Antoine
ACE01,9,370,1,125,dissolved inorganic carbon,David Antoine
ACE01,9,370,1,125,isotopes,\N \N
ACE01,9,370,1,125,nutrients,Michael Ellwood
ACE01,9,370,1,125,particulate organic carbon,Sarah Fawcett
ACE01,9,370,1,125,particulate organic nitrogen,Sarah Fawcett
ACE01,9,370,1,125,pH,\N \N
ACE01,10,401,23,0,ammonium (NH4),Sarah Fawcett
ACE01,10,401,23,0,nitrate isotopes,Sarah Fawcett
ACE01,10,401,23,0,nutrients,Michael Ellwood
ACE01,10,401,23,0,particulate organic nitrogen,Sarah Fawcett
ACE01,10,401,23,0,particulate organic phosphorus,Sarah Fawcett
ACE01,10,401,23,0,phytoplankton,Sarah Fawcett
ACE01,10,401,22,15,ammonium (NH4),Sarah Fawcett
ACE01,10,401,22,15,nitrate isotopes,Sarah Fawcett
ACE01,10,401,22,15,nutrients,Michael Ellwood
ACE01,10,401,22,15,particulate organic nitrogen,Sarah Fawcett
ACE01,10,401,22,15,particulate organic phosphorus,Sarah Fawcett
ACE01,10,401,21,30,ammonium (NH4),Sarah Fawcett
ACE01,10,401,21,30,biogenic silica,Michael Ellwood
ACE01,10,401,21,30,nitrate isotopes,Sarah Fawcett
ACE01,10,401,21,30,nutrients,Michael Ellwood
ACE01,10,401,21,30,oxygen-18 isotope,Katherine Leonard
ACE01,10,401,21,30,particulate organic nitrogen,Sarah Fawcett
ACE01,10,401,21,30,particulate organic phosphorus,Sarah Fawcett
ACE01,10,401,21,30,salinity,Katherine Leonard
ACE01,10,401,20,45,ammonium (NH4),Sarah Fawcett
ACE01,10,401,20,45,nitrate isotopes,Sarah Fawcett
ACE01,10,401,20,45,nutrients,Michael Ellwood
ACE01,10,401,20,45,particulate organic nitrogen,Sarah Fawcett
ACE01,10,401,20,45,particulate organic phosphorus,Sarah Fawcett
ACE01,10,401,19,60,ammonium (NH4),Sarah Fawcett
ACE01,10,401,19,60,nitrate isotopes,Sarah Fawcett
ACE01,10,401,19,60,nutrients,Michael Ellwood
ACE01,10,401,19,60,particulate organic nitrogen,Sarah Fawcett
ACE01,10,401,19,60,particulate organic phosphorus,Sarah Fawcett
ACE01,10,401,18,80,ammonium (NH4),Sarah Fawcett
ACE01,10,401,18,80,nitrate isotopes,Sarah Fawcett
ACE01,10,401,18,80,nutrients,Michael Ellwood
ACE01,10,401,18,80,particulate organic nitrogen,Sarah Fawcett
ACE01,10,401,18,80,particulate organic phosphorus,Sarah Fawcett
ACE01,10,401,17,90,ammonium (NH4),Sarah Fawcett
ACE01,10,401,17,90,nitrate isotopes,Sarah Fawcett
ACE01,10,401,17,90,nutrients,Michael Ellwood
ACE01,10,401,17,90,particulate organic nitrogen,Sarah Fawcett
ACE01,10,401,17,90,particulate organic phosphorus,Sarah Fawcett
ACE01,10,401,17,90,phytoplankton,Sarah Fawcett
ACE01,10,401,16,100,ammonium (NH4),Sarah Fawcett
ACE01,10,401,16,100,biogenic silica,Michael Ellwood
ACE01,10,401,16,100,nitrate isotopes,Sarah Fawcett
ACE01,10,401,16,100,nutrients,Michael Ellwood
ACE01,10,401,16,100,oxygen-18 isotope,Katherine Leonard
ACE01,10,401,16,100,particulate organic nitrogen,Sarah Fawcett
ACE01,10,401,16,100,particulate organic phosphorus,Sarah Fawcett
ACE01,10,401,16,100,salinity,Katherine Leonard
ACE01,10,401,12,150,ammonium (NH4),Sarah Fawcett
ACE01,10,401,12,150,bacteria,Christel Hassler
ACE01,10,401,12,150,biogenic silica,Michael Ellwood
ACE01,10,401,12,150,metaviromes,Christel Hassler
ACE01,10,401,12,150,nitrate isotopes,Sarah Fawcett
ACE01,10,401,12,150,nutrients,Michael Ellwood
ACE01,10,401,12,150,oxygen-18 isotope,Katherine Leonard
ACE01,10,401,12,150,particulate organic nitrogen,Sarah Fawcett
ACE01,10,401,12,150,particulate organic phosphorus,Sarah Fawcett
ACE01,10,401,12,150,salinity,Katherine Leonard
ACE01,10,401,13,150,metaviromes,Christel Hassler
ACE01,10,401,14,150,metaviromes,Christel Hassler
ACE01,10,401,15,150,bacteria,Christel Hassler
ACE01,10,401,15,150,genetics,Nicolas Cassar
ACE01,10,401,15,150,metaviromes,Christel Hassler
ACE01,10,401,11,200,ammonium (NH4),Sarah Fawcett
ACE01,10,401,11,200,biogenic silica,Michael Ellwood
ACE01,10,401,11,200,nitrate isotopes,Sarah Fawcett
ACE01,10,401,11,200,nutrients,Michael Ellwood
ACE01,10,401,11,200,oxygen-18 isotope,Katherine Leonard
ACE01,10,401,11,200,salinity,Katherine Leonard
ACE01,10,401,10,250,ammonium (NH4),Sarah Fawcett
ACE01,10,401,10,250,biogenic silica,Michael Ellwood
ACE01,10,401,10,250,nitrate isotopes,Sarah Fawcett
ACE01,10,401,10,250,nutrients,Michael Ellwood
ACE01,10,401,9,300,ammonium (NH4),Sarah Fawcett
ACE01,10,401,9,300,biogenic silica,Michael Ellwood
ACE01,10,401,9,300,nitrate isotopes,Sarah Fawcett
ACE01,10,401,9,300,nutrients,Michael Ellwood
ACE01,10,401,9,300,oxygen-18 isotope,Katherine Leonard
ACE01,10,401,9,300,salinity,Katherine Leonard
ACE01,10,401,8,400,ammonium (NH4),Sarah Fawcett
ACE01,10,401,8,400,biogenic silica,Michael Ellwood
ACE01,10,401,8,400,nitrate isotopes,Sarah Fawcett
ACE01,10,401,8,400,nutrients,Michael Ellwood
ACE01,10,401,8,400,oxygen-18 isotope,Katherine Leonard
ACE01,10,401,8,400,salinity,Katherine Leonard
ACE01,10,401,7,500,ammonium (NH4),Sarah Fawcett
ACE01,10,401,7,500,biogenic silica,Michael Ellwood
ACE01,10,401,7,500,nitrate isotopes,Sarah Fawcett
ACE01,10,401,7,500,nutrients,Michael Ellwood
ACE01,10,401,6,600,ammonium (NH4),Sarah Fawcett
ACE01,10,401,6,600,biogenic silica,Michael Ellwood
ACE01,10,401,6,600,nitrate isotopes,Sarah Fawcett
ACE01,10,401,6,600,nutrients,Michael Ellwood
ACE01,10,401,5,700,ammonium (NH4),Sarah Fawcett
ACE01,10,401,5,700,biogenic silica,Michael Ellwood
ACE01,10,401,5,700,nitrate isotopes,Sarah Fawcett
ACE01,10,401,5,700,nutrients,Michael Ellwood
ACE01,10,401,4,800,ammonium (NH4),Sarah Fawcett
ACE01,10,401,4,800,biogenic silica,Michael Ellwood
ACE01,10,401,4,800,nitrate isotopes,Sarah Fawcett
ACE01,10,401,4,800,nutrients,Michael Ellwood
ACE01,10,401,4,800,oxygen-18 isotope,Katherine Leonard
ACE01,10,401,4,800,salinity,Katherine Leonard
ACE01,10,401,1,1000,bacteria,Christel Hassler
ACE01,10,401,1,1000,genetics,Nicolas Cassar
ACE01,10,401,1,1000,metaviromes,Christel Hassler
ACE01,10,401,2,1000,metaviromes,Christel Hassler
ACE01,10,401,3,1000,metaviromes,Christel Hassler
ACE01,11,402,17,0,metaviromes,Christel Hassler
ACE01,11,402,18,0,metaviromes,Christel Hassler
ACE01,11,402,19,0,bacteria,Christel Hassler
ACE01,11,402,19,0,genetics,Nicolas Cassar
ACE01,11,402,19,0,metaviromes,Christel Hassler
ACE01,11,402,20,0,bacteria,Sarah Fawcett
ACE01,11,402,20,0,nitrogen osmolites,Rafel Simó
ACE01,11,402,21,0,bacteria,Sarah Fawcett
ACE01,11,402,21,0,chlorophyll-a,David Antoine
ACE01,11,402,21,0,coomasie stainable particles,Rafel Simó
ACE01,11,402,21,0,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,11,402,21,0,pigments,David Antoine
ACE01,11,402,21,0,transparent exopolymeric particles,Rafel Simó
ACE01,11,402,21,0,volatile organic compounds,Rafel Simó
ACE01,11,402,22,0,bacteria,Sarah Fawcett
ACE01,11,402,22,0,DNA,Sarah Fawcett
ACE01,11,402,23,0,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,11,402,11,15,chlorophyll-a,David Antoine
ACE01,11,402,11,15,DNA,Sarah Fawcett
ACE01,11,402,11,15,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,11,402,11,15,pigments,David Antoine
ACE01,11,402,12,15,genetics,Nicolas Cassar
ACE01,11,402,13,15,metaviromes,Christel Hassler
ACE01,11,402,14,15,metaviromes,Christel Hassler
ACE01,11,402,15,15,bacteria,Christel Hassler
ACE01,11,402,15,15,metaviromes,Christel Hassler
ACE01,11,402,16,15,coomasie stainable particles,Rafel Simó
ACE01,11,402,16,15,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,11,402,16,15,transparent exopolymeric particles,Rafel Simó
ACE01,11,402,16,15,volatile organic compounds,Rafel Simó
ACE01,11,402,10,30,chlorophyll-a,David Antoine
ACE01,11,402,10,30,DNA,Sarah Fawcett
ACE01,11,402,10,30,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,11,402,10,30,pigments,David Antoine
ACE01,11,402,9,45,chlorophyll-a,David Antoine
ACE01,11,402,9,45,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,11,402,9,45,pigments,David Antoine
ACE01,11,402,8,60,chlorophyll-a,David Antoine
ACE01,11,402,8,60,coomasie stainable particles,Rafel Simó
ACE01,11,402,8,60,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,11,402,8,60,pigments,David Antoine
ACE01,11,402,8,60,transparent exopolymeric particles,Rafel Simó
ACE01,11,402,8,60,volatile organic compounds,Rafel Simó
ACE01,11,402,7,80,chlorophyll-a,David Antoine
ACE01,11,402,7,80,coomasie stainable particles,Rafel Simó
ACE01,11,402,7,80,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,11,402,7,80,pigments,David Antoine
ACE01,11,402,7,80,transparent exopolymeric particles,Rafel Simó
ACE01,11,402,7,80,volatile organic compounds,Rafel Simó
ACE01,11,402,3,90,coomasie stainable particles,Rafel Simó
ACE01,11,402,3,90,transparent exopolymeric particles,Rafel Simó
ACE01,11,402,3,90,volatile organic compounds,Rafel Simó
ACE01,11,402,4,90,bacteria,Sarah Fawcett
ACE01,11,402,4,90,chlorophyll-a,David Antoine
ACE01,11,402,4,90,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,11,402,4,90,pigments,David Antoine
ACE01,11,402,5,90,bacteria,Sarah Fawcett
ACE01,11,402,6,90,bacteria,Sarah Fawcett
ACE01,11,402,6,90,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,11,402,1,100,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,11,402,2,100,chlorophyll-a,David Antoine
ACE01,11,402,2,100,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,11,402,2,100,pigments,David Antoine
ACE01,12,607,23,0,ammonium (NH4),Sarah Fawcett
ACE01,12,607,23,0,biogenic silica,Michael Ellwood
ACE01,12,607,23,0,nitrate isotopes,Sarah Fawcett
ACE01,12,607,23,0,nutrients,Michael Ellwood
ACE01,12,607,23,0,particulate organic nitrogen,Sarah Fawcett
ACE01,12,607,23,0,particulate organic phosphorus,Sarah Fawcett
ACE01,12,607,23,0,phytoplankton,Sarah Fawcett
ACE01,12,607,22,14,ammonium (NH4),Sarah Fawcett
ACE01,12,607,22,14,biogenic silica,Michael Ellwood
ACE01,12,607,22,14,nitrate isotopes,Sarah Fawcett
ACE01,12,607,22,14,nutrients,Michael Ellwood
ACE01,12,607,22,14,oxygen-18 isotope,Katherine Leonard
ACE01,12,607,22,14,particulate organic nitrogen,Sarah Fawcett
ACE01,12,607,22,14,particulate organic phosphorus,Sarah Fawcett
ACE01,12,607,22,14,salinity,Katherine Leonard
ACE01,12,607,21,30,ammonium (NH4),Sarah Fawcett
ACE01,12,607,21,30,biogenic silica,Michael Ellwood
ACE01,12,607,21,30,nitrate isotopes,Sarah Fawcett
ACE01,12,607,21,30,nutrients,Michael Ellwood
ACE01,12,607,21,30,particulate organic nitrogen,Sarah Fawcett
ACE01,12,607,21,30,particulate organic phosphorus,Sarah Fawcett
ACE01,12,607,20,45,ammonium (NH4),Sarah Fawcett
ACE01,12,607,20,45,biogenic silica,Michael Ellwood
ACE01,12,607,20,45,nitrate isotopes,Sarah Fawcett
ACE01,12,607,20,45,nutrients,Michael Ellwood
ACE01,12,607,20,45,particulate organic nitrogen,Sarah Fawcett
ACE01,12,607,20,45,particulate organic phosphorus,Sarah Fawcett
ACE01,12,607,19,60,ammonium (NH4),Sarah Fawcett
ACE01,12,607,19,60,biogenic silica,Michael Ellwood
ACE01,12,607,19,60,nitrate isotopes,Sarah Fawcett
ACE01,12,607,19,60,nutrients,Michael Ellwood
ACE01,12,607,19,60,oxygen-18 isotope,Katherine Leonard
ACE01,12,607,19,60,particulate organic nitrogen,Sarah Fawcett
ACE01,12,607,19,60,particulate organic phosphorus,Sarah Fawcett
ACE01,12,607,19,60,salinity,Katherine Leonard
ACE01,12,607,18,80,ammonium (NH4),Sarah Fawcett
ACE01,12,607,18,80,biogenic silica,Michael Ellwood
ACE01,12,607,18,80,nitrate isotopes,Sarah Fawcett
ACE01,12,607,18,80,nutrients,Michael Ellwood
ACE01,12,607,18,80,particulate organic nitrogen,Sarah Fawcett
ACE01,12,607,18,80,particulate organic phosphorus,Sarah Fawcett
ACE01,12,607,17,90,ammonium (NH4),Sarah Fawcett
ACE01,12,607,17,90,biogenic silica,Michael Ellwood
ACE01,12,607,17,90,nitrate isotopes,Sarah Fawcett
ACE01,12,607,17,90,nutrients,Michael Ellwood
ACE01,12,607,17,90,particulate organic nitrogen,Sarah Fawcett
ACE01,12,607,17,90,particulate organic phosphorus,Sarah Fawcett
ACE01,12,607,17,90,phytoplankton,Sarah Fawcett
ACE01,12,607,16,100,ammonium (NH4),Sarah Fawcett
ACE01,12,607,16,100,biogenic silica,Michael Ellwood
ACE01,12,607,16,100,nitrate isotopes,Sarah Fawcett
ACE01,12,607,16,100,nutrients,Michael Ellwood
ACE01,12,607,16,100,oxygen-18 isotope,Katherine Leonard
ACE01,12,607,16,100,particulate organic nitrogen,Sarah Fawcett
ACE01,12,607,16,100,particulate organic phosphorus,Sarah Fawcett
ACE01,12,607,16,100,salinity,Katherine Leonard
ACE01,12,607,12,150,bacteria,Christel Hassler
ACE01,12,607,12,150,biogenic silica,Michael Ellwood
ACE01,12,607,12,150,metaviromes,Christel Hassler
ACE01,12,607,12,150,nutrients,Michael Ellwood
ACE01,12,607,13,150,metaviromes,Christel Hassler
ACE01,12,607,14,150,metaviromes,Christel Hassler
ACE01,12,607,15,150,ammonium (NH4),Sarah Fawcett
ACE01,12,607,15,150,genetics,Nicolas Cassar
ACE01,12,607,15,150,nitrate isotopes,Sarah Fawcett
ACE01,12,607,15,150,particulate organic nitrogen,Sarah Fawcett
ACE01,12,607,15,150,particulate organic phosphorus,Sarah Fawcett
ACE01,12,607,11,200,ammonium (NH4),Sarah Fawcett
ACE01,12,607,11,200,biogenic silica,Michael Ellwood
ACE01,12,607,11,200,nitrate isotopes,Sarah Fawcett
ACE01,12,607,11,200,nutrients,Michael Ellwood
ACE01,12,607,11,200,oxygen-18 isotope,Katherine Leonard
ACE01,12,607,11,200,salinity,Katherine Leonard
ACE01,12,607,10,250,ammonium (NH4),Sarah Fawcett
ACE01,12,607,10,250,biogenic silica,Michael Ellwood
ACE01,12,607,10,250,nitrate isotopes,Sarah Fawcett
ACE01,12,607,10,250,nutrients,Michael Ellwood
ACE01,12,607,9,300,ammonium (NH4),Sarah Fawcett
ACE01,12,607,9,300,biogenic silica,Michael Ellwood
ACE01,12,607,9,300,nitrate isotopes,Sarah Fawcett
ACE01,12,607,9,300,nutrients,Michael Ellwood
ACE01,12,607,8,400,ammonium (NH4),Sarah Fawcett
ACE01,12,607,8,400,biogenic silica,Michael Ellwood
ACE01,12,607,8,400,nitrate isotopes,Sarah Fawcett
ACE01,12,607,8,400,nutrients,Michael Ellwood
ACE01,12,607,7,500,ammonium (NH4),Sarah Fawcett
ACE01,12,607,7,500,biogenic silica,Michael Ellwood
ACE01,12,607,7,500,nitrate isotopes,Sarah Fawcett
ACE01,12,607,7,500,nutrients,Michael Ellwood
ACE01,12,607,6,600,ammonium (NH4),Sarah Fawcett
ACE01,12,607,6,600,biogenic silica,Michael Ellwood
ACE01,12,607,6,600,nitrate isotopes,Sarah Fawcett
ACE01,12,607,6,600,nutrients,Michael Ellwood
ACE01,12,607,4,800,ammonium (NH4),Sarah Fawcett
ACE01,12,607,4,800,biogenic silica,Michael Ellwood
ACE01,12,607,4,800,nitrate isotopes,Sarah Fawcett
ACE01,12,607,4,800,nutrients,Michael Ellwood
ACE01,12,607,1,1000,metaviromes,Christel Hassler
ACE01,12,607,2,1000,metaviromes,Christel Hassler
ACE01,12,607,3,1000,ammonium (NH4),Sarah Fawcett
ACE01,12,607,3,1000,biogenic silica,Michael Ellwood
ACE01,12,607,3,1000,genetics,Nicolas Cassar
ACE01,12,607,3,1000,nitrate isotopes,Sarah Fawcett
ACE01,12,607,3,1000,nutrients,Michael Ellwood
ACE01,13,608,18,0,genetics,Nicolas Cassar
ACE01,13,608,19,0,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,13,608,20,0,bacteria,Sarah Fawcett
ACE01,13,608,20,0,DNA,Sarah Fawcett
ACE01,13,608,21,0,bacteria,Sarah Fawcett
ACE01,13,608,21,0,nitrogen osmolites,Rafel Simó
ACE01,13,608,22,0,bacteria,Sarah Fawcett
ACE01,13,608,22,0,coomasie stainable particles,Rafel Simó
ACE01,13,608,22,0,transparent exopolymeric particles,Rafel Simó
ACE01,13,608,22,0,volatile organic compounds,Rafel Simó
ACE01,13,608,23,0,chlorophyll-a,David Antoine
ACE01,13,608,23,0,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,13,608,23,0,pigments,David Antoine
ACE01,13,608,12,15,chlorophyll-a,David Antoine
ACE01,13,608,12,15,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,13,608,12,15,pigments,David Antoine
ACE01,13,608,13,15,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,13,608,14,15,coomasie stainable particles,Rafel Simó
ACE01,13,608,14,15,DNA,Sarah Fawcett
ACE01,13,608,14,15,transparent exopolymeric particles,Rafel Simó
ACE01,13,608,14,15,volatile organic compounds,Rafel Simó
ACE01,13,608,15,15,bacteria,Christel Hassler
ACE01,13,608,15,15,metaviromes,Christel Hassler
ACE01,13,608,16,15,metaviromes,Christel Hassler
ACE01,13,608,17,15,metaviromes,Christel Hassler
ACE01,13,608,11,30,chlorophyll-a,David Antoine
ACE01,13,608,11,30,DNA,Sarah Fawcett
ACE01,13,608,11,30,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,13,608,11,30,pigments,David Antoine
ACE01,13,608,10,45,chlorophyll-a,David Antoine
ACE01,13,608,10,45,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,13,608,10,45,pigments,David Antoine
ACE01,13,608,9,60,chlorophyll-a,David Antoine
ACE01,13,608,9,60,coomasie stainable particles,Rafel Simó
ACE01,13,608,9,60,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,13,608,9,60,pigments,David Antoine
ACE01,13,608,9,60,transparent exopolymeric particles,Rafel Simó
ACE01,13,608,9,60,volatile organic compounds,Rafel Simó
ACE01,13,608,8,80,chlorophyll-a,David Antoine
ACE01,13,608,8,80,coomasie stainable particles,Rafel Simó
ACE01,13,608,8,80,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,13,608,8,80,pigments,David Antoine
ACE01,13,608,8,80,transparent exopolymeric particles,Rafel Simó
ACE01,13,608,8,80,volatile organic compounds,Rafel Simó
ACE01,13,608,4,90,bacteria,Sarah Fawcett
ACE01,13,608,4,90,coomasie stainable particles,Rafel Simó
ACE01,13,608,4,90,transparent exopolymeric particles,Rafel Simó
ACE01,13,608,4,90,volatile organic compounds,Rafel Simó
ACE01,13,608,5,90,bacteria,Sarah Fawcett
ACE01,13,608,6,90,bacteria,Sarah Fawcett
ACE01,13,608,6,90,chlorophyll-a,David Antoine
ACE01,13,608,6,90,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,13,608,6,90,pigments,David Antoine
ACE01,13,608,7,90,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,13,608,1,100,oxygen concentration,Guillaume Massé
ACE01,13,608,2,100,fluorescence-activated cell sorting,Sarah Fawcett
ACE01,13,608,3,100,chlorophyll-a,David Antoine
ACE01,13,608,3,100,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE01,13,608,3,100,pigments,David Antoine
ACE02,1,910,22,5,particulate organic carbon,Sarah Fawcett
ACE02,1,910,22,5,particulate organic nitrogen,Sarah Fawcett
ACE02,1,910,23,5,ammonium (NH4),Sarah Fawcett
ACE02,1,910,23,5,biogenic silica,Michael Ellwood
ACE02,1,910,23,5,nitrate isotopes,Sarah Fawcett
ACE02,1,910,23,5,nutrients,Michael Ellwood
ACE02,1,910,23,5,oxygen-18 isotope,Katherine Leonard
ACE02,1,910,23,5,salinity,Katherine Leonard
ACE02,1,910,21,15,ammonium (NH4),Sarah Fawcett
ACE02,1,910,21,15,biogenic silica,Michael Ellwood
ACE02,1,910,21,15,nitrate isotopes,Sarah Fawcett
ACE02,1,910,21,15,nutrients,Michael Ellwood
ACE02,1,910,21,15,oxygen-18 isotope,Katherine Leonard
ACE02,1,910,21,15,particulate organic carbon,Sarah Fawcett
ACE02,1,910,21,15,particulate organic nitrogen,Sarah Fawcett
ACE02,1,910,21,15,salinity,Katherine Leonard
ACE02,1,910,16,17,ammonium (NH4),Sarah Fawcett
ACE02,1,910,16,17,biogenic silica,Michael Ellwood
ACE02,1,910,16,17,nitrate isotopes,Sarah Fawcett
ACE02,1,910,16,17,nutrients,Michael Ellwood
ACE02,1,910,16,17,oxygen-18 isotope,Katherine Leonard
ACE02,1,910,16,17,particulate organic carbon,Sarah Fawcett
ACE02,1,910,16,17,particulate organic nitrogen,Sarah Fawcett
ACE02,1,910,16,17,salinity,Katherine Leonard
ACE02,1,910,20,30,ammonium (NH4),Sarah Fawcett
ACE02,1,910,20,30,biogenic silica,Michael Ellwood
ACE02,1,910,20,30,nitrate isotopes,Sarah Fawcett
ACE02,1,910,20,30,nutrients,Michael Ellwood
ACE02,1,910,20,30,particulate organic carbon,Sarah Fawcett
ACE02,1,910,20,30,particulate organic nitrogen,Sarah Fawcett
ACE02,1,910,19,40,ammonium (NH4),Sarah Fawcett
ACE02,1,910,19,40,biogenic silica,Michael Ellwood
ACE02,1,910,19,40,nitrate isotopes,Sarah Fawcett
ACE02,1,910,19,40,nutrients,Michael Ellwood
ACE02,1,910,19,40,particulate organic carbon,Sarah Fawcett
ACE02,1,910,19,40,particulate organic nitrogen,Sarah Fawcett
ACE02,1,910,18,50,ammonium (NH4),Sarah Fawcett
ACE02,1,910,18,50,biogenic silica,Michael Ellwood
ACE02,1,910,18,50,nitrate isotopes,Sarah Fawcett
ACE02,1,910,18,50,nutrients,Michael Ellwood
ACE02,1,910,18,50,particulate organic carbon,Sarah Fawcett
ACE02,1,910,18,50,particulate organic nitrogen,Sarah Fawcett
ACE02,1,910,17,75,ammonium (NH4),Sarah Fawcett
ACE02,1,910,17,75,biogenic silica,Michael Ellwood
ACE02,1,910,17,75,nitrate isotopes,Sarah Fawcett
ACE02,1,910,17,75,nutrients,Michael Ellwood
ACE02,1,910,17,75,particulate organic carbon,Sarah Fawcett
ACE02,1,910,17,75,particulate organic nitrogen,Sarah Fawcett
ACE02,1,910,15,100,ammonium (NH4),Sarah Fawcett
ACE02,1,910,15,100,biogenic silica,Michael Ellwood
ACE02,1,910,15,100,nitrate isotopes,Sarah Fawcett
ACE02,1,910,15,100,nutrients,Michael Ellwood
ACE02,1,910,15,100,particulate organic carbon,Sarah Fawcett
ACE02,1,910,15,100,particulate organic nitrogen,Sarah Fawcett
ACE02,1,910,11,150,biogenic silica,Michael Ellwood
ACE02,1,910,11,150,genetics,Nicolas Cassar
ACE02,1,910,11,150,nutrients,Michael Ellwood
ACE02,1,910,11,150,oxygen-18 isotope,Katherine Leonard
ACE02,1,910,11,150,salinity,Katherine Leonard
ACE02,1,910,12,150,metaviromes,Christel Hassler
ACE02,1,910,13,150,metaviromes,Christel Hassler
ACE02,1,910,14,150,ammonium (NH4),Sarah Fawcett
ACE02,1,910,14,150,bacteria,Christel Hassler
ACE02,1,910,14,150,metaviromes,Christel Hassler
ACE02,1,910,14,150,nitrate isotopes,Sarah Fawcett
ACE02,1,910,14,150,particulate organic carbon,Sarah Fawcett
ACE02,1,910,14,150,particulate organic nitrogen,Sarah Fawcett
ACE02,1,910,10,200,ammonium (NH4),Sarah Fawcett
ACE02,1,910,10,200,biogenic silica,Michael Ellwood
ACE02,1,910,10,200,nitrate isotopes,Sarah Fawcett
ACE02,1,910,10,200,nutrients,Michael Ellwood
ACE02,1,910,10,200,oxygen-18 isotope,Katherine Leonard
ACE02,1,910,10,200,salinity,Katherine Leonard
ACE02,1,910,9,300,ammonium (NH4),Sarah Fawcett
ACE02,1,910,9,300,biogenic silica,Michael Ellwood
ACE02,1,910,9,300,nitrate isotopes,Sarah Fawcett
ACE02,1,910,9,300,nutrients,Michael Ellwood
ACE02,1,910,8,400,ammonium (NH4),Sarah Fawcett
ACE02,1,910,8,400,biogenic silica,Michael Ellwood
ACE02,1,910,8,400,nitrate isotopes,Sarah Fawcett
ACE02,1,910,8,400,nutrients,Michael Ellwood
ACE02,1,910,8,400,oxygen-18 isotope,Katherine Leonard
ACE02,1,910,8,400,salinity,Katherine Leonard
ACE02,1,910,7,500,ammonium (NH4),Sarah Fawcett
ACE02,1,910,7,500,biogenic silica,Michael Ellwood
ACE02,1,910,7,500,nitrate isotopes,Sarah Fawcett
ACE02,1,910,7,500,nutrients,Michael Ellwood
ACE02,1,910,7,500,oxygen-18 isotope,Katherine Leonard
ACE02,1,910,7,500,salinity,Katherine Leonard
ACE02,1,910,6,600,ammonium (NH4),Sarah Fawcett
ACE02,1,910,6,600,biogenic silica,Michael Ellwood
ACE02,1,910,6,600,nitrate isotopes,Sarah Fawcett
ACE02,1,910,6,600,nutrients,Michael Ellwood
ACE02,1,910,5,700,ammonium (NH4),Sarah Fawcett
ACE02,1,910,5,700,biogenic silica,Michael Ellwood
ACE02,1,910,5,700,nitrate isotopes,Sarah Fawcett
ACE02,1,910,5,700,nutrients,Michael Ellwood
ACE02,1,910,4,800,ammonium (NH4),Sarah Fawcett
ACE02,1,910,4,800,biogenic silica,Michael Ellwood
ACE02,1,910,4,800,nitrate isotopes,Sarah Fawcett
ACE02,1,910,4,800,nutrients,Michael Ellwood
ACE02,1,910,1,1000,metaviromes,Christel Hassler
ACE02,1,910,2,1000,ammonium (NH4),Sarah Fawcett
ACE02,1,910,2,1000,bacteria,Christel Hassler
ACE02,1,910,2,1000,metaviromes,Christel Hassler
ACE02,1,910,2,1000,nitrate isotopes,Sarah Fawcett
ACE02,1,910,2,1000,oxygen-18 isotope,Katherine Leonard
ACE02,1,910,2,1000,salinity,Katherine Leonard
ACE02,1,910,3,1000,biogenic silica,Michael Ellwood
ACE02,1,910,3,1000,genetics,Nicolas Cassar
ACE02,1,910,3,1000,nutrients,Michael Ellwood
ACE02,3,932,22,5,oxygen-18 isotope,Katherine Leonard
ACE02,3,932,22,5,particulate organic carbon,Sarah Fawcett
ACE02,3,932,22,5,particulate organic nitrogen,Sarah Fawcett
ACE02,3,932,22,5,salinity,Katherine Leonard
ACE02,3,932,23,5,ammonium (NH4),Sarah Fawcett
ACE02,3,932,23,5,biogenic silica,Michael Ellwood
ACE02,3,932,23,5,nitrate isotopes,Sarah Fawcett
ACE02,3,932,23,5,nutrients,Michael Ellwood
ACE02,3,932,23,5,oxygen-18 isotope,Katherine Leonard
ACE02,3,932,23,5,salinity,Katherine Leonard
ACE02,3,932,21,15,ammonium (NH4),Sarah Fawcett
ACE02,3,932,21,15,biogenic silica,Michael Ellwood
ACE02,3,932,21,15,nitrate isotopes,Sarah Fawcett
ACE02,3,932,21,15,nutrients,Michael Ellwood
ACE02,3,932,21,15,particulate organic carbon,Sarah Fawcett
ACE02,3,932,21,15,particulate organic nitrogen,Sarah Fawcett
ACE02,3,932,20,30,ammonium (NH4),Sarah Fawcett
ACE02,3,932,20,30,biogenic silica,Michael Ellwood
ACE02,3,932,20,30,nitrate isotopes,Sarah Fawcett
ACE02,3,932,20,30,nutrients,Michael Ellwood
ACE02,3,932,20,30,oxygen-18 isotope,Katherine Leonard
ACE02,3,932,20,30,particulate organic carbon,Sarah Fawcett
ACE02,3,932,20,30,particulate organic nitrogen,Sarah Fawcett
ACE02,3,932,20,30,salinity,Katherine Leonard
ACE02,3,932,19,40,ammonium (NH4),Sarah Fawcett
ACE02,3,932,19,40,biogenic silica,Michael Ellwood
ACE02,3,932,19,40,nitrate isotopes,Sarah Fawcett
ACE02,3,932,19,40,nutrients,Michael Ellwood
ACE02,3,932,19,40,particulate organic carbon,Sarah Fawcett
ACE02,3,932,19,40,particulate organic nitrogen,Sarah Fawcett
ACE02,3,932,18,50,ammonium (NH4),Sarah Fawcett
ACE02,3,932,18,50,biogenic silica,Michael Ellwood
ACE02,3,932,18,50,nitrate isotopes,Sarah Fawcett
ACE02,3,932,18,50,nutrients,Michael Ellwood
ACE02,3,932,18,50,particulate organic carbon,Sarah Fawcett
ACE02,3,932,18,50,particulate organic nitrogen,Sarah Fawcett
ACE02,3,932,17,60,ammonium (NH4),Sarah Fawcett
ACE02,3,932,17,60,biogenic silica,Michael Ellwood
ACE02,3,932,17,60,nitrate isotopes,Sarah Fawcett
ACE02,3,932,17,60,nutrients,Michael Ellwood
ACE02,3,932,17,60,oxygen-18 isotope,Katherine Leonard
ACE02,3,932,17,60,particulate organic carbon,Sarah Fawcett
ACE02,3,932,17,60,particulate organic nitrogen,Sarah Fawcett
ACE02,3,932,17,60,salinity,Katherine Leonard
ACE02,3,932,16,80,ammonium (NH4),Sarah Fawcett
ACE02,3,932,16,80,biogenic silica,Michael Ellwood
ACE02,3,932,16,80,nitrate isotopes,Sarah Fawcett
ACE02,3,932,16,80,nutrients,Michael Ellwood
ACE02,3,932,16,80,oxygen-18 isotope,Katherine Leonard
ACE02,3,932,16,80,particulate organic carbon,Sarah Fawcett
ACE02,3,932,16,80,particulate organic nitrogen,Sarah Fawcett
ACE02,3,932,16,80,salinity,Katherine Leonard
ACE02,3,932,15,100,ammonium (NH4),Sarah Fawcett
ACE02,3,932,15,100,biogenic silica,Michael Ellwood
ACE02,3,932,15,100,nitrate isotopes,Sarah Fawcett
ACE02,3,932,15,100,nutrients,Michael Ellwood
ACE02,3,932,15,100,oxygen-18 isotope,Katherine Leonard
ACE02,3,932,15,100,particulate organic carbon,Sarah Fawcett
ACE02,3,932,15,100,particulate organic nitrogen,Sarah Fawcett
ACE02,3,932,15,100,salinity,Katherine Leonard
ACE02,3,932,11,150,genetics,Nicolas Cassar
ACE02,3,932,12,150,metaviromes,Christel Hassler
ACE02,3,932,13,150,metaviromes,Christel Hassler
ACE02,3,932,14,150,ammonium (NH4),Sarah Fawcett
ACE02,3,932,14,150,biogenic silica,Michael Ellwood
ACE02,3,932,14,150,nitrate isotopes,Sarah Fawcett
ACE02,3,932,14,150,nutrients,Michael Ellwood
ACE02,3,932,14,150,particulate organic carbon,Sarah Fawcett
ACE02,3,932,14,150,particulate organic nitrogen,Sarah Fawcett
ACE02,3,932,10,200,ammonium (NH4),Sarah Fawcett
ACE02,3,932,10,200,bacteria,Christel Hassler
ACE02,3,932,10,200,biogenic silica,Michael Ellwood
ACE02,3,932,10,200,metaviromes,Christel Hassler
ACE02,3,932,10,200,nitrate isotopes,Sarah Fawcett
ACE02,3,932,10,200,nutrients,Michael Ellwood
ACE02,3,932,9,300,ammonium (NH4),Sarah Fawcett
ACE02,3,932,9,300,biogenic silica,Michael Ellwood
ACE02,3,932,9,300,nitrate isotopes,Sarah Fawcett
ACE02,3,932,9,300,nutrients,Michael Ellwood
ACE02,3,932,9,300,oxygen-18 isotope,Katherine Leonard
ACE02,3,932,9,300,salinity,Katherine Leonard
ACE02,3,932,8,400,ammonium (NH4),Sarah Fawcett
ACE02,3,932,8,400,biogenic silica,Michael Ellwood
ACE02,3,932,8,400,nitrate isotopes,Sarah Fawcett
ACE02,3,932,8,400,nutrients,Michael Ellwood
ACE02,3,932,8,400,oxygen-18 isotope,Katherine Leonard
ACE02,3,932,8,400,salinity,Katherine Leonard
ACE02,3,932,7,500,ammonium (NH4),Sarah Fawcett
ACE02,3,932,7,500,biogenic silica,Michael Ellwood
ACE02,3,932,7,500,nitrate isotopes,Sarah Fawcett
ACE02,3,932,7,500,nutrients,Michael Ellwood
ACE02,3,932,6,600,ammonium (NH4),Sarah Fawcett
ACE02,3,932,6,600,biogenic silica,Michael Ellwood
ACE02,3,932,6,600,nitrate isotopes,Sarah Fawcett
ACE02,3,932,6,600,nutrients,Michael Ellwood
ACE02,3,932,6,600,oxygen-18 isotope,Katherine Leonard
ACE02,3,932,6,600,salinity,Katherine Leonard
ACE02,3,932,5,700,ammonium (NH4),Sarah Fawcett
ACE02,3,932,5,700,biogenic silica,Michael Ellwood
ACE02,3,932,5,700,nitrate isotopes,Sarah Fawcett
ACE02,3,932,5,700,nutrients,Michael Ellwood
ACE02,3,932,5,700,oxygen-18 isotope,Katherine Leonard
ACE02,3,932,5,700,salinity,Katherine Leonard
ACE02,3,932,4,750,ammonium (NH4),Sarah Fawcett
ACE02,3,932,4,750,biogenic silica,Michael Ellwood
ACE02,3,932,4,750,nitrate isotopes,Sarah Fawcett
ACE02,3,932,4,750,nutrients,Michael Ellwood
ACE02,3,932,1,1000,metaviromes,Christel Hassler
ACE02,3,932,2,1000,ammonium (NH4),Sarah Fawcett
ACE02,3,932,2,1000,bacteria,Christel Hassler
ACE02,3,932,2,1000,metaviromes,Christel Hassler
ACE02,3,932,2,1000,nitrate isotopes,Sarah Fawcett
ACE02,3,932,2,1000,oxygen-18 isotope,Katherine Leonard
ACE02,3,932,2,1000,salinity,Katherine Leonard
ACE02,3,932,3,1000,biogenic silica,Michael Ellwood
ACE02,3,932,3,1000,genetics,Nicolas Cassar
ACE02,3,932,3,1000,nutrients,Michael Ellwood
ACE02,4,934,1,150,genetics,Nicolas Cassar
ACE02,5,961,1,1000,metaviromes,Christel Hassler
ACE02,6,963,1,150,genetics,Nicolas Cassar
ACE02,7,1026,23,5,biogenic silica,Michael Ellwood
ACE02,7,1026,23,5,n&n,Sarah Fawcett
ACE02,7,1026,23,5,oxygen concentration,Guillaume Massé
ACE02,7,1026,23,5,oxygen-18 isotope,Guillaume Massé
ACE02,7,1026,23,5,particulate organic carbon,Sarah Fawcett
ACE02,7,1026,23,5,phytoplankton,David Antoine
ACE02,7,1026,23,5,salinity,Guillaume Massé
ACE02,7,1026,20,15,biogenic silica,Michael Ellwood
ACE02,7,1026,20,15,genetics,Nicolas Cassar
ACE02,7,1026,20,15,oxygen-18 isotope,Guillaume Massé
ACE02,7,1026,21,15,bacteria,Christel Hassler
ACE02,7,1026,21,15,n&n,Sarah Fawcett
ACE02,7,1026,21,15,particulate organic carbon,Sarah Fawcett
ACE02,7,1026,21,15,phytoplankton,David Antoine
ACE02,7,1026,19,30,biogenic silica,Michael Ellwood
ACE02,7,1026,19,30,n&n,Sarah Fawcett
ACE02,7,1026,19,30,oxygen-18 isotope,Guillaume Massé
ACE02,7,1026,19,30,particulate organic carbon,Sarah Fawcett
ACE02,7,1026,19,30,phytoplankton,David Antoine
ACE02,7,1026,17,50,biogenic silica,Michael Ellwood
ACE02,7,1026,17,50,n&n,Sarah Fawcett
ACE02,7,1026,17,50,oxygen concentration,Guillaume Massé
ACE02,7,1026,17,50,oxygen-18 isotope,Guillaume Massé
ACE02,7,1026,17,50,particulate organic carbon,Sarah Fawcett
ACE02,7,1026,17,50,phytoplankton,David Antoine
ACE02,7,1026,17,50,salinity,Guillaume Massé
ACE02,7,1026,15,75,biogenic silica,Michael Ellwood
ACE02,7,1026,15,75,oxygen-18 isotope,Guillaume Massé
ACE02,7,1026,16,75,n&n,Sarah Fawcett
ACE02,7,1026,16,75,particulate organic carbon,Sarah Fawcett
ACE02,7,1026,16,75,phytoplankton,David Antoine
ACE02,7,1026,14,200,biogenic silica,Michael Ellwood
ACE02,7,1026,14,200,n&n,Sarah Fawcett
ACE02,7,1026,14,200,oxygen-18 isotope,Guillaume Massé
ACE02,7,1026,10,250,metaviromes,Christel Hassler
ACE02,7,1026,10,250,oxygen-18 isotope,Guillaume Massé
ACE02,7,1026,11,250,metaviromes,Christel Hassler
ACE02,7,1026,12,250,bacteria,Christel Hassler
ACE02,7,1026,12,250,biogenic silica,Michael Ellwood
ACE02,7,1026,12,250,n&n,Sarah Fawcett
ACE02,7,1026,12,250,oxygen concentration,Guillaume Massé
ACE02,7,1026,12,250,salinity,Guillaume Massé
ACE02,7,1026,13,250,genetics,Nicolas Cassar
ACE02,7,1026,9,400,biogenic silica,Michael Ellwood
ACE02,7,1026,9,400,n&n,Sarah Fawcett
ACE02,7,1026,9,400,oxygen-18 isotope,Guillaume Massé
ACE02,7,1026,8,500,metaviromes,Christel Hassler
ACE02,7,1026,4,550,biogenic silica,Michael Ellwood
ACE02,7,1026,4,550,oxygen concentration,Guillaume Massé
ACE02,7,1026,4,550,oxygen-18 isotope,Guillaume Massé
ACE02,7,1026,4,550,salinity,Guillaume Massé
ACE02,7,1026,5,550,n&n,Sarah Fawcett
ACE02,7,1026,6,550,bacteria,Christel Hassler
ACE02,7,1026,6,550,genetics,Nicolas Cassar
ACE02,7,1026,7,550,metaviromes,Christel Hassler
ACE02,7,1026,3,650,biogenic silica,Michael Ellwood
ACE02,7,1026,3,650,oxygen-18 isotope,Guillaume Massé
ACE02,7,1026,1,712,genetics,Nicolas Cassar
ACE02,7,1026,2,712,biogenic silica,Michael Ellwood
ACE02,7,1026,2,712,n&n,Sarah Fawcett
ACE02,8,1029,4,5,oxygen concentration,Guillaume Massé
ACE02,8,1029,2,15,oxygen concentration,Guillaume Massé
ACE02,8,1029,3,15,coomasie stainable particles,Rafel Simó
ACE02,8,1029,3,15,Particulate and dissolved methylamines,Rafel Simó
ACE02,8,1029,3,15,transparent exopolymeric particles,Rafel Simó
ACE02,9,1092,7,5,oxygen concentration,Guillaume Massé
ACE02,9,1092,7,5,oxygen-18 isotope,Katherine Leonard
ACE02,9,1092,7,5,salinity,Katherine Leonard
ACE02,9,1092,6,30,oxygen-18 isotope,Katherine Leonard
ACE02,9,1092,5,55,oxygen concentration,Guillaume Massé
ACE02,9,1092,5,55,oxygen-18 isotope,Katherine Leonard
ACE02,9,1092,5,55,salinity,Katherine Leonard
ACE02,9,1092,4,75,oxygen-18 isotope,Katherine Leonard
ACE02,9,1092,3,130,oxygen-18 isotope,Katherine Leonard
ACE02,9,1092,2,200,oxygen-18 isotope,Katherine Leonard
ACE02,9,1092,1,250,oxygen-18 isotope,Katherine Leonard
ACE02,10,1093,7,5,oxygen concentration,Guillaume Massé
ACE02,10,1093,7,5,oxygen-18 isotope,Katherine Leonard
ACE02,10,1093,7,5,salinity,Katherine Leonard
ACE02,10,1093,6,30,oxygen-18 isotope,Katherine Leonard
ACE02,10,1093,5,55,oxygen concentration,Guillaume Massé
ACE02,10,1093,5,55,oxygen-18 isotope,Katherine Leonard
ACE02,10,1093,5,55,salinity,Katherine Leonard
ACE02,10,1093,4,75,oxygen-18 isotope,Katherine Leonard
ACE02,10,1093,3,130,oxygen-18 isotope,Katherine Leonard
ACE02,10,1093,2,200,oxygen-18 isotope,Katherine Leonard
ACE02,10,1093,1,250,oxygen-18 isotope,Katherine Leonard
ACE02,11,1094,8,5,oxygen concentration,Guillaume Massé
ACE02,11,1094,8,5,oxygen-18 isotope,Katherine Leonard
ACE02,11,1094,8,5,salinity,Katherine Leonard
ACE02,11,1094,7,35,oxygen-18 isotope,Katherine Leonard
ACE02,11,1094,6,80,oxygen-18 isotope,Katherine Leonard
ACE02,11,1094,6,80,salinity,Katherine Leonard
ACE02,11,1094,5,160,oxygen concentration,Guillaume Massé
ACE02,11,1094,5,160,oxygen-18 isotope,Katherine Leonard
ACE02,11,1094,4,300,oxygen-18 isotope,Katherine Leonard
ACE02,11,1094,3,600,oxygen-18 isotope,Katherine Leonard
ACE02,11,1094,2,700,oxygen-18 isotope,Katherine Leonard
ACE02,11,1094,1,850,oxygen-18 isotope,Katherine Leonard
ACE02,12,1095,9,5,oxygen concentration,Guillaume Massé
ACE02,12,1095,9,5,oxygen-18 isotope,Katherine Leonard
ACE02,12,1095,9,5,salinity,Katherine Leonard
ACE02,12,1095,8,35,oxygen-18 isotope,Katherine Leonard
ACE02,12,1095,7,50,oxygen-18 isotope,Katherine Leonard
ACE02,12,1095,6,70,oxygen-18 isotope,Katherine Leonard
ACE02,12,1095,5,170,oxygen concentration,Guillaume Massé
ACE02,12,1095,5,170,oxygen-18 isotope,Katherine Leonard
ACE02,12,1095,5,170,salinity,Katherine Leonard
ACE02,12,1095,4,400,oxygen-18 isotope,Katherine Leonard
ACE02,12,1095,3,600,oxygen-18 isotope,Katherine Leonard
ACE02,12,1095,2,700,oxygen-18 isotope,Katherine Leonard
ACE02,12,1095,1,900,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,23,5,biogenic silica,Michael Ellwood
ACE02,13,1096,23,5,nutrients,Michael Ellwood
ACE02,13,1096,23,5,oxygen concentration,Guillaume Massé
ACE02,13,1096,23,5,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,23,5,salinity,Katherine Leonard
ACE02,13,1096,21,25,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,20,30,biogenic silica,Michael Ellwood
ACE02,13,1096,20,30,genetics,Nicolas Cassar
ACE02,13,1096,20,30,nutrients,Michael Ellwood
ACE02,13,1096,20,30,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,19,50,biogenic silica,Michael Ellwood
ACE02,13,1096,19,50,nutrients,Michael Ellwood
ACE02,13,1096,19,50,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,18,80,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,17,90,biogenic silica,Michael Ellwood
ACE02,13,1096,17,90,nutrients,Michael Ellwood
ACE02,13,1096,17,90,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,15,125,biogenic silica,Michael Ellwood
ACE02,13,1096,15,125,nutrients,Michael Ellwood
ACE02,13,1096,15,125,oxygen concentration,Guillaume Massé
ACE02,13,1096,15,125,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,16,125,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,11,250,metaviromes,Christel Hassler
ACE02,13,1096,12,250,biogenic silica,Michael Ellwood
ACE02,13,1096,12,250,nutrients,Michael Ellwood
ACE02,13,1096,12,250,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,13,250,bacteria,Christel Hassler
ACE02,13,1096,13,250,genetics,Nicolas Cassar
ACE02,13,1096,14,250,metaviromes,Christel Hassler
ACE02,13,1096,10,320,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,10,320,salinity,Katherine Leonard
ACE02,13,1096,9,380,biogenic silica,Michael Ellwood
ACE02,13,1096,9,380,nutrients,Michael Ellwood
ACE02,13,1096,9,380,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,8,440,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,4,500,biogenic silica,Michael Ellwood
ACE02,13,1096,4,500,nutrients,Michael Ellwood
ACE02,13,1096,4,500,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,5,500,metaviromes,Christel Hassler
ACE02,13,1096,6,500,bacteria,Christel Hassler
ACE02,13,1096,6,500,genetics,Nicolas Cassar
ACE02,13,1096,7,500,metaviromes,Christel Hassler
ACE02,13,1096,3,700,biogenic silica,Michael Ellwood
ACE02,13,1096,3,700,nutrients,Michael Ellwood
ACE02,13,1096,3,700,oxygen concentration,Guillaume Massé
ACE02,13,1096,3,700,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,1,772,genetics,Nicolas Cassar
ACE02,13,1096,1,772,oxygen-18 isotope,Katherine Leonard
ACE02,13,1096,1,772,salinity,Katherine Leonard
ACE02,13,1096,2,772,biogenic silica,Michael Ellwood
ACE02,13,1096,2,772,nutrients,Michael Ellwood
ACE02,14,1099,1,150,genetics,Nicolas Cassar
ACE02,15,1103,7,100,oxygen-18 isotope,Katherine Leonard
ACE02,15,1103,6,150,oxygen-18 isotope,Katherine Leonard
ACE02,15,1103,5,200,oxygen concentration,Guillaume Massé
ACE02,15,1103,5,200,oxygen-18 isotope,Katherine Leonard
ACE02,15,1103,5,200,salinity,Katherine Leonard
ACE02,15,1103,4,250,oxygen-18 isotope,Katherine Leonard
ACE02,15,1103,3,320,oxygen-18 isotope,Katherine Leonard
ACE02,15,1103,2,400,oxygen-18 isotope,Katherine Leonard
ACE02,16,1104,8,5,oxygen concentration,Guillaume Massé
ACE02,16,1104,8,5,oxygen-18 isotope,Katherine Leonard
ACE02,16,1104,8,5,salinity,Katherine Leonard
ACE02,16,1104,7,20,oxygen-18 isotope,Katherine Leonard
ACE02,16,1104,5,105,oxygen-18 isotope,Katherine Leonard
ACE02,16,1104,4,160,oxygen concentration,Guillaume Massé
ACE02,16,1104,4,160,oxygen-18 isotope,Katherine Leonard
ACE02,16,1104,4,160,salinity,Katherine Leonard
ACE02,16,1104,3,220,oxygen-18 isotope,Katherine Leonard
ACE02,16,1104,2,300,oxygen-18 isotope,Katherine Leonard
ACE02,17,1105,10,5,genetics,Nicolas Cassar
ACE02,17,1105,10,5,oxygen concentration,Guillaume Massé
ACE02,17,1105,10,5,oxygen-18 isotope,Katherine Leonard
ACE02,17,1105,10,5,salinity,Katherine Leonard
ACE02,17,1105,9,10,oxygen-18 isotope,Katherine Leonard
ACE02,17,1105,8,40,oxygen concentration,Guillaume Massé
ACE02,17,1105,8,40,oxygen-18 isotope,Katherine Leonard
ACE02,17,1105,8,40,salinity,Katherine Leonard
ACE02,17,1105,7,100,genetics,Nicolas Cassar
ACE02,17,1105,7,100,oxygen-18 isotope,Katherine Leonard
ACE02,17,1105,6,160,oxygen-18 isotope,Katherine Leonard
ACE02,17,1105,5,210,oxygen-18 isotope,Katherine Leonard
ACE02,17,1105,4,260,oxygen-18 isotope,Katherine Leonard
ACE02,17,1105,3,300,oxygen-18 isotope,Katherine Leonard
ACE02,17,1105,2,330,oxygen-18 isotope,Katherine Leonard
ACE02,17,1105,1,350,genetics,Nicolas Cassar
ACE02,18,1108,6,5,oxygen-18 isotope,Katherine Leonard
ACE02,18,1108,6,5,salinity,Katherine Leonard
ACE02,18,1108,5,12,oxygen-18 isotope,Katherine Leonard
ACE02,18,1108,4,50,oxygen-18 isotope,Katherine Leonard
ACE02,18,1108,3,100,oxygen-18 isotope,Katherine Leonard
ACE02,18,1108,2,140,oxygen-18 isotope,Katherine Leonard
ACE02,19,1128,9,5,oxygen concentration,Guillaume Massé
ACE02,19,1128,9,5,oxygen-18 isotope,Katherine Leonard
ACE02,19,1128,9,5,salinity,Katherine Leonard
ACE02,19,1128,8,26,oxygen-18 isotope,Katherine Leonard
ACE02,19,1128,7,80,oxygen-18 isotope,Katherine Leonard
ACE02,19,1128,6,140,oxygen-18 isotope,Katherine Leonard
ACE02,19,1128,5,360,oxygen-18 isotope,Katherine Leonard
ACE02,19,1128,4,460,oxygen concentration,Guillaume Massé
ACE02,19,1128,4,460,oxygen-18 isotope,Katherine Leonard
ACE02,19,1128,4,460,salinity,Katherine Leonard
ACE02,19,1128,3,620,oxygen-18 isotope,Katherine Leonard
ACE02,20,1144,22,5,oxygen-18 isotope,Katherine Leonard
ACE02,20,1144,22,5,salinity,Katherine Leonard
ACE02,20,1144,23,5,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,23,5,biogenic silica,Michael Ellwood
ACE02,20,1144,23,5,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,23,5,nutrients,Michael Ellwood
ACE02,20,1144,23,5,particulate organic carbon,Sarah Fawcett
ACE02,20,1144,23,5,particulate organic nitrogen,Sarah Fawcett
ACE02,20,1144,21,15,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,21,15,biogenic silica,Michael Ellwood
ACE02,20,1144,21,15,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,21,15,nutrients,Michael Ellwood
ACE02,20,1144,21,15,particulate organic carbon,Sarah Fawcett
ACE02,20,1144,21,15,particulate organic nitrogen,Sarah Fawcett
ACE02,20,1144,21,15,salinity,Katherine Leonard
ACE02,20,1144,20,30,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,20,30,biogenic silica,Michael Ellwood
ACE02,20,1144,20,30,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,20,30,nutrients,Michael Ellwood
ACE02,20,1144,20,30,oxygen-18 isotope,Katherine Leonard
ACE02,20,1144,20,30,particulate organic carbon,Sarah Fawcett
ACE02,20,1144,20,30,particulate organic nitrogen,Sarah Fawcett
ACE02,20,1144,20,30,salinity,Katherine Leonard
ACE02,20,1144,19,40,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,19,40,biogenic silica,Michael Ellwood
ACE02,20,1144,19,40,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,19,40,nutrients,Michael Ellwood
ACE02,20,1144,19,40,particulate organic carbon,Sarah Fawcett
ACE02,20,1144,19,40,particulate organic nitrogen,Sarah Fawcett
ACE02,20,1144,18,50,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,18,50,biogenic silica,Michael Ellwood
ACE02,20,1144,18,50,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,18,50,nutrients,Michael Ellwood
ACE02,20,1144,18,50,particulate organic carbon,Sarah Fawcett
ACE02,20,1144,18,50,particulate organic nitrogen,Sarah Fawcett
ACE02,20,1144,17,75,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,17,75,biogenic silica,Michael Ellwood
ACE02,20,1144,17,75,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,17,75,nutrients,Michael Ellwood
ACE02,20,1144,17,75,particulate organic carbon,Sarah Fawcett
ACE02,20,1144,17,75,particulate organic nitrogen,Sarah Fawcett
ACE02,20,1144,16,80,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,16,80,biogenic silica,Michael Ellwood
ACE02,20,1144,16,80,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,16,80,nutrients,Michael Ellwood
ACE02,20,1144,16,80,particulate organic carbon,Sarah Fawcett
ACE02,20,1144,16,80,particulate organic nitrogen,Sarah Fawcett
ACE02,20,1144,15,100,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,15,100,biogenic silica,Michael Ellwood
ACE02,20,1144,15,100,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,15,100,nutrients,Michael Ellwood
ACE02,20,1144,15,100,oxygen-18 isotope,Katherine Leonard
ACE02,20,1144,15,100,particulate organic carbon,Sarah Fawcett
ACE02,20,1144,15,100,particulate organic nitrogen,Sarah Fawcett
ACE02,20,1144,15,100,salinity,Katherine Leonard
ACE02,20,1144,14,125,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,14,125,biogenic silica,Michael Ellwood
ACE02,20,1144,14,125,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,14,125,nutrients,Michael Ellwood
ACE02,20,1144,14,125,particulate organic carbon,Sarah Fawcett
ACE02,20,1144,14,125,particulate organic nitrogen,Sarah Fawcett
ACE02,20,1144,10,150,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,10,150,biogenic silica,Michael Ellwood
ACE02,20,1144,10,150,metaviromes,Christel Hassler
ACE02,20,1144,10,150,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,10,150,nutrients,Michael Ellwood
ACE02,20,1144,10,150,salinity,Katherine Leonard
ACE02,20,1144,11,150,genetics,Nicolas Cassar
ACE02,20,1144,12,150,metaviromes,Christel Hassler
ACE02,20,1144,13,150,metaviromes,Christel Hassler
ACE02,20,1144,9,200,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,9,200,biogenic silica,Michael Ellwood
ACE02,20,1144,9,200,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,9,200,nutrients,Michael Ellwood
ACE02,20,1144,8,250,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,8,250,biogenic silica,Michael Ellwood
ACE02,20,1144,8,250,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,8,250,nutrients,Michael Ellwood
ACE02,20,1144,8,250,oxygen-18 isotope,Katherine Leonard
ACE02,20,1144,8,250,salinity,Katherine Leonard
ACE02,20,1144,7,300,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,7,300,biogenic silica,Michael Ellwood
ACE02,20,1144,7,300,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,7,300,nutrients,Michael Ellwood
ACE02,20,1144,7,300,oxygen-18 isotope,Katherine Leonard
ACE02,20,1144,7,300,salinity,Katherine Leonard
ACE02,20,1144,6,500,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,6,500,biogenic silica,Michael Ellwood
ACE02,20,1144,6,500,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,6,500,nutrients,Michael Ellwood
ACE02,20,1144,5,600,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,5,600,biogenic silica,Michael Ellwood
ACE02,20,1144,5,600,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,5,600,nutrients,Michael Ellwood
ACE02,20,1144,5,600,oxygen-18 isotope,Katherine Leonard
ACE02,20,1144,5,600,salinity,Katherine Leonard
ACE02,20,1144,4,750,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,4,750,biogenic silica,Michael Ellwood
ACE02,20,1144,4,750,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,4,750,nutrients,Michael Ellwood
ACE02,20,1144,1,1000,metaviromes,Christel Hassler
ACE02,20,1144,2,1000,ammonium (NH4),Sarah Fawcett
ACE02,20,1144,2,1000,metaviromes,Christel Hassler
ACE02,20,1144,2,1000,nitrate isotopes,Sarah Fawcett
ACE02,20,1144,2,1000,oxygen-18 isotope,Katherine Leonard
ACE02,20,1144,2,1000,salinity,Katherine Leonard
ACE02,20,1144,3,1000,biogenic silica,Michael Ellwood
ACE02,20,1144,3,1000,genetics,Nicolas Cassar
ACE02,20,1144,3,1000,nutrients,Michael Ellwood
ACE02,21,1156,20,5,chlorophyll-a,David Antoine
ACE02,21,1156,20,5,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE02,21,1156,20,5,pigments,David Antoine
ACE02,21,1156,21,5,Particulate and dissolved methylamines,Rafel Simó
ACE02,21,1156,22,5,genetics,Nicolas Cassar
ACE02,21,1156,23,5,coomasie stainable particles,Rafel Simó
ACE02,21,1156,23,5,transparent exopolymeric particles,Rafel Simó
ACE02,21,1156,23,5,volatile organic compounds,Rafel Simó
ACE02,21,1156,15,15,metaviromes,Christel Hassler
ACE02,21,1156,16,15,metaviromes,Christel Hassler
ACE02,21,1156,17,15,bacteria,Christel Hassler
ACE02,21,1156,17,15,coomasie stainable particles,Rafel Simó
ACE02,21,1156,17,15,metaviromes,Christel Hassler
ACE02,21,1156,17,15,transparent exopolymeric particles,Rafel Simó
ACE02,21,1156,17,15,volatile organic compounds,Rafel Simó
ACE02,21,1156,18,15,chlorophyll-a,David Antoine
ACE02,21,1156,18,15,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE02,21,1156,18,15,pigments,David Antoine
ACE02,21,1156,19,15,genetics,Nicolas Cassar
ACE02,21,1156,14,30,chlorophyll-a,David Antoine
ACE02,21,1156,14,30,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE02,21,1156,14,30,pigments,David Antoine
ACE02,21,1156,11,40,chlorophyll-a,David Antoine
ACE02,21,1156,11,40,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE02,21,1156,11,40,pigments,David Antoine
ACE02,21,1156,12,40,coomasie stainable particles,Rafel Simó
ACE02,21,1156,12,40,transparent exopolymeric particles,Rafel Simó
ACE02,21,1156,12,40,volatile organic compounds,Rafel Simó
ACE02,21,1156,7,50,bacteria,Christel Hassler
ACE02,21,1156,8,50,genetics,Nicolas Cassar
ACE02,21,1156,9,50,chlorophyll-a,David Antoine
ACE02,21,1156,9,50,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE02,21,1156,9,50,pigments,David Antoine
ACE02,21,1156,10,50,coomasie stainable particles,Rafel Simó
ACE02,21,1156,10,50,transparent exopolymeric particles,Rafel Simó
ACE02,21,1156,10,50,volatile organic compounds,Rafel Simó
ACE02,21,1156,5,75,chlorophyll-a,David Antoine
ACE02,21,1156,5,75,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE02,21,1156,5,75,pigments,David Antoine
ACE02,21,1156,6,75,coomasie stainable particles,Rafel Simó
ACE02,21,1156,6,75,transparent exopolymeric particles,Rafel Simó
ACE02,21,1156,6,75,volatile organic compounds,Rafel Simó
ACE02,21,1156,4,80,chlorophyll-a,David Antoine
ACE02,21,1156,4,80,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE02,21,1156,4,80,pigments,David Antoine
ACE02,21,1156,3,100,chlorophyll-a,David Antoine
ACE02,21,1156,3,100,particle size distribution using the Coulter Counter and photosynthetic efficiency,David Antoine
ACE02,21,1156,3,100,pigments,David Antoine
ACE02,21,1156,1,150,genetics,Nicolas Cassar
ACE02,22,1240,21,15,bacteria,Christel Hassler
ACE02,22,1240,21,15,n&ns,Sarah Fawcett
ACE02,22,1240,21,15,oxygen concentration,Guillaume Massé
ACE02,22,1240,22,15,Chlorophyll-a,David Antoine
ACE02,22,1240,22,15,coomasie stainable particles,Rafel Simó
ACE02,22,1240,22,15,oxygen-18 isotope,Guillaume Massé
ACE02,22,1240,22,15,particle size distribution using the Coulter Counter,David Antoine
ACE02,22,1240,22,15,particulate organic carbon,Sarah Fawcett
ACE02,22,1240,22,15,particulate organic nitrogen,Sarah Fawcett
ACE02,22,1240,22,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,22,1240,22,15,pigments,David Antoine
ACE02,22,1240,22,15,transparent exopolymeric particles,Rafel Simó
ACE02,22,1240,22,15,volatile organic compounds,Rafel Simó
ACE02,22,1240,23,15,biogenic silica,Michael Ellwood
ACE02,22,1240,23,15,genetics,Nicolas Cassar
ACE02,22,1240,23,15,nutrients,Michael Ellwood
ACE02,22,1240,19,30,Chlorophyll-a,David Antoine
ACE02,22,1240,19,30,particle size distribution using the Coulter Counter,David Antoine
ACE02,22,1240,19,30,particulate organic carbon,Sarah Fawcett
ACE02,22,1240,19,30,particulate organic nitrogen,Sarah Fawcett
ACE02,22,1240,19,30,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,22,1240,19,30,pigments,David Antoine
ACE02,22,1240,20,30,biogenic silica,Michael Ellwood
ACE02,22,1240,20,30,coomasie stainable particles,Rafel Simó
ACE02,22,1240,20,30,n&ns,Sarah Fawcett
ACE02,22,1240,20,30,nutrients,Michael Ellwood
ACE02,22,1240,20,30,oxygen-18 isotope,Guillaume Massé
ACE02,22,1240,20,30,transparent exopolymeric particles,Rafel Simó
ACE02,22,1240,20,30,volatile organic compounds,Rafel Simó
ACE02,22,1240,17,40,Chlorophyll-a,David Antoine
ACE02,22,1240,17,40,genetics,Nicolas Cassar
ACE02,22,1240,17,40,particle size distribution using the Coulter Counter,David Antoine
ACE02,22,1240,17,40,particulate organic carbon,Sarah Fawcett
ACE02,22,1240,17,40,particulate organic nitrogen,Sarah Fawcett
ACE02,22,1240,17,40,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,22,1240,17,40,pigments,David Antoine
ACE02,22,1240,18,40,biogenic silica,Michael Ellwood
ACE02,22,1240,18,40,coomasie stainable particles,Rafel Simó
ACE02,22,1240,18,40,genetics,Nicolas Cassar
ACE02,22,1240,18,40,n&ns,Sarah Fawcett
ACE02,22,1240,18,40,nutrients,Michael Ellwood
ACE02,22,1240,18,40,transparent exopolymeric particles,Rafel Simó
ACE02,22,1240,18,40,volatile organic compounds,Rafel Simó
ACE02,22,1240,15,50,Chlorophyll-a,David Antoine
ACE02,22,1240,15,50,oxygen-18 isotope,Guillaume Massé
ACE02,22,1240,15,50,particle size distribution using the Coulter Counter,David Antoine
ACE02,22,1240,15,50,particulate organic carbon,Sarah Fawcett
ACE02,22,1240,15,50,particulate organic nitrogen,Sarah Fawcett
ACE02,22,1240,15,50,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,22,1240,15,50,pigments,David Antoine
ACE02,22,1240,16,50,biogenic silica,Michael Ellwood
ACE02,22,1240,16,50,coomasie stainable particles,Rafel Simó
ACE02,22,1240,16,50,n&ns,Sarah Fawcett
ACE02,22,1240,16,50,nutrients,Michael Ellwood
ACE02,22,1240,16,50,transparent exopolymeric particles,Rafel Simó
ACE02,22,1240,16,50,volatile organic compounds,Rafel Simó
ACE02,22,1240,13,75,biogenic silica,Michael Ellwood
ACE02,22,1240,13,75,coomasie stainable particles,Rafel Simó
ACE02,22,1240,13,75,n&ns,Sarah Fawcett
ACE02,22,1240,13,75,nutrients,Michael Ellwood
ACE02,22,1240,13,75,transparent exopolymeric particles,Rafel Simó
ACE02,22,1240,13,75,volatile organic compounds,Rafel Simó
ACE02,22,1240,14,75,Chlorophyll-a,David Antoine
ACE02,22,1240,14,75,oxygen concentration,Guillaume Massé
ACE02,22,1240,14,75,particle size distribution using the Coulter Counter,David Antoine
ACE02,22,1240,14,75,particulate organic carbon,Sarah Fawcett
ACE02,22,1240,14,75,particulate organic nitrogen,Sarah Fawcett
ACE02,22,1240,14,75,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,22,1240,14,75,pigments,David Antoine
ACE02,22,1240,12,100,biogenic silica,Michael Ellwood
ACE02,22,1240,12,100,coomasie stainable particles,Rafel Simó
ACE02,22,1240,12,100,n&ns,Sarah Fawcett
ACE02,22,1240,12,100,nutrients,Michael Ellwood
ACE02,22,1240,12,100,oxygen-18 isotope,Guillaume Massé
ACE02,22,1240,12,100,transparent exopolymeric particles,Rafel Simó
ACE02,22,1240,12,100,volatile organic compounds,Rafel Simó
ACE02,22,1240,11,125,biogenic silica,Michael Ellwood
ACE02,22,1240,11,125,coomasie stainable particles,Rafel Simó
ACE02,22,1240,11,125,n&ns,Sarah Fawcett
ACE02,22,1240,11,125,nutrients,Michael Ellwood
ACE02,22,1240,11,125,transparent exopolymeric particles,Rafel Simó
ACE02,22,1240,11,125,volatile organic compounds,Rafel Simó
ACE02,22,1240,7,150,bacteria,Christel Hassler
ACE02,22,1240,7,150,biogenic silica,Michael Ellwood
ACE02,22,1240,7,150,nutrients,Michael Ellwood
ACE02,22,1240,7,150,oxygen concentration,Guillaume Massé
ACE02,22,1240,8,150,genetics,Nicolas Cassar
ACE02,22,1240,8,150,n&ns,Sarah Fawcett
ACE02,22,1240,9,150,metaviromes,Christel Hassler
ACE02,22,1240,10,150,metaviromes,Christel Hassler
ACE02,22,1240,6,200,biogenic silica,Michael Ellwood
ACE02,22,1240,6,200,n&ns,Sarah Fawcett
ACE02,22,1240,6,200,nutrients,Michael Ellwood
ACE02,22,1240,5,250,biogenic silica,Michael Ellwood
ACE02,22,1240,5,250,n&ns,Sarah Fawcett
ACE02,22,1240,5,250,nutrients,Michael Ellwood
ACE02,22,1240,5,250,oxygen concentration,Guillaume Massé
ACE02,22,1240,4,350,biogenic silica,Michael Ellwood
ACE02,22,1240,4,350,n&ns,Sarah Fawcett
ACE02,22,1240,4,350,nutrients,Michael Ellwood
ACE02,22,1240,4,350,oxygen-18 isotope,Guillaume Massé
ACE02,22,1240,3,500,biogenic silica,Michael Ellwood
ACE02,22,1240,3,500,n&ns,Sarah Fawcett
ACE02,22,1240,3,500,nutrients,Michael Ellwood
ACE02,22,1240,3,500,oxygen concentration,Guillaume Massé
ACE02,22,1240,1,1000,metaviromes,Christel Hassler
ACE02,22,1240,1,1000,oxygen-18 isotope,Guillaume Massé
ACE02,22,1240,2,1000,biogenic silica,Michael Ellwood
ACE02,22,1240,2,1000,genetics,Nicolas Cassar
ACE02,22,1240,2,1000,nutrients,Michael Ellwood
ACE02,23,1282,17,75,biogenic silica,Michael Ellwood
ACE02,23,1282,17,75,n&ns,Sarah Fawcett
ACE02,23,1282,17,75,nutrients,Michael Ellwood
ACE02,23,1282,17,75,oxygen-18 isotope,Katherine Leonard
ACE02,23,1282,17,75,particulate organic carbon,Sarah Fawcett
ACE02,23,1282,17,75,particulate organic nitrogen,Sarah Fawcett
ACE02,23,1282,17,75,salinity,Katherine Leonard
ACE02,23,1282,16,80,biogenic silica,Michael Ellwood
ACE02,23,1282,16,80,n&ns,Sarah Fawcett
ACE02,23,1282,16,80,nutrients,Michael Ellwood
ACE02,23,1282,16,80,particulate organic carbon,Sarah Fawcett
ACE02,23,1282,16,80,particulate organic nitrogen,Sarah Fawcett
ACE02,23,1282,15,100,biogenic silica,Michael Ellwood
ACE02,23,1282,15,100,n&ns,Sarah Fawcett
ACE02,23,1282,15,100,nutrients,Michael Ellwood
ACE02,23,1282,15,100,particulate organic carbon,Sarah Fawcett
ACE02,23,1282,15,100,particulate organic nitrogen,Sarah Fawcett
ACE02,23,1282,14,125,biogenic silica,Michael Ellwood
ACE02,23,1282,14,125,n&ns,Sarah Fawcett
ACE02,23,1282,14,125,nutrients,Michael Ellwood
ACE02,23,1282,14,125,particulate organic carbon,Sarah Fawcett
ACE02,23,1282,14,125,particulate organic nitrogen,Sarah Fawcett
ACE02,23,1282,10,150,biogenic silica,Michael Ellwood
ACE02,23,1282,10,150,metaviromes,Christel Hassler
ACE02,23,1282,10,150,n&ns,Sarah Fawcett
ACE02,23,1282,10,150,nutrients,Michael Ellwood
ACE02,23,1282,11,150,genetics,Nicolas Cassar
ACE02,23,1282,11,150,oxygen-18 isotope,Katherine Leonard
ACE02,23,1282,11,150,salinity,Katherine Leonard
ACE02,23,1282,12,150,metaviromes,Christel Hassler
ACE02,23,1282,13,150,metaviromes,Christel Hassler
ACE02,23,1282,9,200,biogenic silica,Michael Ellwood
ACE02,23,1282,9,200,n&ns,Sarah Fawcett
ACE02,23,1282,9,200,nutrients,Michael Ellwood
ACE02,23,1282,8,250,biogenic silica,Michael Ellwood
ACE02,23,1282,8,250,n&ns,Sarah Fawcett
ACE02,23,1282,8,250,nutrients,Michael Ellwood
ACE02,23,1282,7,300,biogenic silica,Michael Ellwood
ACE02,23,1282,7,300,n&ns,Sarah Fawcett
ACE02,23,1282,7,300,nutrients,Michael Ellwood
ACE02,23,1282,7,300,oxygen concentration,Guillaume Massé
ACE02,23,1282,7,300,oxygen-18 isotope,Katherine Leonard
ACE02,23,1282,7,300,salinity,Katherine Leonard
ACE02,23,1282,6,500,biogenic silica,Michael Ellwood
ACE02,23,1282,6,500,n&ns,Sarah Fawcett
ACE02,23,1282,6,500,nutrients,Michael Ellwood
ACE02,23,1282,5,600,biogenic silica,Michael Ellwood
ACE02,23,1282,5,600,n&ns,Sarah Fawcett
ACE02,23,1282,5,600,nutrients,Michael Ellwood
ACE02,23,1282,4,750,biogenic silica,Michael Ellwood
ACE02,23,1282,4,750,n&ns,Sarah Fawcett
ACE02,23,1282,4,750,nutrients,Michael Ellwood
ACE02,23,1282,1,1000,metaviromes,Christel Hassler
ACE02,23,1282,1,1000,oxygen-18 isotope,Katherine Leonard
ACE02,23,1282,1,1000,salinity,Katherine Leonard
ACE02,23,1282,2,1000,metaviromes,Christel Hassler
ACE02,23,1282,2,1000,n&ns,Sarah Fawcett
ACE02,23,1282,2,1000,oxygen concentration,Guillaume Massé
ACE02,23,1282,3,1000,biogenic silica,Michael Ellwood
ACE02,23,1282,3,1000,genetics,Nicolas Cassar
ACE02,23,1282,3,1000,nutrients,Michael Ellwood
ACE02,24,1285,20,5,Chlorophyll-a,David Antoine
ACE02,24,1285,20,5,particle size distribution using the Coulter Counter,David Antoine
ACE02,24,1285,20,5,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,24,1285,20,5,pigments,David Antoine
ACE02,24,1285,21,5,Particulate and dissolved methylamines,Rafel Simó
ACE02,24,1285,22,5,genetics,Nicolas Cassar
ACE02,24,1285,23,5,coomasie stainable particles,Rafel Simó
ACE02,24,1285,23,5,transparent exopolymeric particles,Rafel Simó
ACE02,24,1285,23,5,volatile organic compounds,Rafel Simó
ACE02,24,1285,15,15,metaviromes,Christel Hassler
ACE02,24,1285,16,15,coomasie stainable particles,Rafel Simó
ACE02,24,1285,16,15,metaviromes,Christel Hassler
ACE02,24,1285,16,15,transparent exopolymeric particles,Rafel Simó
ACE02,24,1285,16,15,volatile organic compounds,Rafel Simó
ACE02,24,1285,17,15,bacteria,Christel Hassler
ACE02,24,1285,17,15,metaviromes,Christel Hassler
ACE02,24,1285,18,15,Chlorophyll-a,David Antoine
ACE02,24,1285,18,15,particle size distribution using the Coulter Counter,David Antoine
ACE02,24,1285,18,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,24,1285,18,15,pigments,David Antoine
ACE02,24,1285,19,15,genetics,Nicolas Cassar
ACE02,24,1285,14,30,Chlorophyll-a,David Antoine
ACE02,24,1285,14,30,particle size distribution using the Coulter Counter,David Antoine
ACE02,24,1285,14,30,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,24,1285,14,30,pigments,David Antoine
ACE02,24,1285,11,40,Chlorophyll-a,David Antoine
ACE02,24,1285,11,40,particle size distribution using the Coulter Counter,David Antoine
ACE02,24,1285,11,40,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,24,1285,11,40,pigments,David Antoine
ACE02,24,1285,12,40,coomasie stainable particles,Rafel Simó
ACE02,24,1285,12,40,transparent exopolymeric particles,Rafel Simó
ACE02,24,1285,12,40,volatile organic compounds,Rafel Simó
ACE02,24,1285,7,50,bacteria,Christel Hassler
ACE02,24,1285,8,50,genetics,Nicolas Cassar
ACE02,24,1285,9,50,Chlorophyll-a,David Antoine
ACE02,24,1285,9,50,particle size distribution using the Coulter Counter,David Antoine
ACE02,24,1285,9,50,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,24,1285,9,50,pigments,David Antoine
ACE02,24,1285,10,50,coomasie stainable particles,Rafel Simó
ACE02,24,1285,10,50,transparent exopolymeric particles,Rafel Simó
ACE02,24,1285,10,50,volatile organic compounds,Rafel Simó
ACE02,24,1285,5,75,Chlorophyll-a,David Antoine
ACE02,24,1285,5,75,particle size distribution using the Coulter Counter,David Antoine
ACE02,24,1285,5,75,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,24,1285,5,75,pigments,David Antoine
ACE02,24,1285,6,75,coomasie stainable particles,Rafel Simó
ACE02,24,1285,6,75,transparent exopolymeric particles,Rafel Simó
ACE02,24,1285,6,75,volatile organic compounds,Rafel Simó
ACE02,24,1285,4,80,Chlorophyll-a,David Antoine
ACE02,24,1285,4,80,particle size distribution using the Coulter Counter,David Antoine
ACE02,24,1285,4,80,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,24,1285,4,80,pigments,David Antoine
ACE02,24,1285,3,100,Chlorophyll-a,David Antoine
ACE02,24,1285,3,100,particle size distribution using the Coulter Counter,David Antoine
ACE02,24,1285,3,100,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,24,1285,3,100,pigments,David Antoine
ACE02,24,1285,1,150,genetics,Nicolas Cassar
ACE02,25,1460,22,5,Chlorophyll-a,David Antoine
ACE02,25,1460,22,5,particle size distribution using the Coulter Counter,David Antoine
ACE02,25,1460,22,5,Particulate and dissolved methylamines,Rafel Simó
ACE02,25,1460,22,5,particulate organic carbon,Sarah Fawcett
ACE02,25,1460,22,5,particulate organic nitrogen,Sarah Fawcett
ACE02,25,1460,22,5,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,25,1460,22,5,pigments,David Antoine
ACE02,25,1460,23,5,biogenic silica,Michael Ellwood
ACE02,25,1460,23,5,coomasie stainable particles,Rafel Simó
ACE02,25,1460,23,5,n&ns,Sarah Fawcett
ACE02,25,1460,23,5,nutrients,Michael Ellwood
ACE02,25,1460,23,5,oxygen-18 isotope,Katherine Leonard
ACE02,25,1460,23,5,salinity,Katherine Leonard
ACE02,25,1460,23,5,transparent exopolymeric particles,Rafel Simó
ACE02,25,1460,23,5,volatile organic compounds,Rafel Simó
ACE02,25,1460,18,15,coomasie stainable particles,Rafel Simó
ACE02,25,1460,18,15,genetics,Nicolas Cassar
ACE02,25,1460,18,15,transparent exopolymeric particles,Rafel Simó
ACE02,25,1460,18,15,volatile organic compounds,Rafel Simó
ACE02,25,1460,19,15,bacteria,Christel Hassler
ACE02,25,1460,19,15,biogenic silica,Michael Ellwood
ACE02,25,1460,19,15,Chlorophyll-a,David Antoine
ACE02,25,1460,19,15,n&ns,Sarah Fawcett
ACE02,25,1460,19,15,nutrients,Michael Ellwood
ACE02,25,1460,19,15,oxygen-18 isotope,Katherine Leonard
ACE02,25,1460,19,15,particle size distribution using the Coulter Counter,David Antoine
ACE02,25,1460,19,15,particulate organic carbon,Sarah Fawcett
ACE02,25,1460,19,15,particulate organic nitrogen,Sarah Fawcett
ACE02,25,1460,19,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,25,1460,19,15,pigments,David Antoine
ACE02,25,1460,19,15,salinity,Katherine Leonard
ACE02,25,1460,20,15,metaviromes,Christel Hassler
ACE02,25,1460,21,15,metaviromes,Christel Hassler
ACE02,25,1460,16,40,Chlorophyll-a,David Antoine
ACE02,25,1460,16,40,genetics,Nicolas Cassar
ACE02,25,1460,16,40,oxygen-18 isotope,Katherine Leonard
ACE02,25,1460,16,40,particle size distribution using the Coulter Counter,David Antoine
ACE02,25,1460,16,40,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,25,1460,16,40,pigments,David Antoine
ACE02,25,1460,16,40,salinity,Katherine Leonard
ACE02,25,1460,17,40,biogenic silica,Michael Ellwood
ACE02,25,1460,17,40,coomasie stainable particles,Rafel Simó
ACE02,25,1460,17,40,n&ns,Sarah Fawcett
ACE02,25,1460,17,40,nutrients,Michael Ellwood
ACE02,25,1460,17,40,particulate organic carbon,Sarah Fawcett
ACE02,25,1460,17,40,particulate organic nitrogen,Sarah Fawcett
ACE02,25,1460,17,40,transparent exopolymeric particles,Rafel Simó
ACE02,25,1460,17,40,volatile organic compounds,Rafel Simó
ACE02,25,1460,14,60,Chlorophyll-a,David Antoine
ACE02,25,1460,14,60,particle size distribution using the Coulter Counter,David Antoine
ACE02,25,1460,14,60,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,25,1460,14,60,pigments,David Antoine
ACE02,25,1460,15,60,biogenic silica,Michael Ellwood
ACE02,25,1460,15,60,coomasie stainable particles,Rafel Simó
ACE02,25,1460,15,60,n&ns,Sarah Fawcett
ACE02,25,1460,15,60,nutrients,Michael Ellwood
ACE02,25,1460,15,60,particulate organic carbon,Sarah Fawcett
ACE02,25,1460,15,60,particulate organic nitrogen,Sarah Fawcett
ACE02,25,1460,15,60,transparent exopolymeric particles,Rafel Simó
ACE02,25,1460,15,60,volatile organic compounds,Rafel Simó
ACE02,25,1460,12,80,Chlorophyll-a,David Antoine
ACE02,25,1460,12,80,particle size distribution using the Coulter Counter,David Antoine
ACE02,25,1460,12,80,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,25,1460,12,80,pigments,David Antoine
ACE02,25,1460,13,80,biogenic silica,Michael Ellwood
ACE02,25,1460,13,80,coomasie stainable particles,Rafel Simó
ACE02,25,1460,13,80,n&ns,Sarah Fawcett
ACE02,25,1460,13,80,nutrients,Michael Ellwood
ACE02,25,1460,13,80,particulate organic carbon,Sarah Fawcett
ACE02,25,1460,13,80,particulate organic nitrogen,Sarah Fawcett
ACE02,25,1460,13,80,transparent exopolymeric particles,Rafel Simó
ACE02,25,1460,13,80,volatile organic compounds,Rafel Simó
ACE02,25,1460,10,100,biogenic silica,Michael Ellwood
ACE02,25,1460,10,100,coomasie stainable particles,Rafel Simó
ACE02,25,1460,10,100,n&ns,Sarah Fawcett
ACE02,25,1460,10,100,nutrients,Michael Ellwood
ACE02,25,1460,10,100,particulate organic carbon,Sarah Fawcett
ACE02,25,1460,10,100,particulate organic nitrogen,Sarah Fawcett
ACE02,25,1460,10,100,transparent exopolymeric particles,Rafel Simó
ACE02,25,1460,10,100,volatile organic compounds,Rafel Simó
ACE02,25,1460,11,100,Chlorophyll-a,David Antoine
ACE02,25,1460,11,100,oxygen-18 isotope,Katherine Leonard
ACE02,25,1460,11,100,particle size distribution using the Coulter Counter,David Antoine
ACE02,25,1460,11,100,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,25,1460,11,100,pigments,David Antoine
ACE02,25,1460,11,100,salinity,Katherine Leonard
ACE02,25,1460,6,150,bacteria,Christel Hassler
ACE02,25,1460,6,150,coomasie stainable particles,Rafel Simó
ACE02,25,1460,6,150,metaviromes,Christel Hassler
ACE02,25,1460,6,150,n&ns,Sarah Fawcett
ACE02,25,1460,6,150,oxygen-18 isotope,Katherine Leonard
ACE02,25,1460,6,150,salinity,Katherine Leonard
ACE02,25,1460,6,150,transparent exopolymeric particles,Rafel Simó
ACE02,25,1460,6,150,volatile organic compounds,Rafel Simó
ACE02,25,1460,7,150,biogenic silica,Michael Ellwood
ACE02,25,1460,7,150,genetics,Nicolas Cassar
ACE02,25,1460,7,150,nutrients,Michael Ellwood
ACE02,25,1460,8,150,metaviromes,Christel Hassler
ACE02,25,1460,9,150,metaviromes,Christel Hassler
ACE02,25,1460,5,200,biogenic silica,Michael Ellwood
ACE02,25,1460,5,200,n&ns,Sarah Fawcett
ACE02,25,1460,5,200,nutrients,Michael Ellwood
ACE02,25,1460,5,200,oxygen-18 isotope,Katherine Leonard
ACE02,25,1460,5,200,salinity,Katherine Leonard
ACE02,25,1460,4,300,biogenic silica,Michael Ellwood
ACE02,25,1460,4,300,n&ns,Sarah Fawcett
ACE02,25,1460,4,300,nutrients,Michael Ellwood
ACE02,25,1460,1,400,genetics,Nicolas Cassar
ACE02,25,1460,1,400,metaviromes,Christel Hassler
ACE02,25,1460,2,400,metaviromes,Christel Hassler
ACE02,25,1460,3,400,metaviromes,Christel Hassler
ACE02,26,1465,19,15,biogenic silica,Michael Ellwood
ACE02,26,1465,19,15,coomasie stainable particles,Rafel Simó
ACE02,26,1465,19,15,nutrients,Michael Ellwood
ACE02,26,1465,19,15,oxygen-18 isotope,Katherine Leonard
ACE02,26,1465,19,15,salinity,Katherine Leonard
ACE02,26,1465,19,15,transparent exopolymeric particles,Rafel Simó
ACE02,26,1465,19,15,volatile organic compounds,Rafel Simó
ACE02,26,1465,20,15,Chlorophyll-a,David Antoine
ACE02,26,1465,20,15,n&ns,Sarah Fawcett
ACE02,26,1465,20,15,particle size distribution using the Coulter Counter,David Antoine
ACE02,26,1465,20,15,particulate organic carbon,Sarah Fawcett
ACE02,26,1465,20,15,particulate organic nitrogen,Sarah Fawcett
ACE02,26,1465,20,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,26,1465,20,15,pigments,David Antoine
ACE02,26,1465,21,15,metaviromes,Christel Hassler
ACE02,26,1465,22,15,metaviromes,Christel Hassler
ACE02,26,1465,23,15,genetics,Nicolas Cassar
ACE02,26,1465,23,15,metaviromes,Christel Hassler
ACE02,26,1465,17,30,Chlorophyll-a,David Antoine
ACE02,26,1465,17,30,n&ns,Sarah Fawcett
ACE02,26,1465,17,30,particle size distribution using the Coulter Counter,David Antoine
ACE02,26,1465,17,30,particulate organic carbon,Sarah Fawcett
ACE02,26,1465,17,30,particulate organic nitrogen,Sarah Fawcett
ACE02,26,1465,17,30,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,26,1465,17,30,pigments,David Antoine
ACE02,26,1465,18,30,biogenic silica,Michael Ellwood
ACE02,26,1465,18,30,coomasie stainable particles,Rafel Simó
ACE02,26,1465,18,30,nutrients,Michael Ellwood
ACE02,26,1465,18,30,oxygen-18 isotope,Katherine Leonard
ACE02,26,1465,18,30,salinity,Katherine Leonard
ACE02,26,1465,18,30,transparent exopolymeric particles,Rafel Simó
ACE02,26,1465,18,30,volatile organic compounds,Rafel Simó
ACE02,26,1465,15,60,Chlorophyll-a,David Antoine
ACE02,26,1465,15,60,n&ns,Sarah Fawcett
ACE02,26,1465,15,60,particle size distribution using the Coulter Counter,David Antoine
ACE02,26,1465,15,60,particulate organic carbon,Sarah Fawcett
ACE02,26,1465,15,60,particulate organic nitrogen,Sarah Fawcett
ACE02,26,1465,15,60,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,26,1465,15,60,pigments,David Antoine
ACE02,26,1465,16,60,biogenic silica,Michael Ellwood
ACE02,26,1465,16,60,coomasie stainable particles,Rafel Simó
ACE02,26,1465,16,60,nutrients,Michael Ellwood
ACE02,26,1465,16,60,oxygen-18 isotope,Katherine Leonard
ACE02,26,1465,16,60,salinity,Katherine Leonard
ACE02,26,1465,16,60,transparent exopolymeric particles,Rafel Simó
ACE02,26,1465,16,60,volatile organic compounds,Rafel Simó
ACE02,26,1465,13,100,biogenic silica,Michael Ellwood
ACE02,26,1465,13,100,coomasie stainable particles,Rafel Simó
ACE02,26,1465,13,100,nutrients,Michael Ellwood
ACE02,26,1465,13,100,transparent exopolymeric particles,Rafel Simó
ACE02,26,1465,13,100,volatile organic compounds,Rafel Simó
ACE02,26,1465,14,100,Chlorophyll-a,David Antoine
ACE02,26,1465,14,100,n&ns,Sarah Fawcett
ACE02,26,1465,14,100,oxygen-18 isotope,Katherine Leonard
ACE02,26,1465,14,100,particle size distribution using the Coulter Counter,David Antoine
ACE02,26,1465,14,100,particulate organic carbon,Sarah Fawcett
ACE02,26,1465,14,100,particulate organic nitrogen,Sarah Fawcett
ACE02,26,1465,14,100,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,26,1465,14,100,pigments,David Antoine
ACE02,26,1465,14,100,salinity,Katherine Leonard
ACE02,26,1465,9,150,biogenic silica,Michael Ellwood
ACE02,26,1465,9,150,coomasie stainable particles,Rafel Simó
ACE02,26,1465,9,150,n&ns,Sarah Fawcett
ACE02,26,1465,9,150,nutrients,Michael Ellwood
ACE02,26,1465,9,150,particulate organic carbon,Sarah Fawcett
ACE02,26,1465,9,150,particulate organic nitrogen,Sarah Fawcett
ACE02,26,1465,9,150,transparent exopolymeric particles,Rafel Simó
ACE02,26,1465,9,150,volatile organic compounds,Rafel Simó
ACE02,26,1465,10,150,metaviromes,Christel Hassler
ACE02,26,1465,11,150,metaviromes,Christel Hassler
ACE02,26,1465,12,150,genetics,Nicolas Cassar
ACE02,26,1465,12,150,metaviromes,Christel Hassler
ACE02,26,1465,8,300,biogenic silica,Michael Ellwood
ACE02,26,1465,8,300,n&ns,Sarah Fawcett
ACE02,26,1465,8,300,nutrients,Michael Ellwood
ACE02,26,1465,8,300,oxygen-18 isotope,Katherine Leonard
ACE02,26,1465,8,300,salinity,Katherine Leonard
ACE02,26,1465,3,3460,genetics,Nicolas Cassar
ACE02,26,1465,3,3460,metaviromes,Christel Hassler
ACE02,26,1465,4,3460,genetics,Nicolas Cassar
ACE02,26,1465,4,3460,metaviromes,Christel Hassler
ACE02,26,1465,5,3460,genetics,Nicolas Cassar
ACE02,26,1465,5,3460,metaviromes,Christel Hassler
ACE02,26,1465,6,3460,genetics,Nicolas Cassar
ACE02,26,1465,6,3460,metaviromes,Christel Hassler
ACE02,26,1465,7,3460,genetics,Nicolas Cassar
ACE02,26,1465,7,3460,metaviromes,Christel Hassler
ACE02,26,1465,1,4000,genetics,Nicolas Cassar
ACE02,26,1465,1,4000,metaviromes,Christel Hassler
ACE02,26,1465,2,4000,genetics,Nicolas Cassar
ACE02,26,1465,2,4000,metaviromes,Christel Hassler
ACE02,27,1487,18,50,biogenic silica,Michael Ellwood
ACE02,27,1487,18,50,n&ns,Sarah Fawcett
ACE02,27,1487,18,50,nutrients,Michael Ellwood
ACE02,27,1487,18,50,particulate organic carbon,Sarah Fawcett
ACE02,27,1487,18,50,particulate organic nitrogen,Sarah Fawcett
ACE02,27,1487,17,60,biogenic silica,Michael Ellwood
ACE02,27,1487,17,60,n&ns,Sarah Fawcett
ACE02,27,1487,17,60,nutrients,Michael Ellwood
ACE02,27,1487,17,60,oxygen-18 isotope,Katherine Leonard
ACE02,27,1487,17,60,particulate organic carbon,Sarah Fawcett
ACE02,27,1487,17,60,particulate organic nitrogen,Sarah Fawcett
ACE02,27,1487,17,60,salinity,Katherine Leonard
ACE02,27,1487,16,80,biogenic silica,Michael Ellwood
ACE02,27,1487,16,80,n&ns,Sarah Fawcett
ACE02,27,1487,16,80,nutrients,Michael Ellwood
ACE02,27,1487,16,80,particulate organic carbon,Sarah Fawcett
ACE02,27,1487,16,80,particulate organic nitrogen,Sarah Fawcett
ACE02,27,1487,15,100,biogenic silica,Michael Ellwood
ACE02,27,1487,15,100,n&ns,Sarah Fawcett
ACE02,27,1487,15,100,nutrients,Michael Ellwood
ACE02,27,1487,15,100,particulate organic carbon,Sarah Fawcett
ACE02,27,1487,15,100,particulate organic nitrogen,Sarah Fawcett
ACE02,27,1487,14,125,biogenic silica,Michael Ellwood
ACE02,27,1487,14,125,n&ns,Sarah Fawcett
ACE02,27,1487,14,125,nutrients,Michael Ellwood
ACE02,27,1487,14,125,particulate organic carbon,Sarah Fawcett
ACE02,27,1487,14,125,particulate organic nitrogen,Sarah Fawcett
ACE02,27,1487,10,150,biogenic silica,Michael Ellwood
ACE02,27,1487,10,150,metaviromes,Christel Hassler
ACE02,27,1487,10,150,n&ns,Sarah Fawcett
ACE02,27,1487,10,150,nutrients,Michael Ellwood
ACE02,27,1487,11,150,genetics,Nicolas Cassar
ACE02,27,1487,11,150,oxygen-18 isotope,Katherine Leonard
ACE02,27,1487,11,150,salinity,Katherine Leonard
ACE02,27,1487,12,150,metaviromes,Christel Hassler
ACE02,27,1487,13,150,metaviromes,Christel Hassler
ACE02,27,1487,9,200,biogenic silica,Michael Ellwood
ACE02,27,1487,9,200,n&ns,Sarah Fawcett
ACE02,27,1487,9,200,nutrients,Michael Ellwood
ACE02,27,1487,8,250,biogenic silica,Michael Ellwood
ACE02,27,1487,8,250,n&ns,Sarah Fawcett
ACE02,27,1487,8,250,nutrients,Michael Ellwood
ACE02,27,1487,7,300,biogenic silica,Michael Ellwood
ACE02,27,1487,7,300,n&ns,Sarah Fawcett
ACE02,27,1487,7,300,nutrients,Michael Ellwood
ACE02,27,1487,7,300,oxygen-18 isotope,Katherine Leonard
ACE02,27,1487,7,300,salinity,Katherine Leonard
ACE02,27,1487,6,500,biogenic silica,Michael Ellwood
ACE02,27,1487,6,500,n&ns,Sarah Fawcett
ACE02,27,1487,6,500,nutrients,Michael Ellwood
ACE02,27,1487,5,600,biogenic silica,Michael Ellwood
ACE02,27,1487,5,600,n&ns,Sarah Fawcett
ACE02,27,1487,5,600,nutrients,Michael Ellwood
ACE02,27,1487,4,750,biogenic silica,Michael Ellwood
ACE02,27,1487,4,750,n&ns,Sarah Fawcett
ACE02,27,1487,4,750,nutrients,Michael Ellwood
ACE02,27,1487,1,1000,metaviromes,Christel Hassler
ACE02,27,1487,1,1000,n&ns,Sarah Fawcett
ACE02,27,1487,1,1000,oxygen-18 isotope,Katherine Leonard
ACE02,27,1487,1,1000,salinity,Katherine Leonard
ACE02,27,1487,2,1000,metaviromes,Christel Hassler
ACE02,27,1487,3,1000,metaviromes,Christel Hassler
ACE02,28,1489,6,50,coomasie stainable particles,Rafel Simó
ACE02,28,1489,6,50,transparent exopolymeric particles,Rafel Simó
ACE02,28,1489,6,50,volatile organic compounds,Rafel Simó
ACE02,28,1489,7,50,Chlorophyll-a,David Antoine
ACE02,28,1489,7,50,particle size distribution using the Coulter Counter,David Antoine
ACE02,28,1489,7,50,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,28,1489,7,50,pigments,David Antoine
ACE02,28,1489,4,60,coomasie stainable particles,Rafel Simó
ACE02,28,1489,4,60,transparent exopolymeric particles,Rafel Simó
ACE02,28,1489,4,60,volatile organic compounds,Rafel Simó
ACE02,28,1489,5,60,Chlorophyll-a,David Antoine
ACE02,28,1489,5,60,particle size distribution using the Coulter Counter,David Antoine
ACE02,28,1489,5,60,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,28,1489,5,60,pigments,David Antoine
ACE02,28,1489,3,80,Chlorophyll-a,David Antoine
ACE02,28,1489,3,80,particle size distribution using the Coulter Counter,David Antoine
ACE02,28,1489,3,80,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,28,1489,3,80,pigments,David Antoine
ACE02,28,1489,2,100,Chlorophyll-a,David Antoine
ACE02,28,1489,2,100,particle size distribution using the Coulter Counter,David Antoine
ACE02,28,1489,2,100,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,28,1489,2,100,pigments,David Antoine
ACE02,28,1489,1,150,genetics,Nicolas Cassar
ACE02,29,1557,7,5,oxygen-18 isotope,\N \N
ACE02,29,1557,6,15,oxygen concentration,Guillaume Massé
ACE02,29,1557,6,15,oxygen-18 isotope,\N \N
ACE02,29,1557,5,30,oxygen concentration,Guillaume Massé
ACE02,29,1557,5,30,oxygen-18 isotope,\N \N
ACE02,29,1557,4,100,oxygen concentration,Guillaume Massé
ACE02,29,1557,4,100,oxygen-18 isotope,\N \N
ACE02,29,1557,2,300,oxygen-18 isotope,\N \N
ACE02,29,1557,3,300,oxygen concentration,Guillaume Massé
ACE02,29,1557,1,680,oxygen concentration,Guillaume Massé
ACE02,29,1557,1,680,oxygen-18 isotope,\N \N
ACE02,30,1626,12,70,Chlorophyll-a,David Antoine
ACE02,30,1626,12,70,oxygen-18 isotope,Katherine Leonard
ACE02,30,1626,12,70,particle size distribution using the Coulter Counter,David Antoine
ACE02,30,1626,12,70,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,30,1626,12,70,pigments,David Antoine
ACE02,30,1626,12,70,salinity,Katherine Leonard
ACE02,30,1626,13,70,biogenic silica,Michael Ellwood
ACE02,30,1626,13,70,n&ns,Sarah Fawcett
ACE02,30,1626,13,70,nutrients,Michael Ellwood
ACE02,30,1626,13,70,particulate organic carbon,Sarah Fawcett
ACE02,30,1626,13,70,particulate organic nitrogen,Sarah Fawcett
ACE02,30,1626,10,90,Chlorophyll-a,David Antoine
ACE02,30,1626,10,90,particle size distribution using the Coulter Counter,David Antoine
ACE02,30,1626,10,90,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,30,1626,10,90,pigments,David Antoine
ACE02,30,1626,11,90,biogenic silica,Michael Ellwood
ACE02,30,1626,11,90,n&ns,Sarah Fawcett
ACE02,30,1626,11,90,nutrients,Michael Ellwood
ACE02,30,1626,11,90,particulate organic carbon,Sarah Fawcett
ACE02,30,1626,11,90,particulate organic nitrogen,Sarah Fawcett
ACE02,30,1626,8,100,biogenic silica,Michael Ellwood
ACE02,30,1626,8,100,n&ns,Sarah Fawcett
ACE02,30,1626,8,100,nutrients,Michael Ellwood
ACE02,30,1626,8,100,particulate organic carbon,Sarah Fawcett
ACE02,30,1626,8,100,particulate organic nitrogen,Sarah Fawcett
ACE02,30,1626,9,100,Chlorophyll-a,David Antoine
ACE02,30,1626,9,100,particle size distribution using the Coulter Counter,David Antoine
ACE02,30,1626,9,100,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,30,1626,9,100,pigments,David Antoine
ACE02,30,1626,4,150,metaviromes,Christel Hassler
ACE02,30,1626,4,150,n&ns,Sarah Fawcett
ACE02,30,1626,5,150,biogenic silica,Michael Ellwood
ACE02,30,1626,5,150,genetics,Nicolas Cassar
ACE02,30,1626,5,150,nutrients,Michael Ellwood
ACE02,30,1626,6,150,metaviromes,Christel Hassler
ACE02,30,1626,7,150,metaviromes,Christel Hassler
ACE02,30,1626,3,250,biogenic silica,Michael Ellwood
ACE02,30,1626,3,250,n&ns,Sarah Fawcett
ACE02,30,1626,3,250,nutrients,Michael Ellwood
ACE02,30,1626,3,250,oxygen-18 isotope,Katherine Leonard
ACE02,30,1626,3,250,salinity,Katherine Leonard
ACE02,30,1626,1,400,genetics,Nicolas Cassar
ACE02,30,1626,2,400,oxygen concentration,Guillaume Massé
ACE02,31,1633,22,5,biogenic silica,Michael Ellwood
ACE02,31,1633,22,5,coomasie stainable particles,Rafel Simó
ACE02,31,1633,22,5,nutrients,Michael Ellwood
ACE02,31,1633,22,5,Particulate and dissolved methylamines,Rafel Simó
ACE02,31,1633,22,5,transparent exopolymeric particles,Rafel Simó
ACE02,31,1633,22,5,volatile organic compounds,Rafel Simó
ACE02,31,1633,23,5,Chlorophyll-a,David Antoine
ACE02,31,1633,23,5,n&ns,Sarah Fawcett
ACE02,31,1633,23,5,oxygen-18 isotope,Katherine Leonard
ACE02,31,1633,23,5,particle size distribution using the Coulter Counter,David Antoine
ACE02,31,1633,23,5,particulate organic carbon,Sarah Fawcett
ACE02,31,1633,23,5,particulate organic nitrogen,Sarah Fawcett
ACE02,31,1633,23,5,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,31,1633,23,5,pigments,David Antoine
ACE02,31,1633,23,5,salinity,Katherine Leonard
ACE02,31,1633,17,15,bacteria,Christel Hassler
ACE02,31,1633,17,15,genetics,Nicolas Cassar
ACE02,31,1633,18,15,biogenic silica,Michael Ellwood
ACE02,31,1633,18,15,metaviromes,Christel Hassler
ACE02,31,1633,18,15,nutrients,Michael Ellwood
ACE02,31,1633,18,15,oxygen-18 isotope,Katherine Leonard
ACE02,31,1633,18,15,salinity,Katherine Leonard
ACE02,31,1633,19,15,metaviromes,Christel Hassler
ACE02,31,1633,20,15,metaviromes,Christel Hassler
ACE02,31,1633,21,15,Chlorophyll-a,David Antoine
ACE02,31,1633,21,15,n&ns,Sarah Fawcett
ACE02,31,1633,21,15,particle size distribution using the Coulter Counter,David Antoine
ACE02,31,1633,21,15,particulate organic carbon,Sarah Fawcett
ACE02,31,1633,21,15,particulate organic nitrogen,Sarah Fawcett
ACE02,31,1633,21,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,31,1633,21,15,pigments,David Antoine
ACE02,31,1633,15,30,biogenic silica,Michael Ellwood
ACE02,31,1633,15,30,nutrients,Michael Ellwood
ACE02,31,1633,15,30,oxygen-18 isotope,Katherine Leonard
ACE02,31,1633,15,30,salinity,Katherine Leonard
ACE02,31,1633,16,30,Chlorophyll-a,David Antoine
ACE02,31,1633,16,30,n&ns,Sarah Fawcett
ACE02,31,1633,16,30,particle size distribution using the Coulter Counter,David Antoine
ACE02,31,1633,16,30,particulate organic carbon,Sarah Fawcett
ACE02,31,1633,16,30,particulate organic nitrogen,Sarah Fawcett
ACE02,31,1633,16,30,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,31,1633,16,30,pigments,David Antoine
ACE02,31,1633,13,45,bacteria,Christel Hassler
ACE02,31,1633,13,45,biogenic silica,Michael Ellwood
ACE02,31,1633,13,45,genetics,Nicolas Cassar
ACE02,31,1633,13,45,nutrients,Michael Ellwood
ACE02,31,1633,14,45,Chlorophyll-a,David Antoine
ACE02,31,1633,14,45,n&ns,Sarah Fawcett
ACE02,31,1633,14,45,particle size distribution using the Coulter Counter,David Antoine
ACE02,31,1633,14,45,particulate organic carbon,Sarah Fawcett
ACE02,31,1633,14,45,particulate organic nitrogen,Sarah Fawcett
ACE02,31,1633,14,45,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,31,1633,14,45,pigments,David Antoine
ACE02,31,1633,11,70,biogenic silica,Michael Ellwood
ACE02,31,1633,11,70,nutrients,Michael Ellwood
ACE02,31,1633,11,70,oxygen-18 isotope,Katherine Leonard
ACE02,31,1633,11,70,salinity,Katherine Leonard
ACE02,31,1633,12,70,Chlorophyll-a,David Antoine
ACE02,31,1633,12,70,n&ns,Sarah Fawcett
ACE02,31,1633,12,70,particle size distribution using the Coulter Counter,David Antoine
ACE02,31,1633,12,70,particulate organic carbon,Sarah Fawcett
ACE02,31,1633,12,70,particulate organic nitrogen,Sarah Fawcett
ACE02,31,1633,12,70,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,31,1633,12,70,pigments,David Antoine
ACE02,31,1633,10,90,biogenic silica,Michael Ellwood
ACE02,31,1633,10,90,Chlorophyll-a,David Antoine
ACE02,31,1633,10,90,n&ns,Sarah Fawcett
ACE02,31,1633,10,90,nutrients,Michael Ellwood
ACE02,31,1633,10,90,oxygen-18 isotope,Katherine Leonard
ACE02,31,1633,10,90,particle size distribution using the Coulter Counter,David Antoine
ACE02,31,1633,10,90,particulate organic carbon,Sarah Fawcett
ACE02,31,1633,10,90,particulate organic nitrogen,Sarah Fawcett
ACE02,31,1633,10,90,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,31,1633,10,90,pigments,David Antoine
ACE02,31,1633,10,90,salinity,Katherine Leonard
ACE02,31,1633,9,125,biogenic silica,Michael Ellwood
ACE02,31,1633,9,125,n&ns,Sarah Fawcett
ACE02,31,1633,9,125,nutrients,Michael Ellwood
ACE02,31,1633,9,125,particulate organic carbon,Sarah Fawcett
ACE02,31,1633,9,125,particulate organic nitrogen,Sarah Fawcett
ACE02,31,1633,5,150,biogenic silica,Michael Ellwood
ACE02,31,1633,5,150,metaviromes,Christel Hassler
ACE02,31,1633,5,150,n&ns,Sarah Fawcett
ACE02,31,1633,5,150,nutrients,Michael Ellwood
ACE02,31,1633,6,150,bacteria,Christel Hassler
ACE02,31,1633,6,150,genetics,Nicolas Cassar
ACE02,31,1633,7,150,metaviromes,Christel Hassler
ACE02,31,1633,8,150,metaviromes,Christel Hassler
ACE02,31,1633,4,200,biogenic silica,Michael Ellwood
ACE02,31,1633,4,200,n&ns,Sarah Fawcett
ACE02,31,1633,4,200,nutrients,Michael Ellwood
ACE02,31,1633,3,250,biogenic silica,Michael Ellwood
ACE02,31,1633,3,250,n&ns,Sarah Fawcett
ACE02,31,1633,3,250,nutrients,Michael Ellwood
ACE02,31,1633,2,300,biogenic silica,Michael Ellwood
ACE02,31,1633,2,300,n&ns,Sarah Fawcett
ACE02,31,1633,2,300,nutrients,Michael Ellwood
ACE02,31,1633,1,400,genetics,Nicolas Cassar
ACE02,32,1753,7,5,oxygen concentration,Guillaume Massé
ACE02,32,1753,7,5,oxygen-18 isotope,\N \N
ACE02,32,1753,7,5,salinity,\N \N
ACE02,32,1753,6,20,oxygen-18 isotope,\N \N
ACE02,32,1753,6,20,salinity,\N \N
ACE02,32,1753,4,50,oxygen concentration,Guillaume Massé
ACE02,32,1753,4,50,oxygen-18 isotope,\N \N
ACE02,32,1753,4,50,salinity,\N \N
ACE02,32,1753,2,80,oxygen-18 isotope,\N \N
ACE02,32,1753,2,80,salinity,\N \N
ACE02,32,1753,1,250,oxygen-18 isotope,\N \N
ACE02,32,1753,1,250,salinity,\N \N
ACE02,33,1878,19,15,biogenic silica,Michael Ellwood
ACE02,33,1878,19,15,metaviromes,Christel Hassler
ACE02,33,1878,19,15,nutrients,Michael Ellwood
ACE02,33,1878,20,15,bacteria,Christel Hassler
ACE02,33,1878,20,15,genetics,Nicolas Cassar
ACE02,33,1878,20,15,oxygen-18 isotope,Katherine Leonard
ACE02,33,1878,20,15,salinity,Katherine Leonard
ACE02,33,1878,21,15,metaviromes,Christel Hassler
ACE02,33,1878,22,15,metaviromes,Christel Hassler
ACE02,33,1878,23,15,Chlorophyll-a,David Antoine
ACE02,33,1878,23,15,n&ns,Sarah Fawcett
ACE02,33,1878,23,15,particle size distribution using the Coulter Counter,David Antoine
ACE02,33,1878,23,15,particulate organic carbon,Sarah Fawcett
ACE02,33,1878,23,15,particulate organic nitrogen,Sarah Fawcett
ACE02,33,1878,23,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,33,1878,23,15,pigments,David Antoine
ACE02,33,1878,17,30,Chlorophyll-a,David Antoine
ACE02,33,1878,17,30,oxygen-18 isotope,Katherine Leonard
ACE02,33,1878,17,30,particle size distribution using the Coulter Counter,David Antoine
ACE02,33,1878,17,30,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,33,1878,17,30,pigments,David Antoine
ACE02,33,1878,17,30,salinity,Katherine Leonard
ACE02,33,1878,18,30,biogenic silica,Michael Ellwood
ACE02,33,1878,18,30,n&ns,Sarah Fawcett
ACE02,33,1878,18,30,nutrients,Michael Ellwood
ACE02,33,1878,18,30,particulate organic carbon,Sarah Fawcett
ACE02,33,1878,18,30,particulate organic nitrogen,Sarah Fawcett
ACE02,33,1878,15,50,bacteria,Christel Hassler
ACE02,33,1878,15,50,Chlorophyll-a,David Antoine
ACE02,33,1878,15,50,genetics,Nicolas Cassar
ACE02,33,1878,15,50,particle size distribution using the Coulter Counter,David Antoine
ACE02,33,1878,15,50,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,33,1878,15,50,pigments,David Antoine
ACE02,33,1878,16,50,biogenic silica,Michael Ellwood
ACE02,33,1878,16,50,n&ns,Sarah Fawcett
ACE02,33,1878,16,50,nutrients,Michael Ellwood
ACE02,33,1878,16,50,particulate organic carbon,Sarah Fawcett
ACE02,33,1878,16,50,particulate organic nitrogen,Sarah Fawcett
ACE02,33,1878,13,80,Chlorophyll-a,David Antoine
ACE02,33,1878,13,80,oxygen-18 isotope,Katherine Leonard
ACE02,33,1878,13,80,particle size distribution using the Coulter Counter,David Antoine
ACE02,33,1878,13,80,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,33,1878,13,80,pigments,David Antoine
ACE02,33,1878,13,80,salinity,Katherine Leonard
ACE02,33,1878,14,80,biogenic silica,Michael Ellwood
ACE02,33,1878,14,80,n&ns,Sarah Fawcett
ACE02,33,1878,14,80,nutrients,Michael Ellwood
ACE02,33,1878,14,80,particulate organic carbon,Sarah Fawcett
ACE02,33,1878,14,80,particulate organic nitrogen,Sarah Fawcett
ACE02,33,1878,11,100,biogenic silica,Michael Ellwood
ACE02,33,1878,11,100,n&ns,Sarah Fawcett
ACE02,33,1878,11,100,nutrients,Michael Ellwood
ACE02,33,1878,11,100,particulate organic carbon,Sarah Fawcett
ACE02,33,1878,11,100,particulate organic nitrogen,Sarah Fawcett
ACE02,33,1878,12,100,Chlorophyll-a,David Antoine
ACE02,33,1878,12,100,particle size distribution using the Coulter Counter,David Antoine
ACE02,33,1878,12,100,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,33,1878,12,100,pigments,David Antoine
ACE02,33,1878,7,150,bacteria,Christel Hassler
ACE02,33,1878,7,150,metaviromes,Christel Hassler
ACE02,33,1878,7,150,n&ns,Sarah Fawcett
ACE02,33,1878,8,150,biogenic silica,Michael Ellwood
ACE02,33,1878,8,150,genetics,Nicolas Cassar
ACE02,33,1878,8,150,nutrients,Michael Ellwood
ACE02,33,1878,9,150,metaviromes,Christel Hassler
ACE02,33,1878,10,150,metaviromes,Christel Hassler
ACE02,33,1878,6,180,biogenic silica,Michael Ellwood
ACE02,33,1878,6,180,n&ns,Sarah Fawcett
ACE02,33,1878,6,180,nutrients,Michael Ellwood
ACE02,33,1878,6,180,oxygen-18 isotope,Katherine Leonard
ACE02,33,1878,6,180,salinity,Katherine Leonard
ACE02,33,1878,5,220,biogenic silica,Michael Ellwood
ACE02,33,1878,5,220,n&ns,Sarah Fawcett
ACE02,33,1878,5,220,nutrients,Michael Ellwood
ACE02,33,1878,5,220,oxygen-18 isotope,Katherine Leonard
ACE02,33,1878,5,220,salinity,Katherine Leonard
ACE02,33,1878,4,320,biogenic silica,Michael Ellwood
ACE02,33,1878,4,320,n&ns,Sarah Fawcett
ACE02,33,1878,4,320,nutrients,Michael Ellwood
ACE02,33,1878,4,320,oxygen-18 isotope,Katherine Leonard
ACE02,33,1878,4,320,salinity,Katherine Leonard
ACE02,33,1878,1,390,metaviromes,Christel Hassler
ACE02,33,1878,2,390,bacteria,Christel Hassler
ACE02,33,1878,2,390,genetics,Nicolas Cassar
ACE02,33,1878,2,390,oxygen-18 isotope,Katherine Leonard
ACE02,33,1878,2,390,salinity,Katherine Leonard
ACE02,33,1878,3,390,biogenic silica,Michael Ellwood
ACE02,33,1878,3,390,metaviromes,Christel Hassler
ACE02,33,1878,3,390,n&ns,Sarah Fawcett
ACE02,33,1878,3,390,nutrients,Michael Ellwood
ACE02,34,1891,19,15,biogenic silica,Michael Ellwood
ACE02,34,1891,19,15,metaviromes,Christel Hassler
ACE02,34,1891,19,15,nutrients,Michael Ellwood
ACE02,34,1891,20,15,bacteria,Christel Hassler
ACE02,34,1891,20,15,genetics,Nicolas Cassar
ACE02,34,1891,20,15,oxygen-18 isotope,Katherine Leonard
ACE02,34,1891,20,15,salinity,Katherine Leonard
ACE02,34,1891,21,15,metaviromes,Christel Hassler
ACE02,34,1891,22,15,metaviromes,Christel Hassler
ACE02,34,1891,23,15,Chlorophyll-a,David Antoine
ACE02,34,1891,23,15,n&ns,Sarah Fawcett
ACE02,34,1891,23,15,particle size distribution using the Coulter Counter,David Antoine
ACE02,34,1891,23,15,particulate organic carbon,Sarah Fawcett
ACE02,34,1891,23,15,particulate organic nitrogen,Sarah Fawcett
ACE02,34,1891,23,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,34,1891,23,15,pigments,David Antoine
ACE02,34,1891,17,30,Chlorophyll-a,David Antoine
ACE02,34,1891,17,30,oxygen-18 isotope,Katherine Leonard
ACE02,34,1891,17,30,particle size distribution using the Coulter Counter,David Antoine
ACE02,34,1891,17,30,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,34,1891,17,30,pigments,David Antoine
ACE02,34,1891,17,30,salinity,Katherine Leonard
ACE02,34,1891,18,30,biogenic silica,Michael Ellwood
ACE02,34,1891,18,30,n&ns,Sarah Fawcett
ACE02,34,1891,18,30,nutrients,Michael Ellwood
ACE02,34,1891,18,30,particulate organic carbon,Sarah Fawcett
ACE02,34,1891,18,30,particulate organic nitrogen,Sarah Fawcett
ACE02,34,1891,15,65,Chlorophyll-a,David Antoine
ACE02,34,1891,15,65,particle size distribution using the Coulter Counter,David Antoine
ACE02,34,1891,15,65,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,34,1891,15,65,pigments,David Antoine
ACE02,34,1891,16,65,biogenic silica,Michael Ellwood
ACE02,34,1891,16,65,n&ns,Sarah Fawcett
ACE02,34,1891,16,65,nutrients,Michael Ellwood
ACE02,34,1891,16,65,particulate organic carbon,Sarah Fawcett
ACE02,34,1891,16,65,particulate organic nitrogen,Sarah Fawcett
ACE02,34,1891,13,90,bacteria,Christel Hassler
ACE02,34,1891,13,90,Chlorophyll-a,David Antoine
ACE02,34,1891,13,90,genetics,Nicolas Cassar
ACE02,34,1891,13,90,particle size distribution using the Coulter Counter,David Antoine
ACE02,34,1891,13,90,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,34,1891,13,90,pigments,David Antoine
ACE02,34,1891,14,90,biogenic silica,Michael Ellwood
ACE02,34,1891,14,90,n&ns,Sarah Fawcett
ACE02,34,1891,14,90,nutrients,Michael Ellwood
ACE02,34,1891,14,90,particulate organic carbon,Sarah Fawcett
ACE02,34,1891,14,90,particulate organic nitrogen,Sarah Fawcett
ACE02,34,1891,11,100,biogenic silica,Michael Ellwood
ACE02,34,1891,11,100,n&ns,Sarah Fawcett
ACE02,34,1891,11,100,nutrients,Michael Ellwood
ACE02,34,1891,11,100,particulate organic carbon,Sarah Fawcett
ACE02,34,1891,11,100,particulate organic nitrogen,Sarah Fawcett
ACE02,34,1891,12,100,Chlorophyll-a,David Antoine
ACE02,34,1891,12,100,oxygen-18 isotope,Katherine Leonard
ACE02,34,1891,12,100,particle size distribution using the Coulter Counter,David Antoine
ACE02,34,1891,12,100,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,34,1891,12,100,pigments,David Antoine
ACE02,34,1891,12,100,salinity,Katherine Leonard
ACE02,34,1891,7,150,bacteria,Christel Hassler
ACE02,34,1891,7,150,metaviromes,Christel Hassler
ACE02,34,1891,7,150,n&ns,Sarah Fawcett
ACE02,34,1891,8,150,biogenic silica,Michael Ellwood
ACE02,34,1891,8,150,genetics,Nicolas Cassar
ACE02,34,1891,8,150,nutrients,Michael Ellwood
ACE02,34,1891,9,150,metaviromes,Christel Hassler
ACE02,34,1891,10,150,metaviromes,Christel Hassler
ACE02,34,1891,6,400,biogenic silica,Michael Ellwood
ACE02,34,1891,6,400,n&ns,Sarah Fawcett
ACE02,34,1891,6,400,nutrients,Michael Ellwood
ACE02,34,1891,6,400,oxygen-18 isotope,Katherine Leonard
ACE02,34,1891,6,400,salinity,Katherine Leonard
ACE02,34,1891,5,600,biogenic silica,Michael Ellwood
ACE02,34,1891,5,600,n&ns,Sarah Fawcett
ACE02,34,1891,5,600,nutrients,Michael Ellwood
ACE02,34,1891,4,800,biogenic silica,Michael Ellwood
ACE02,34,1891,4,800,n&ns,Sarah Fawcett
ACE02,34,1891,4,800,nutrients,Michael Ellwood
ACE02,34,1891,1,1000,metaviromes,Christel Hassler
ACE02,34,1891,2,1000,bacteria,Christel Hassler
ACE02,34,1891,2,1000,genetics,Nicolas Cassar
ACE02,34,1891,2,1000,oxygen-18 isotope,Katherine Leonard
ACE02,34,1891,2,1000,salinity,Katherine Leonard
ACE02,34,1891,3,1000,biogenic silica,Michael Ellwood
ACE02,34,1891,3,1000,metaviromes,Christel Hassler
ACE02,34,1891,3,1000,n&ns,Sarah Fawcett
ACE02,34,1891,3,1000,nutrients,Michael Ellwood
ACE02,35,1901,19,15,biogenic silica,Michael Ellwood
ACE02,35,1901,19,15,metaviromes,Christel Hassler
ACE02,35,1901,19,15,nutrients,Michael Ellwood
ACE02,35,1901,20,15,bacteria,Christel Hassler
ACE02,35,1901,20,15,genetics,Nicolas Cassar
ACE02,35,1901,21,15,metaviromes,Christel Hassler
ACE02,35,1901,22,15,metaviromes,Christel Hassler
ACE02,35,1901,23,15,Chlorophyll-a,David Antoine
ACE02,35,1901,23,15,n&ns,Sarah Fawcett
ACE02,35,1901,23,15,oxygen-18 isotope,Katherine Leonard
ACE02,35,1901,23,15,particle size distribution using the Coulter Counter,David Antoine
ACE02,35,1901,23,15,particulate organic carbon,Sarah Fawcett
ACE02,35,1901,23,15,particulate organic nitrogen,Sarah Fawcett
ACE02,35,1901,23,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,35,1901,23,15,pigments,David Antoine
ACE02,35,1901,23,15,salinity,Katherine Leonard
ACE02,35,1901,17,40,biogenic silica,Michael Ellwood
ACE02,35,1901,17,40,nutrients,Michael Ellwood
ACE02,35,1901,18,40,Chlorophyll-a,David Antoine
ACE02,35,1901,18,40,n&ns,Sarah Fawcett
ACE02,35,1901,18,40,particle size distribution using the Coulter Counter,David Antoine
ACE02,35,1901,18,40,particulate organic carbon,Sarah Fawcett
ACE02,35,1901,18,40,particulate organic nitrogen,Sarah Fawcett
ACE02,35,1901,18,40,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,35,1901,18,40,pigments,David Antoine
ACE02,35,1901,15,60,biogenic silica,Michael Ellwood
ACE02,35,1901,15,60,nutrients,Michael Ellwood
ACE02,35,1901,15,60,oxygen-18 isotope,Katherine Leonard
ACE02,35,1901,15,60,salinity,Katherine Leonard
ACE02,35,1901,16,60,Chlorophyll-a,David Antoine
ACE02,35,1901,16,60,n&ns,Sarah Fawcett
ACE02,35,1901,16,60,particle size distribution using the Coulter Counter,David Antoine
ACE02,35,1901,16,60,particulate organic carbon,Sarah Fawcett
ACE02,35,1901,16,60,particulate organic nitrogen,Sarah Fawcett
ACE02,35,1901,16,60,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,35,1901,16,60,pigments,David Antoine
ACE02,35,1901,13,70,bacteria,Christel Hassler
ACE02,35,1901,13,70,Chlorophyll-a,David Antoine
ACE02,35,1901,13,70,genetics,Nicolas Cassar
ACE02,35,1901,13,70,particle size distribution using the Coulter Counter,David Antoine
ACE02,35,1901,13,70,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,35,1901,13,70,pigments,David Antoine
ACE02,35,1901,14,70,biogenic silica,Michael Ellwood
ACE02,35,1901,14,70,n&ns,Sarah Fawcett
ACE02,35,1901,14,70,nutrients,Michael Ellwood
ACE02,35,1901,14,70,particulate organic carbon,Sarah Fawcett
ACE02,35,1901,14,70,particulate organic nitrogen,Sarah Fawcett
ACE02,35,1901,11,100,Chlorophyll-a,David Antoine
ACE02,35,1901,11,100,n&ns,Sarah Fawcett
ACE02,35,1901,11,100,particle size distribution using the Coulter Counter,David Antoine
ACE02,35,1901,11,100,particulate organic carbon,Sarah Fawcett
ACE02,35,1901,11,100,particulate organic nitrogen,Sarah Fawcett
ACE02,35,1901,11,100,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE02,35,1901,11,100,pigments,David Antoine
ACE02,35,1901,12,100,biogenic silica,Michael Ellwood
ACE02,35,1901,12,100,nutrients,Michael Ellwood
ACE02,35,1901,7,150,bacteria,Christel Hassler
ACE02,35,1901,7,150,metaviromes,Christel Hassler
ACE02,35,1901,7,150,n&ns,Sarah Fawcett
ACE02,35,1901,8,150,biogenic silica,Michael Ellwood
ACE02,35,1901,8,150,genetics,Nicolas Cassar
ACE02,35,1901,8,150,nutrients,Michael Ellwood
ACE02,35,1901,9,150,metaviromes,Christel Hassler
ACE02,35,1901,10,150,metaviromes,Christel Hassler
ACE02,35,1901,10,150,oxygen-18 isotope,Katherine Leonard
ACE02,35,1901,10,150,salinity,Katherine Leonard
ACE02,35,1901,6,175,biogenic silica,Michael Ellwood
ACE02,35,1901,6,175,n&ns,Sarah Fawcett
ACE02,35,1901,6,175,nutrients,Michael Ellwood
ACE02,35,1901,6,175,oxygen-18 isotope,Katherine Leonard
ACE02,35,1901,6,175,salinity,Katherine Leonard
ACE02,35,1901,5,250,biogenic silica,Michael Ellwood
ACE02,35,1901,5,250,n&ns,Sarah Fawcett
ACE02,35,1901,5,250,nutrients,Michael Ellwood
ACE02,35,1901,4,580,biogenic silica,Michael Ellwood
ACE02,35,1901,4,580,n&ns,Sarah Fawcett
ACE02,35,1901,4,580,nutrients,Michael Ellwood
ACE02,35,1901,4,580,oxygen-18 isotope,Katherine Leonard
ACE02,35,1901,4,580,salinity,Katherine Leonard
ACE02,35,1901,1,1000,metaviromes,Christel Hassler
ACE02,35,1901,1,1000,oxygen-18 isotope,Katherine Leonard
ACE02,35,1901,1,1000,salinity,Katherine Leonard
ACE02,35,1901,2,1000,bacteria,Christel Hassler
ACE02,35,1901,2,1000,genetics,Nicolas Cassar
ACE02,35,1901,3,1000,biogenic silica,Michael Ellwood
ACE02,35,1901,3,1000,metaviromes,Christel Hassler
ACE02,35,1901,3,1000,n&ns,Sarah Fawcett
ACE02,35,1901,3,1000,nutrients,Michael Ellwood
ACE03,1,2201,22,5,n&ns,Sarah Fawcett
ACE03,1,2201,22,5,particulate organic carbon,Sarah Fawcett
ACE03,1,2201,23,5,coomasie stainable particles,Rafel Simó
ACE03,1,2201,23,5,oxygen-18 isotope,Katherine Leonard
ACE03,1,2201,23,5,Particulate and dissolved methylamines,Rafel Simó
ACE03,1,2201,23,5,salinity,Katherine Leonard
ACE03,1,2201,23,5,transparent exopolymeric particles,Rafel Simó
ACE03,1,2201,23,5,volatile organic compounds,Rafel Simó
ACE03,1,2201,21,15,biogenic silica,Michael Ellwood
ACE03,1,2201,21,15,n&ns,Sarah Fawcett
ACE03,1,2201,21,15,nutrients,Michael Ellwood
ACE03,1,2201,21,15,particulate organic carbon,Sarah Fawcett
ACE03,1,2201,19,30,oxygen-18 isotope,Katherine Leonard
ACE03,1,2201,19,30,salinity,Katherine Leonard
ACE03,1,2201,20,30,biogenic silica,Michael Ellwood
ACE03,1,2201,20,30,n&ns,Sarah Fawcett
ACE03,1,2201,20,30,nutrients,Michael Ellwood
ACE03,1,2201,20,30,particulate organic carbon,Sarah Fawcett
ACE03,1,2201,18,45,biogenic silica,Michael Ellwood
ACE03,1,2201,18,45,n&ns,Sarah Fawcett
ACE03,1,2201,18,45,nutrients,Michael Ellwood
ACE03,1,2201,18,45,oxygen-18 isotope,Katherine Leonard
ACE03,1,2201,18,45,particulate organic carbon,Sarah Fawcett
ACE03,1,2201,18,45,salinity,Katherine Leonard
ACE03,1,2201,17,65,biogenic silica,Michael Ellwood
ACE03,1,2201,17,65,n&ns,Sarah Fawcett
ACE03,1,2201,17,65,nutrients,Michael Ellwood
ACE03,1,2201,17,65,oxygen-18 isotope,Katherine Leonard
ACE03,1,2201,17,65,particulate organic carbon,Sarah Fawcett
ACE03,1,2201,17,65,salinity,Katherine Leonard
ACE03,1,2201,16,85,biogenic silica,Michael Ellwood
ACE03,1,2201,16,85,n&ns,Sarah Fawcett
ACE03,1,2201,16,85,nutrients,Michael Ellwood
ACE03,1,2201,16,85,oxygen-18 isotope,Katherine Leonard
ACE03,1,2201,16,85,particulate organic carbon,Sarah Fawcett
ACE03,1,2201,16,85,salinity,Katherine Leonard
ACE03,1,2201,15,100,biogenic silica,Michael Ellwood
ACE03,1,2201,15,100,n&ns,Sarah Fawcett
ACE03,1,2201,15,100,nutrients,Michael Ellwood
ACE03,1,2201,15,100,particulate organic carbon,Sarah Fawcett
ACE03,1,2201,14,125,biogenic silica,Michael Ellwood
ACE03,1,2201,14,125,n&ns,Sarah Fawcett
ACE03,1,2201,14,125,nutrients,Michael Ellwood
ACE03,1,2201,14,125,particulate organic carbon,Sarah Fawcett
ACE03,1,2201,10,150,biogenic silica,Michael Ellwood
ACE03,1,2201,10,150,n&ns,Sarah Fawcett
ACE03,1,2201,10,150,nutrients,Michael Ellwood
ACE03,1,2201,10,150,viruses,Christel Hassler
ACE03,1,2201,11,150,bacteria,Christel Hassler
ACE03,1,2201,11,150,genetics,Nicolas Cassar
ACE03,1,2201,12,150,viruses,Christel Hassler
ACE03,1,2201,13,150,viruses,Christel Hassler
ACE03,1,2201,9,250,n&ns,Sarah Fawcett
ACE03,1,2201,9,250,oxygen-18 isotope,Katherine Leonard
ACE03,1,2201,9,250,salinity,Katherine Leonard
ACE03,1,2201,8,310,n&ns,Sarah Fawcett
ACE03,1,2201,8,310,oxygen-18 isotope,Katherine Leonard
ACE03,1,2201,8,310,salinity,Katherine Leonard
ACE03,1,2201,7,350,biogenic silica,Michael Ellwood
ACE03,1,2201,7,350,n&ns,Sarah Fawcett
ACE03,1,2201,7,350,nutrients,Michael Ellwood
ACE03,1,2201,7,350,oxygen-18 isotope,Katherine Leonard
ACE03,1,2201,7,350,salinity,Katherine Leonard
ACE03,1,2201,6,600,biogenic silica,Michael Ellwood
ACE03,1,2201,6,600,n&ns,Sarah Fawcett
ACE03,1,2201,6,600,nutrients,Michael Ellwood
ACE03,1,2201,6,600,oxygen-18 isotope,Katherine Leonard
ACE03,1,2201,6,600,salinity,Katherine Leonard
ACE03,1,2201,5,800,biogenic silica,Michael Ellwood
ACE03,1,2201,5,800,n&ns,Sarah Fawcett
ACE03,1,2201,5,800,nutrients,Michael Ellwood
ACE03,1,2201,4,1000,biogenic silica,Michael Ellwood
ACE03,1,2201,4,1000,n&ns,Sarah Fawcett
ACE03,1,2201,4,1000,nutrients,Michael Ellwood
ACE03,1,2201,4,1000,oxygen-18 isotope,Katherine Leonard
ACE03,1,2201,4,1000,salinity,Katherine Leonard
ACE03,1,2201,1,1500,n&ns,Sarah Fawcett
ACE03,1,2201,1,1500,viruses,Christel Hassler
ACE03,1,2201,2,1500,viruses,Christel Hassler
ACE03,1,2201,3,1500,viruses,Christel Hassler
ACE03,2,2263,6,5,oxygen-18 isotope,Katherine Leonard
ACE03,2,2263,6,5,salinity,Katherine Leonard
ACE03,2,2263,5,20,oxygen-18 isotope,Katherine Leonard
ACE03,2,2263,5,20,salinity,Katherine Leonard
ACE03,2,2263,4,40,oxygen-18 isotope,Katherine Leonard
ACE03,2,2263,4,40,salinity,Katherine Leonard
ACE03,2,2263,3,60,oxygen-18 isotope,Katherine Leonard
ACE03,2,2263,3,60,salinity,Katherine Leonard
ACE03,2,2263,2,100,oxygen-18 isotope,Katherine Leonard
ACE03,2,2263,2,100,salinity,Katherine Leonard
ACE03,2,2263,1,300,oxygen-18 isotope,Katherine Leonard
ACE03,2,2263,1,300,salinity,Katherine Leonard
ACE03,3,2568,22,5,n&ns,Sarah Fawcett
ACE03,3,2568,22,5,oxygen-18 isotope,Katherine Leonard
ACE03,3,2568,22,5,particulate organic carbon,Sarah Fawcett
ACE03,3,2568,22,5,salinity,Katherine Leonard
ACE03,3,2568,23,5,Particulate and dissolved methylamines,Rafel Simó
ACE03,3,2568,21,15,biogenic silica,Michael Ellwood
ACE03,3,2568,21,15,n&ns,Sarah Fawcett
ACE03,3,2568,21,15,nutrients,Michael Ellwood
ACE03,3,2568,21,15,particulate organic carbon,Sarah Fawcett
ACE03,3,2568,19,30,oxygen-18 isotope,Katherine Leonard
ACE03,3,2568,19,30,salinity,Katherine Leonard
ACE03,3,2568,20,30,biogenic silica,Michael Ellwood
ACE03,3,2568,20,30,n&ns,Sarah Fawcett
ACE03,3,2568,20,30,nutrients,Michael Ellwood
ACE03,3,2568,20,30,particulate organic carbon,Sarah Fawcett
ACE03,3,2568,18,60,biogenic silica,Michael Ellwood
ACE03,3,2568,18,60,n&ns,Sarah Fawcett
ACE03,3,2568,18,60,nutrients,Michael Ellwood
ACE03,3,2568,18,60,oxygen-18 isotope,Katherine Leonard
ACE03,3,2568,18,60,particulate organic carbon,Sarah Fawcett
ACE03,3,2568,18,60,salinity,Katherine Leonard
ACE03,3,2568,16,85,biogenic silica,Michael Ellwood
ACE03,3,2568,16,85,n&ns,Sarah Fawcett
ACE03,3,2568,16,85,nutrients,Michael Ellwood
ACE03,3,2568,16,85,particulate organic carbon,Sarah Fawcett
ACE03,3,2568,17,85,oxygen-18 isotope,Katherine Leonard
ACE03,3,2568,17,85,salinity,Katherine Leonard
ACE03,3,2568,15,100,biogenic silica,Michael Ellwood
ACE03,3,2568,15,100,n&ns,Sarah Fawcett
ACE03,3,2568,15,100,nutrients,Michael Ellwood
ACE03,3,2568,15,100,oxygen-18 isotope,Katherine Leonard
ACE03,3,2568,15,100,particulate organic carbon,Sarah Fawcett
ACE03,3,2568,15,100,salinity,Katherine Leonard
ACE03,3,2568,14,125,biogenic silica,Michael Ellwood
ACE03,3,2568,14,125,n&ns,Sarah Fawcett
ACE03,3,2568,14,125,nutrients,Michael Ellwood
ACE03,3,2568,14,125,particulate organic carbon,Sarah Fawcett
ACE03,3,2568,10,150,biogenic silica,Michael Ellwood
ACE03,3,2568,10,150,coomasie stainable particles,Rafel Simó
ACE03,3,2568,10,150,n&ns,Sarah Fawcett
ACE03,3,2568,10,150,nutrients,Michael Ellwood
ACE03,3,2568,10,150,transparent exopolymeric particles,Rafel Simó
ACE03,3,2568,10,150,viruses,Christel Hassler
ACE03,3,2568,10,150,volatile organic compounds,Rafel Simó
ACE03,3,2568,11,150,bacteria,Christel Hassler
ACE03,3,2568,11,150,genetics,Nicolas Cassar
ACE03,3,2568,12,150,viruses,Christel Hassler
ACE03,3,2568,13,150,viruses,Christel Hassler
ACE03,3,2568,9,200,biogenic silica,Michael Ellwood
ACE03,3,2568,9,200,n&ns,Sarah Fawcett
ACE03,3,2568,9,200,nutrients,Michael Ellwood
ACE03,3,2568,8,300,biogenic silica,Michael Ellwood
ACE03,3,2568,8,300,n&ns,Sarah Fawcett
ACE03,3,2568,8,300,nutrients,Michael Ellwood
ACE03,3,2568,8,300,oxygen-18 isotope,Katherine Leonard
ACE03,3,2568,8,300,salinity,Katherine Leonard
ACE03,3,2568,7,500,biogenic silica,Michael Ellwood
ACE03,3,2568,7,500,n&ns,Sarah Fawcett
ACE03,3,2568,7,500,nutrients,Michael Ellwood
ACE03,3,2568,7,500,oxygen-18 isotope,Katherine Leonard
ACE03,3,2568,7,500,salinity,Katherine Leonard
ACE03,3,2568,6,800,biogenic silica,Michael Ellwood
ACE03,3,2568,6,800,n&ns,Sarah Fawcett
ACE03,3,2568,6,800,nutrients,Michael Ellwood
ACE03,3,2568,2,1000,bacteria,Christel Hassler
ACE03,3,2568,2,1000,genetics,Nicolas Cassar
ACE03,3,2568,3,1000,n&ns,Sarah Fawcett
ACE03,3,2568,3,1000,oxygen-18 isotope,Katherine Leonard
ACE03,3,2568,3,1000,salinity,Katherine Leonard
ACE03,3,2568,3,1000,viruses,Christel Hassler
ACE03,3,2568,4,1000,viruses,Christel Hassler
ACE03,3,2568,5,1000,viruses,Christel Hassler
ACE03,3,2568,1,1500,n&ns,Sarah Fawcett
ACE03,3,2568,1,1500,oxygen-18 isotope,Katherine Leonard
ACE03,3,2568,1,1500,salinity,Katherine Leonard
ACE03,4,2576,21,5,bacteria,Sarah Fawcett
ACE03,4,2576,21,5,coomasie stainable particles,Rafel Simó
ACE03,4,2576,21,5,phytoplankton,Sarah Fawcett
ACE03,4,2576,21,5,transparent exopolymeric particles,Rafel Simó
ACE03,4,2576,21,5,volatile organic compounds,Rafel Simó
ACE03,4,2576,22,5,bacteria,Sarah Fawcett
ACE03,4,2576,22,5,Chlorophyll-a,David Antoine
ACE03,4,2576,22,5,particle size distribution using the Coulter Counter,David Antoine
ACE03,4,2576,22,5,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,4,2576,22,5,phytoplankton,Sarah Fawcett
ACE03,4,2576,22,5,pigments,David Antoine
ACE03,4,2576,23,5,bacteria,Christel Hassler
ACE03,4,2576,23,5,genetics,Nicolas Cassar
ACE03,4,2576,16,15,metaviromes,Christel Hassler
ACE03,4,2576,17,15,metaviromes,Christel Hassler
ACE03,4,2576,18,15,bacteria,Christel Hassler
ACE03,4,2576,18,15,coomasie stainable particles,Rafel Simó
ACE03,4,2576,18,15,genetics,Nicolas Cassar
ACE03,4,2576,18,15,transparent exopolymeric particles,Rafel Simó
ACE03,4,2576,18,15,volatile organic compounds,Rafel Simó
ACE03,4,2576,19,15,DNA,Sarah Fawcett
ACE03,4,2576,20,15,Chlorophyll-a,David Antoine
ACE03,4,2576,20,15,metaviromes,Christel Hassler
ACE03,4,2576,20,15,particle size distribution using the Coulter Counter,David Antoine
ACE03,4,2576,20,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,4,2576,20,15,pigments,David Antoine
ACE03,4,2576,7,30,bacteria,Christel Hassler
ACE03,4,2576,7,30,genetics,Nicolas Cassar
ACE03,4,2576,8,30,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,4,2576,9,30,bacteria,Sarah Fawcett
ACE03,4,2576,9,30,phytoplankton,Sarah Fawcett
ACE03,4,2576,10,30,bacteria,Sarah Fawcett
ACE03,4,2576,10,30,phytoplankton,Sarah Fawcett
ACE03,4,2576,11,30,bacteria,Sarah Fawcett
ACE03,4,2576,11,30,phytoplankton,Sarah Fawcett
ACE03,4,2576,13,30,coomasie stainable particles,Rafel Simó
ACE03,4,2576,13,30,transparent exopolymeric particles,Rafel Simó
ACE03,4,2576,13,30,volatile organic compounds,Rafel Simó
ACE03,4,2576,14,30,Chlorophyll-a,David Antoine
ACE03,4,2576,14,30,particle size distribution using the Coulter Counter,David Antoine
ACE03,4,2576,14,30,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,4,2576,14,30,pigments,David Antoine
ACE03,4,2576,15,30,DNA,Sarah Fawcett
ACE03,4,2576,5,60,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,4,2576,6,60,Chlorophyll-a,David Antoine
ACE03,4,2576,6,60,coomasie stainable particles,Rafel Simó
ACE03,4,2576,6,60,particle size distribution using the Coulter Counter,David Antoine
ACE03,4,2576,6,60,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,4,2576,6,60,pigments,David Antoine
ACE03,4,2576,6,60,transparent exopolymeric particles,Rafel Simó
ACE03,4,2576,6,60,volatile organic compounds,Rafel Simó
ACE03,4,2576,1,85,Chlorophyll-a,David Antoine
ACE03,4,2576,1,85,particle size distribution using the Coulter Counter,David Antoine
ACE03,4,2576,1,85,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,4,2576,1,85,pigments,David Antoine
ACE03,5,2625,18,5,coomasie stainable particles,Rafel Simó
ACE03,5,2625,18,5,oxygen concentration,Guillaume Massé
ACE03,5,2625,18,5,oxygen-18 isotope,Katherine Leonard
ACE03,5,2625,18,5,Particulate and dissolved methylamines,Rafel Simó
ACE03,5,2625,18,5,salinity,Katherine Leonard
ACE03,5,2625,18,5,transparent exopolymeric particles,Rafel Simó
ACE03,5,2625,18,5,volatile organic compounds,Rafel Simó
ACE03,5,2625,15,15,genetics,Nicolas Cassar
ACE03,5,2625,17,15,oxygen-18 isotope,Katherine Leonard
ACE03,5,2625,17,15,salinity,Katherine Leonard
ACE03,5,2625,12,30,oxygen-18 isotope,Katherine Leonard
ACE03,5,2625,12,30,salinity,Katherine Leonard
ACE03,5,2625,11,60,oxygen-18 isotope,Katherine Leonard
ACE03,5,2625,11,60,salinity,Katherine Leonard
ACE03,5,2625,9,85,genetics,Nicolas Cassar
ACE03,5,2625,10,85,oxygen concentration,Guillaume Massé
ACE03,5,2625,10,85,oxygen-18 isotope,Katherine Leonard
ACE03,5,2625,10,85,salinity,Katherine Leonard
ACE03,5,2625,7,120,oxygen concentration,Guillaume Massé
ACE03,5,2625,7,120,oxygen-18 isotope,Katherine Leonard
ACE03,5,2625,7,120,salinity,Katherine Leonard
ACE03,5,2625,2,150,oxygen concentration,Guillaume Massé
ACE03,5,2625,2,150,oxygen-18 isotope,Katherine Leonard
ACE03,5,2625,2,150,salinity,Katherine Leonard
ACE03,5,2625,6,150,genetics,Nicolas Cassar
ACE03,5,2625,1,300,oxygen-18 isotope,Katherine Leonard
ACE03,5,2625,1,300,salinity,Katherine Leonard
ACE03,6,2652,1,1000,n&ns,Sarah Fawcett
ACE03,6,2652,1,1000,viruses,Christel Hassler
ACE03,6,2652,2,1000,viruses,Christel Hassler
ACE03,6,2652,3,1000,viruses,Christel Hassler
ACE03,6,2652,4,1000,viruses,Christel Hassler
ACE03,6,2652,5,1000,viruses,Christel Hassler
ACE03,6,2652,6,1000,viruses,Christel Hassler
ACE03,7,2654,20,5,bacteria,Sarah Fawcett
ACE03,7,2654,20,5,Chlorophyll-a,David Antoine
ACE03,7,2654,20,5,particle size distribution using the Coulter Counter,David Antoine
ACE03,7,2654,20,5,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,7,2654,20,5,phytoplankton,Sarah Fawcett
ACE03,7,2654,20,5,pigments,David Antoine
ACE03,7,2654,21,5,bacteria,Sarah Fawcett
ACE03,7,2654,21,5,coomasie stainable particles,Rafel Simó
ACE03,7,2654,21,5,phytoplankton,Sarah Fawcett
ACE03,7,2654,21,5,transparent exopolymeric particles,Rafel Simó
ACE03,7,2654,21,5,volatile organic compounds,Rafel Simó
ACE03,7,2654,22,5,bacteria,Sarah Fawcett
ACE03,7,2654,22,5,Particulate and dissolved methylamines,Rafel Simó
ACE03,7,2654,22,5,phytoplankton,Sarah Fawcett
ACE03,7,2654,23,5,bacteria,Christel Hassler
ACE03,7,2654,23,5,genetics,Nicolas Cassar
ACE03,7,2654,12,15,metaviromes,Christel Hassler
ACE03,7,2654,13,15,metaviromes,Christel Hassler
ACE03,7,2654,14,15,metaviromes,Christel Hassler
ACE03,7,2654,15,15,metaviromes,Christel Hassler
ACE03,7,2654,16,15,metaviromes,Christel Hassler
ACE03,7,2654,17,15,bacteria,Christel Hassler
ACE03,7,2654,17,15,genetics,Nicolas Cassar
ACE03,7,2654,18,15,coomasie stainable particles,Rafel Simó
ACE03,7,2654,18,15,DNA,Sarah Fawcett
ACE03,7,2654,18,15,transparent exopolymeric particles,Rafel Simó
ACE03,7,2654,18,15,volatile organic compounds,Rafel Simó
ACE03,7,2654,19,15,Chlorophyll-a,David Antoine
ACE03,7,2654,19,15,metaviromes,Christel Hassler
ACE03,7,2654,19,15,particle size distribution using the Coulter Counter,David Antoine
ACE03,7,2654,19,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,7,2654,19,15,pigments,David Antoine
ACE03,7,2654,9,30,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,7,2654,10,30,Chlorophyll-a,David Antoine
ACE03,7,2654,10,30,coomasie stainable particles,Rafel Simó
ACE03,7,2654,10,30,particle size distribution using the Coulter Counter,David Antoine
ACE03,7,2654,10,30,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,7,2654,10,30,pigments,David Antoine
ACE03,7,2654,10,30,transparent exopolymeric particles,Rafel Simó
ACE03,7,2654,10,30,volatile organic compounds,Rafel Simó
ACE03,7,2654,11,30,DNA,Sarah Fawcett
ACE03,7,2654,4,50,bacteria,Christel Hassler
ACE03,7,2654,4,50,genetics,Nicolas Cassar
ACE03,7,2654,5,50,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,7,2654,7,50,bacteria,Sarah Fawcett
ACE03,7,2654,7,50,Chlorophyll-a,David Antoine
ACE03,7,2654,7,50,coomasie stainable particles,Rafel Simó
ACE03,7,2654,7,50,particle size distribution using the Coulter Counter,David Antoine
ACE03,7,2654,7,50,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,7,2654,7,50,phytoplankton,Sarah Fawcett
ACE03,7,2654,7,50,pigments,David Antoine
ACE03,7,2654,7,50,transparent exopolymeric particles,Rafel Simó
ACE03,7,2654,7,50,volatile organic compounds,Rafel Simó
ACE03,7,2654,8,50,bacteria,Sarah Fawcett
ACE03,7,2654,8,50,phytoplankton,Sarah Fawcett
ACE03,7,2654,2,60,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,7,2654,3,60,Chlorophyll-a,David Antoine
ACE03,7,2654,3,60,coomasie stainable particles,Rafel Simó
ACE03,7,2654,3,60,particle size distribution using the Coulter Counter,David Antoine
ACE03,7,2654,3,60,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,7,2654,3,60,pigments,David Antoine
ACE03,7,2654,3,60,transparent exopolymeric particles,Rafel Simó
ACE03,7,2654,3,60,volatile organic compounds,Rafel Simó
ACE03,7,2654,1,90,Chlorophyll-a,David Antoine
ACE03,7,2654,1,90,particle size distribution using the Coulter Counter,David Antoine
ACE03,7,2654,1,90,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,7,2654,1,90,pigments,David Antoine
ACE03,8,2691,23,5,coomasie stainable particles,Rafel Simó
ACE03,8,2691,23,5,oxygen-18 isotope,Katherine Leonard
ACE03,8,2691,23,5,Particulate and dissolved methylamines,Rafel Simó
ACE03,8,2691,23,5,salinity,Katherine Leonard
ACE03,8,2691,23,5,transparent exopolymeric particles,Rafel Simó
ACE03,8,2691,23,5,volatile organic compounds,Rafel Simó
ACE03,8,2691,16,15,metaviromes,Christel Hassler
ACE03,8,2691,17,15,metaviromes,Christel Hassler
ACE03,8,2691,18,15,metaviromes,Christel Hassler
ACE03,8,2691,19,15,biogenic silica,Michael Ellwood
ACE03,8,2691,19,15,genetics,Nicolas Cassar
ACE03,8,2691,19,15,nutrients,Michael Ellwood
ACE03,8,2691,20,15,metaviromes,Christel Hassler
ACE03,8,2691,21,15,metaviromes,Christel Hassler
ACE03,8,2691,22,15,metaviromes,Christel Hassler
ACE03,8,2691,15,30,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,8,2691,15,30,oxygen-18 isotope,Katherine Leonard
ACE03,8,2691,15,30,particulate organic carbon,Sarah Fawcett
ACE03,8,2691,15,30,particulate organic nitrogen,Sarah Fawcett
ACE03,8,2691,15,30,salinity,Katherine Leonard
ACE03,8,2691,14,38,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,8,2691,14,38,particulate organic carbon,Sarah Fawcett
ACE03,8,2691,14,38,particulate organic nitrogen,Sarah Fawcett
ACE03,8,2691,13,60,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,8,2691,13,60,oxygen-18 isotope,Katherine Leonard
ACE03,8,2691,13,60,particulate organic carbon,Sarah Fawcett
ACE03,8,2691,13,60,particulate organic nitrogen,Sarah Fawcett
ACE03,8,2691,13,60,salinity,Katherine Leonard
ACE03,8,2691,12,90,oxygen-18 isotope,Katherine Leonard
ACE03,8,2691,12,90,particulate organic carbon,Sarah Fawcett
ACE03,8,2691,12,90,particulate organic nitrogen,Sarah Fawcett
ACE03,8,2691,12,90,salinity,Katherine Leonard
ACE03,8,2691,4,150,metaviromes,Christel Hassler
ACE03,8,2691,5,150,metaviromes,Christel Hassler
ACE03,8,2691,6,150,metaviromes,Christel Hassler
ACE03,8,2691,7,150,genetics,Nicolas Cassar
ACE03,8,2691,7,150,metaviromes,Christel Hassler
ACE03,8,2691,8,150,biogenic silica,Michael Ellwood
ACE03,8,2691,8,150,metaviromes,Christel Hassler
ACE03,8,2691,8,150,nutrients,Michael Ellwood
ACE03,8,2691,9,150,metaviromes,Christel Hassler
ACE03,8,2691,10,150,metaviromes,Christel Hassler
ACE03,8,2691,11,150,oxygen-18 isotope,Katherine Leonard
ACE03,8,2691,11,150,particulate organic carbon,Sarah Fawcett
ACE03,8,2691,11,150,particulate organic nitrogen,Sarah Fawcett
ACE03,8,2691,11,150,salinity,Katherine Leonard
ACE03,8,2691,2,250,oxygen-18 isotope,Katherine Leonard
ACE03,8,2691,2,250,salinity,Katherine Leonard
ACE03,8,2691,1,400,oxygen concentration,\N \N
ACE03,9,2725,23,5,oxygen-18 isotope,Katherine Leonard
ACE03,9,2725,23,5,salinity,Katherine Leonard
ACE03,9,2725,19,15,metaviromes,Christel Hassler
ACE03,9,2725,20,15,metaviromes,Christel Hassler
ACE03,9,2725,21,15,metaviromes,Christel Hassler
ACE03,9,2725,22,15,biogenic silica,Michael Ellwood
ACE03,9,2725,22,15,genetics,Nicolas Cassar
ACE03,9,2725,22,15,nutrients,Michael Ellwood
ACE03,9,2725,18,30,oxygen-18 isotope,Katherine Leonard
ACE03,9,2725,18,30,salinity,Katherine Leonard
ACE03,9,2725,16,38,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,9,2725,17,38,bacteria,Sarah Fawcett
ACE03,9,2725,17,38,particulate organic carbon,Sarah Fawcett
ACE03,9,2725,17,38,particulate organic nitrogen,Sarah Fawcett
ACE03,9,2725,13,48,bacteria,Sarah Fawcett
ACE03,9,2725,13,48,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,9,2725,13,48,phytoplankton,Sarah Fawcett
ACE03,9,2725,14,48,bacteria,Sarah Fawcett
ACE03,9,2725,14,48,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,9,2725,14,48,phytoplankton,Sarah Fawcett
ACE03,9,2725,15,48,bacteria,Sarah Fawcett
ACE03,9,2725,15,48,particulate organic carbon,Sarah Fawcett
ACE03,9,2725,15,48,particulate organic nitrogen,Sarah Fawcett
ACE03,9,2725,15,48,phytoplankton,Sarah Fawcett
ACE03,9,2725,10,60,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,9,2725,11,60,oxygen-18 isotope,Katherine Leonard
ACE03,9,2725,11,60,particulate organic carbon,Sarah Fawcett
ACE03,9,2725,11,60,particulate organic nitrogen,Sarah Fawcett
ACE03,9,2725,11,60,salinity,Katherine Leonard
ACE03,9,2725,9,90,oxygen-18 isotope,Katherine Leonard
ACE03,9,2725,9,90,salinity,Katherine Leonard
ACE03,9,2725,3,150,metaviromes,Christel Hassler
ACE03,9,2725,4,150,metaviromes,Christel Hassler
ACE03,9,2725,5,150,metaviromes,Christel Hassler
ACE03,9,2725,6,150,genetics,Nicolas Cassar
ACE03,9,2725,7,150,biogenic silica,Michael Ellwood
ACE03,9,2725,7,150,nutrients,Michael Ellwood
ACE03,9,2725,2,220,oxygen-18 isotope,Katherine Leonard
ACE03,9,2725,2,220,salinity,Katherine Leonard
ACE03,9,2725,1,300,oxygen-18 isotope,Katherine Leonard
ACE03,9,2725,1,300,salinity,Katherine Leonard
ACE03,10,2965,23,5,Chlorophyll-a,David Antoine
ACE03,10,2965,23,5,oxygen concentration,Guillaume Massé
ACE03,10,2965,23,5,oxygen-18 isotope,Katherine Leonard
ACE03,10,2965,23,5,particle size distribution using the Coulter Counter,David Antoine
ACE03,10,2965,23,5,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,10,2965,23,5,pigments,David Antoine
ACE03,10,2965,23,5,salinity,Katherine Leonard
ACE03,10,2965,19,15,DNA,Sarah Fawcett
ACE03,10,2965,20,15,bacteria,Christel Hassler
ACE03,10,2965,20,15,genetics,Nicolas Cassar
ACE03,10,2965,21,15,n&ns,Sarah Fawcett
ACE03,10,2965,21,15,particulate organic carbon,Sarah Fawcett
ACE03,10,2965,21,15,particulate organic nitrogen,Sarah Fawcett
ACE03,10,2965,22,15,Chlorophyll-a,David Antoine
ACE03,10,2965,22,15,particle size distribution using the Coulter Counter,David Antoine
ACE03,10,2965,22,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,10,2965,22,15,pigments,David Antoine
ACE03,10,2965,16,30,Chlorophyll-a,David Antoine
ACE03,10,2965,16,30,n&ns,Sarah Fawcett
ACE03,10,2965,16,30,particle size distribution using the Coulter Counter,David Antoine
ACE03,10,2965,16,30,particulate organic carbon,Sarah Fawcett
ACE03,10,2965,16,30,particulate organic nitrogen,Sarah Fawcett
ACE03,10,2965,16,30,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,10,2965,16,30,pigments,David Antoine
ACE03,10,2965,17,30,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,10,2965,18,30,DNA,Sarah Fawcett
ACE03,10,2965,18,30,oxygen-18 isotope,Katherine Leonard
ACE03,10,2965,18,30,salinity,Katherine Leonard
ACE03,10,2965,11,75,bacteria,Christel Hassler
ACE03,10,2965,11,75,genetics,Nicolas Cassar
ACE03,10,2965,12,75,Chlorophyll-a,David Antoine
ACE03,10,2965,12,75,n&ns,Sarah Fawcett
ACE03,10,2965,12,75,particle size distribution using the Coulter Counter,David Antoine
ACE03,10,2965,12,75,particulate organic carbon,Sarah Fawcett
ACE03,10,2965,12,75,particulate organic nitrogen,Sarah Fawcett
ACE03,10,2965,12,75,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,10,2965,12,75,pigments,David Antoine
ACE03,10,2965,13,75,bacteria,Sarah Fawcett
ACE03,10,2965,13,75,oxygen concentration,Guillaume Massé
ACE03,10,2965,13,75,phytoplankton,Sarah Fawcett
ACE03,10,2965,14,75,bacteria,Sarah Fawcett
ACE03,10,2965,14,75,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,10,2965,14,75,phytoplankton,Sarah Fawcett
ACE03,10,2965,15,75,bacteria,Sarah Fawcett
ACE03,10,2965,15,75,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,10,2965,15,75,phytoplankton,Sarah Fawcett
ACE03,10,2965,9,85,Chlorophyll-a,David Antoine
ACE03,10,2965,9,85,n&ns,Sarah Fawcett
ACE03,10,2965,9,85,oxygen-18 isotope,Katherine Leonard
ACE03,10,2965,9,85,particle size distribution using the Coulter Counter,David Antoine
ACE03,10,2965,9,85,particulate organic carbon,Sarah Fawcett
ACE03,10,2965,9,85,particulate organic nitrogen,Sarah Fawcett
ACE03,10,2965,9,85,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,10,2965,9,85,pigments,David Antoine
ACE03,10,2965,9,85,salinity,Katherine Leonard
ACE03,10,2965,10,85,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,10,2965,7,100,Chlorophyll-a,David Antoine
ACE03,10,2965,7,100,n&ns,Sarah Fawcett
ACE03,10,2965,7,100,oxygen-18 isotope,Katherine Leonard
ACE03,10,2965,7,100,particle size distribution using the Coulter Counter,David Antoine
ACE03,10,2965,7,100,particulate organic carbon,Sarah Fawcett
ACE03,10,2965,7,100,particulate organic nitrogen,Sarah Fawcett
ACE03,10,2965,7,100,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,10,2965,7,100,pigments,David Antoine
ACE03,10,2965,7,100,salinity,Katherine Leonard
ACE03,10,2965,6,120,oxygen concentration,Guillaume Massé
ACE03,10,2965,4,150,n&ns,Sarah Fawcett
ACE03,10,2965,5,150,bacteria,Christel Hassler
ACE03,10,2965,5,150,genetics,Nicolas Cassar
ACE03,10,2965,3,200,n&ns,Sarah Fawcett
ACE03,10,2965,3,200,oxygen concentration,Guillaume Massé
ACE03,10,2965,3,200,oxygen-18 isotope,Katherine Leonard
ACE03,10,2965,3,200,salinity,Katherine Leonard
ACE03,10,2965,2,300,n&ns,Sarah Fawcett
ACE03,10,2965,2,300,oxygen-18 isotope,Katherine Leonard
ACE03,10,2965,2,300,salinity,Katherine Leonard
ACE03,10,2965,1,400,oxygen-18 isotope,Katherine Leonard
ACE03,10,2965,1,400,salinity,Katherine Leonard
ACE03,11,2968,23,5,biogenic silica,Michael Ellwood
ACE03,11,2968,23,5,n&ns,Sarah Fawcett
ACE03,11,2968,23,5,nutrients,Michael Ellwood
ACE03,11,2968,23,5,oxygen-18 isotope,Katherine Leonard
ACE03,11,2968,23,5,particulate organic carbon,Sarah Fawcett
ACE03,11,2968,23,5,salinity,Katherine Leonard
ACE03,11,2968,22,15,bacteria,Christel Hassler
ACE03,11,2968,22,15,biogenic silica,Michael Ellwood
ACE03,11,2968,22,15,n&ns,Sarah Fawcett
ACE03,11,2968,22,15,nutrients,Michael Ellwood
ACE03,11,2968,22,15,particulate organic carbon,Sarah Fawcett
ACE03,11,2968,21,30,biogenic silica,Michael Ellwood
ACE03,11,2968,21,30,n&ns,Sarah Fawcett
ACE03,11,2968,21,30,nutrients,Michael Ellwood
ACE03,11,2968,21,30,oxygen-18 isotope,Katherine Leonard
ACE03,11,2968,21,30,particulate organic carbon,Sarah Fawcett
ACE03,11,2968,21,30,salinity,Katherine Leonard
ACE03,11,2968,20,70,biogenic silica,Michael Ellwood
ACE03,11,2968,20,70,n&ns,Sarah Fawcett
ACE03,11,2968,20,70,nutrients,Michael Ellwood
ACE03,11,2968,20,70,particulate organic carbon,Sarah Fawcett
ACE03,11,2968,19,90,n&ns,Sarah Fawcett
ACE03,11,2968,19,90,oxygen-18 isotope,Katherine Leonard
ACE03,11,2968,19,90,particulate organic carbon,Sarah Fawcett
ACE03,11,2968,19,90,salinity,Katherine Leonard
ACE03,11,2968,18,100,biogenic silica,Michael Ellwood
ACE03,11,2968,18,100,n&ns,Sarah Fawcett
ACE03,11,2968,18,100,nutrients,Michael Ellwood
ACE03,11,2968,18,100,particulate organic carbon,Sarah Fawcett
ACE03,11,2968,17,125,biogenic silica,Michael Ellwood
ACE03,11,2968,17,125,n&ns,Sarah Fawcett
ACE03,11,2968,17,125,nutrients,Michael Ellwood
ACE03,11,2968,17,125,particulate organic carbon,Sarah Fawcett
ACE03,11,2968,12,150,biogenic silica,Michael Ellwood
ACE03,11,2968,12,150,nutrients,Michael Ellwood
ACE03,11,2968,12,150,viruses,Christel Hassler
ACE03,11,2968,13,150,bacteria,Christel Hassler
ACE03,11,2968,13,150,coomasie stainable particles,Rafel Simó
ACE03,11,2968,13,150,genetics,Nicolas Cassar
ACE03,11,2968,13,150,transparent exopolymeric particles,Rafel Simó
ACE03,11,2968,13,150,volatile organic compounds,Rafel Simó
ACE03,11,2968,14,150,viruses,Christel Hassler
ACE03,11,2968,15,150,viruses,Christel Hassler
ACE03,11,2968,16,150,coomasie stainable particles,Rafel Simó
ACE03,11,2968,16,150,n&ns,Sarah Fawcett
ACE03,11,2968,16,150,particulate organic carbon,Sarah Fawcett
ACE03,11,2968,16,150,transparent exopolymeric particles,Rafel Simó
ACE03,11,2968,16,150,volatile organic compounds,Rafel Simó
ACE03,11,2968,11,200,biogenic silica,Michael Ellwood
ACE03,11,2968,11,200,n&ns,Sarah Fawcett
ACE03,11,2968,11,200,nutrients,Michael Ellwood
ACE03,11,2968,11,200,oxygen-18 isotope,Katherine Leonard
ACE03,11,2968,11,200,salinity,Katherine Leonard
ACE03,11,2968,10,300,biogenic silica,Michael Ellwood
ACE03,11,2968,10,300,n&ns,Sarah Fawcett
ACE03,11,2968,10,300,nutrients,Michael Ellwood
ACE03,11,2968,9,500,biogenic silica,Michael Ellwood
ACE03,11,2968,9,500,n&ns,Sarah Fawcett
ACE03,11,2968,9,500,nutrients,Michael Ellwood
ACE03,11,2968,9,500,oxygen-18 isotope,Katherine Leonard
ACE03,11,2968,9,500,salinity,Katherine Leonard
ACE03,11,2968,8,800,biogenic silica,Michael Ellwood
ACE03,11,2968,8,800,n&ns,Sarah Fawcett
ACE03,11,2968,8,800,nutrients,Michael Ellwood
ACE03,11,2968,1,1000,n&ns,Sarah Fawcett
ACE03,11,2968,1,1000,viruses,Christel Hassler
ACE03,11,2968,2,1000,viruses,Christel Hassler
ACE03,11,2968,3,1000,viruses,Christel Hassler
ACE03,11,2968,4,1000,viruses,Christel Hassler
ACE03,11,2968,5,1000,viruses,Christel Hassler
ACE03,11,2968,6,1000,viruses,Christel Hassler
ACE03,11,2968,7,1000,oxygen-18 isotope,Katherine Leonard
ACE03,11,2968,7,1000,salinity,Katherine Leonard
ACE03,12,2970,20,5,bacteria,Sarah Fawcett
ACE03,12,2970,20,5,Chlorophyll-a,David Antoine
ACE03,12,2970,20,5,particle size distribution using the Coulter Counter,David Antoine
ACE03,12,2970,20,5,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,12,2970,20,5,phytoplankton,Sarah Fawcett
ACE03,12,2970,20,5,pigments,David Antoine
ACE03,12,2970,21,5,bacteria,Sarah Fawcett
ACE03,12,2970,21,5,coomasie stainable particles,Rafel Simó
ACE03,12,2970,21,5,phytoplankton,Sarah Fawcett
ACE03,12,2970,21,5,transparent exopolymeric particles,Rafel Simó
ACE03,12,2970,21,5,volatile organic compounds,Rafel Simó
ACE03,12,2970,22,5,bacteria,Sarah Fawcett
ACE03,12,2970,22,5,Particulate and dissolved methylamines,Rafel Simó
ACE03,12,2970,22,5,phytoplankton,Sarah Fawcett
ACE03,12,2970,23,5,bacteria,Christel Hassler
ACE03,12,2970,23,5,genetics,Nicolas Cassar
ACE03,12,2970,12,15,metaviromes,Christel Hassler
ACE03,12,2970,13,15,metaviromes,Christel Hassler
ACE03,12,2970,14,15,metaviromes,Christel Hassler
ACE03,12,2970,15,15,metaviromes,Christel Hassler
ACE03,12,2970,16,15,metaviromes,Christel Hassler
ACE03,12,2970,17,15,bacteria,Christel Hassler
ACE03,12,2970,17,15,genetics,Nicolas Cassar
ACE03,12,2970,18,15,coomasie stainable particles,Rafel Simó
ACE03,12,2970,18,15,DNA,Sarah Fawcett
ACE03,12,2970,18,15,transparent exopolymeric particles,Rafel Simó
ACE03,12,2970,18,15,volatile organic compounds,Rafel Simó
ACE03,12,2970,19,15,Chlorophyll-a,David Antoine
ACE03,12,2970,19,15,metaviromes,Christel Hassler
ACE03,12,2970,19,15,particle size distribution using the Coulter Counter,David Antoine
ACE03,12,2970,19,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,12,2970,19,15,pigments,David Antoine
ACE03,12,2970,9,30,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,12,2970,10,30,Chlorophyll-a,David Antoine
ACE03,12,2970,10,30,coomasie stainable particles,Rafel Simó
ACE03,12,2970,10,30,particle size distribution using the Coulter Counter,David Antoine
ACE03,12,2970,10,30,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,12,2970,10,30,pigments,David Antoine
ACE03,12,2970,10,30,transparent exopolymeric particles,Rafel Simó
ACE03,12,2970,10,30,volatile organic compounds,Rafel Simó
ACE03,12,2970,11,30,DNA,Sarah Fawcett
ACE03,12,2970,4,70,bacteria,Christel Hassler
ACE03,12,2970,4,70,genetics,Nicolas Cassar
ACE03,12,2970,5,70,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,12,2970,6,70,bacteria,Sarah Fawcett
ACE03,12,2970,6,70,Chlorophyll-a,David Antoine
ACE03,12,2970,6,70,particle size distribution using the Coulter Counter,David Antoine
ACE03,12,2970,6,70,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,12,2970,6,70,phytoplankton,Sarah Fawcett
ACE03,12,2970,6,70,pigments,David Antoine
ACE03,12,2970,7,70,bacteria,Sarah Fawcett
ACE03,12,2970,7,70,coomasie stainable particles,Rafel Simó
ACE03,12,2970,7,70,phytoplankton,Sarah Fawcett
ACE03,12,2970,7,70,transparent exopolymeric particles,Rafel Simó
ACE03,12,2970,7,70,volatile organic compounds,Rafel Simó
ACE03,12,2970,8,70,bacteria,Sarah Fawcett
ACE03,12,2970,8,70,phytoplankton,Sarah Fawcett
ACE03,12,2970,2,90,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,12,2970,3,90,Chlorophyll-a,David Antoine
ACE03,12,2970,3,90,coomasie stainable particles,Rafel Simó
ACE03,12,2970,3,90,particle size distribution using the Coulter Counter,David Antoine
ACE03,12,2970,3,90,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,12,2970,3,90,pigments,David Antoine
ACE03,12,2970,3,90,transparent exopolymeric particles,Rafel Simó
ACE03,12,2970,3,90,volatile organic compounds,Rafel Simó
ACE03,13,3114,19,5,biogenic silica,Michael Ellwood
ACE03,13,3114,19,5,genetics,Nicolas Cassar
ACE03,13,3114,19,5,nutrients,Michael Ellwood
ACE03,13,3114,18,15,biogenic silica,Michael Ellwood
ACE03,13,3114,18,15,DNA,Sarah Fawcett
ACE03,13,3114,18,15,n&ns,Sarah Fawcett
ACE03,13,3114,18,15,nutrients,Michael Ellwood
ACE03,13,3114,18,15,particulate organic carbon,Sarah Fawcett
ACE03,13,3114,16,30,n&ns,Sarah Fawcett
ACE03,13,3114,16,30,particulate organic carbon,Sarah Fawcett
ACE03,13,3114,17,30,biogenic silica,Michael Ellwood
ACE03,13,3114,17,30,DNA,Sarah Fawcett
ACE03,13,3114,17,30,nutrients,Michael Ellwood
ACE03,13,3114,15,45,biogenic silica,Michael Ellwood
ACE03,13,3114,15,45,n&ns,Sarah Fawcett
ACE03,13,3114,15,45,nutrients,Michael Ellwood
ACE03,13,3114,15,45,particulate organic carbon,Sarah Fawcett
ACE03,13,3114,14,75,biogenic silica,Michael Ellwood
ACE03,13,3114,14,75,n&ns,Sarah Fawcett
ACE03,13,3114,14,75,nutrients,Michael Ellwood
ACE03,13,3114,14,75,particulate organic carbon,Sarah Fawcett
ACE03,13,3114,13,100,biogenic silica,Michael Ellwood
ACE03,13,3114,13,100,n&ns,Sarah Fawcett
ACE03,13,3114,13,100,nutrients,Michael Ellwood
ACE03,13,3114,13,100,particulate organic carbon,Sarah Fawcett
ACE03,13,3114,12,130,n&ns,Sarah Fawcett
ACE03,13,3114,12,130,particulate organic carbon,Sarah Fawcett
ACE03,13,3114,8,150,biogenic silica,Michael Ellwood
ACE03,13,3114,8,150,n&ns,Sarah Fawcett
ACE03,13,3114,8,150,nutrients,Michael Ellwood
ACE03,13,3114,8,150,viruses,Christel Hassler
ACE03,13,3114,9,150,bacteria,Christel Hassler
ACE03,13,3114,9,150,coomasie stainable particles,Rafel Simó
ACE03,13,3114,9,150,genetics,Nicolas Cassar
ACE03,13,3114,9,150,transparent exopolymeric particles,Rafel Simó
ACE03,13,3114,9,150,volatile organic compounds,Rafel Simó
ACE03,13,3114,10,150,viruses,Christel Hassler
ACE03,13,3114,11,150,viruses,Christel Hassler
ACE03,13,3114,7,200,biogenic silica,Michael Ellwood
ACE03,13,3114,7,200,n&ns,Sarah Fawcett
ACE03,13,3114,7,200,nutrients,Michael Ellwood
ACE03,13,3114,6,400,biogenic silica,Michael Ellwood
ACE03,13,3114,6,400,n&ns,Sarah Fawcett
ACE03,13,3114,6,400,nutrients,Michael Ellwood
ACE03,13,3114,5,500,biogenic silica,Michael Ellwood
ACE03,13,3114,5,500,n&ns,Sarah Fawcett
ACE03,13,3114,5,500,nutrients,Michael Ellwood
ACE03,13,3114,4,600,n&ns,Sarah Fawcett
ACE03,13,3114,3,750,biogenic silica,Michael Ellwood
ACE03,13,3114,3,750,n&ns,Sarah Fawcett
ACE03,13,3114,3,750,nutrients,Michael Ellwood
ACE03,13,3114,2,1000,biogenic silica,Michael Ellwood
ACE03,13,3114,2,1000,genetics,Nicolas Cassar
ACE03,13,3114,2,1000,n&ns,Sarah Fawcett
ACE03,13,3114,2,1000,nutrients,Michael Ellwood
ACE03,13,3114,2,1000,oxygen-18 isotope,Katherine Leonard
ACE03,13,3114,2,1000,salinity,Katherine Leonard
ACE03,13,3114,1,1500,n&ns,Sarah Fawcett
ACE03,13,3114,1,1500,oxygen-18 isotope,Katherine Leonard
ACE03,13,3114,1,1500,salinity,Katherine Leonard
ACE03,14,3117,20,5,Chlorophyll-a,David Antoine
ACE03,14,3117,20,5,metaviromes,Christel Hassler
ACE03,14,3117,20,5,particle size distribution using the Coulter Counter,David Antoine
ACE03,14,3117,20,5,Particulate and dissolved methylamines,Rafel Simó
ACE03,14,3117,20,5,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,14,3117,20,5,pigments,David Antoine
ACE03,14,3117,21,5,coomasie stainable particles,Rafel Simó
ACE03,14,3117,21,5,metaviromes,Christel Hassler
ACE03,14,3117,21,5,transparent exopolymeric particles,Rafel Simó
ACE03,14,3117,21,5,volatile organic compounds,Rafel Simó
ACE03,14,3117,22,5,metaviromes,Christel Hassler
ACE03,14,3117,23,5,metaviromes,Christel Hassler
ACE03,14,3117,13,15,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,14,3117,14,15,coomasie stainable particles,Rafel Simó
ACE03,14,3117,14,15,DNA,Sarah Fawcett
ACE03,14,3117,14,15,transparent exopolymeric particles,Rafel Simó
ACE03,14,3117,14,15,volatile organic compounds,Rafel Simó
ACE03,14,3117,15,15,metaviromes,Christel Hassler
ACE03,14,3117,16,15,metaviromes,Christel Hassler
ACE03,14,3117,17,15,bacteria,Christel Hassler
ACE03,14,3117,17,15,genetics,Nicolas Cassar
ACE03,14,3117,18,15,metaviromes,Christel Hassler
ACE03,14,3117,19,15,Chlorophyll-a,David Antoine
ACE03,14,3117,19,15,particle size distribution using the Coulter Counter,David Antoine
ACE03,14,3117,19,15,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,14,3117,19,15,pigments,David Antoine
ACE03,14,3117,7,30,bacteria,Christel Hassler
ACE03,14,3117,7,30,genetics,Nicolas Cassar
ACE03,14,3117,8,30,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,14,3117,9,30,bacteria,Sarah Fawcett
ACE03,14,3117,9,30,Chlorophyll-a,David Antoine
ACE03,14,3117,9,30,particle size distribution using the Coulter Counter,David Antoine
ACE03,14,3117,9,30,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,14,3117,9,30,phytoplankton,Sarah Fawcett
ACE03,14,3117,9,30,pigments,David Antoine
ACE03,14,3117,10,30,bacteria,Sarah Fawcett
ACE03,14,3117,10,30,coomasie stainable particles,Rafel Simó
ACE03,14,3117,10,30,phytoplankton,Sarah Fawcett
ACE03,14,3117,10,30,transparent exopolymeric particles,Rafel Simó
ACE03,14,3117,10,30,volatile organic compounds,Rafel Simó
ACE03,14,3117,11,30,bacteria,Sarah Fawcett
ACE03,14,3117,11,30,phytoplankton,Sarah Fawcett
ACE03,14,3117,12,30,DNA,Sarah Fawcett
ACE03,14,3117,5,45,fluorescence-activated cell sorting,Sarah Fawcett
ACE03,14,3117,6,45,Chlorophyll-a,David Antoine
ACE03,14,3117,6,45,coomasie stainable particles,Rafel Simó
ACE03,14,3117,6,45,particle size distribution using the Coulter Counter,David Antoine
ACE03,14,3117,6,45,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,14,3117,6,45,pigments,David Antoine
ACE03,14,3117,6,45,transparent exopolymeric particles,Rafel Simó
ACE03,14,3117,6,45,volatile organic compounds,Rafel Simó
ACE03,14,3117,4,75,Chlorophyll-a,David Antoine
ACE03,14,3117,4,75,coomasie stainable particles,Rafel Simó
ACE03,14,3117,4,75,particle size distribution using the Coulter Counter,David Antoine
ACE03,14,3117,4,75,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,14,3117,4,75,pigments,David Antoine
ACE03,14,3117,4,75,transparent exopolymeric particles,Rafel Simó
ACE03,14,3117,4,75,volatile organic compounds,Rafel Simó
ACE03,14,3117,3,100,Chlorophyll-a,David Antoine
ACE03,14,3117,3,100,particle size distribution using the Coulter Counter,David Antoine
ACE03,14,3117,3,100,photo-physiology using the fast repetition rate fluorometer,David Antoine
ACE03,14,3117,3,100,pigments,David Antoine
ACE03,14,3117,1,1000,metaviromes,Christel Hassler
ACE03,14,3117,2,1000,metaviromes,Christel Hassler