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Title | Published in | Access level | OA Policy | Year | Views | Downloads | |
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Genomic insights into the coupling of a Chlorella-like microeukaryote and sulfur bacteria in the chemocline of permanently stratified Lake Cadagno | The ISME journal | 2023 | 39 | 15 | |||
Bacterial, Phytoplankton, and Viral Distributions and Their Biogeochemical Contexts in Meromictic Lake Cadagno Offer Insights into the Proterozoic Ocean Microbial Loop | MBio | 2022 | 70 | 32 | |||
Effect of salinity and temperature on the determination of dissolved iron-binding organic ligands in the polar marine environment | Marine chemistry | 2021 | 164 | 67 | |||
Electrochemical evaluation of iron-binding ligands along the Australian GEOTRACES southwestern Pacific section (GP13) | Marine chemistry | 2020 | 120 | 0 | |||
Using Fe chemistry to predict Fe uptake rates for natural plankton assemblages from the Southern Ocean | Marine chemistry | 2020 | 160 | 1 | |||
Iron isotope transformations in the meromictic Lake Cadagno | Geochimica et cosmochimica acta | 2019 | 145 | 0 | |||
Response of phytoplankton from the metalimnetic chlorophyll maximum to macro- and micro-nutrients amendments in Lake Geneva | Journal of Great Lakes research | 2019 | 116 | 0 | |||
The GEOTRACES Intermediate Data Product 2017 | Chemical Geology | 2018 | 418 | 274 | |||
Single cell genomes of Prochlorococcus, Synechococcus, and sympatric microbes from diverse marine environments | Scientific Data | 2018 | 498 | 203 | |||
Elemental stoichiometry and photophysiology regulation of Synechococcus sp. PCC7002 under increasing severity of chronic iron limitation | Plant and Cell Physiology | 2018 | 472 | 135 | |||
A database of chlorophyll a in Australian waters | Scientific Data | 2018 | 474 | 181 | |||
Marine microbial metagenomes sampled across space and time | Scientific Data | 2018 | 388 | 169 | |||
Insights Into the Biogeochemical Cycling of Iron, Nitrate, and Phosphate Across a 5,300 km South Pacific Zonal Section (153°E-150°W) | Global Biogeochemical Cycles | 2018 | 621 | 345 | |||
Editorial: Organic Ligands: A Key Control on Trace Metal Biogeochemistry in the Ocean | Frontiers in Marine Science | 2017 | 477 | 189 | |||
Dissolved zinc isotope cycling in the Tasman Sea, SW Pacific Ocean | Marine chemistry | 2017 | 621 | 126 | |||
Toward a Regional Classification to Provide a More Inclusive Examination of the Ocean Biogeochemistry of Iron-Binding Ligands | Frontiers in marine science | 2017 | 815 | 553 | |||
First Evaluation of the Role of Salp Fecal Pellets on Iron Biogeochemistry | Frontiers in marine science | 2017 | 519 | 271 | |||
Iron sources alter the response of Southern Ocean phytoplankton to ocean acidification | Marine ecology. Progress series | 2017 | 684 | 345 | |||
Zinc requirement for two phytoplankton strains of the Tasman Sea | Marine and freshwater research | 2017 | 578 | 0 | |||
Assessing the Dynamics of Organic Aerosols over the North Atlantic Ocean | Scientific reports | 2017 | 894 | 312 | |||
Long-Term Acclimation to Iron Limitation Reveals New Insights in Metabolism Regulation of Synechococcus sp. PCC7002 | Frontiers in marine science | 2017 | 489 | 239 | |||
Nutrient uplift in a cyclonic eddy increases diversity, primary productivity and iron demand of microbial communities relative to a western boundary current | PeerJ | 2016 | 559 | 311 | |||
Zinc cycling in the Tasman Sea: Distribution, speciation and relation to phytoplankton community | Marine chemistry | 2016 | 565 | 1 | |||
A database of marine phytoplankton abundance, biomass and species composition in Australian waters | Scientific data | 2016 | 567 | 327 | |||
Southern Ocean phytoplankton physiology in a changing climate | Journal of plant physiology | 2016 | 619 | 1 | |||
Iron associated with exopolymeric substances is highly bioavailable to oceanic phytoplankton | Marine chemistry | 2015 | 658 | 2 | |||
Physiological characteristics of open ocean and coastal phytoplankton communities of Western Antarctic Peninsula and Drake Passage waters | Deep-sea research. Part 1. Oceanographic research papers | 2015 | 572 | 215 | |||
Ecotoxicological Effects of an Arsenic Remediation Method on Three Freshwater Organisms: Lemna disperma, Chlorella sp. CE-35 and Ceriodaphnia cf. dubia | Water, air and soil pollution | 2015 | 487 | 0 | |||
The role of bacterial and algal exopolymeric substances in iron chemistry | Marine chemistry | 2015 | 700 | 6 | |||
The impact of iron limitation on the physiology of the Antarctic diatom Chaetoceros simplex | Marine biology | 2014 | 661 | 590 | |||
Primary productivity induced by iron and nitrogen in the Tasman Sea: an overview of the PINTS expedition | Marine and freshwater research | 2014 | 734 | 2 | |||
Iron Biogeochemistry in Aquatic Systems: From Source to Bioavailability | Chimia | 2014 | 631 | 3 | |||
Toxicity of arsenic species to three freshwater organisms and biotransformation of inorganic arsenic by freshwater phytoplankton (Chlorella sp. CE-35) | Ecotoxicology and environmental safety | 2014 | 581 | 2 | |||
Is arsenic biotransformation a detoxification mechanism for microorganisms? | Aquatic toxicology | 2014 | 710 | 6 | |||
The environmental bioinorganic chemistry of aquatic microbial organisms | Frontiers in microbiology | 2013 | 548 | 980 | |||
Measurement of iron chemical speciation in seawater at 4°C: The use of competitive ligand exchange–adsorptive cathodic stripping voltammetry | Marine chemistry | 2013 | 598 | 3 | |||
Iron Limitation Modulates Ocean Acidification Effects on Southern Ocean Phytoplankton Communities | PloS one | 2013 | 654 | 388 | |||
Ecotoxicology of Arsenic in The Freshwater Environment: Consequences and Risk Assessment | Arsenic: Sources, Environmental Impact, Toxicity and Human Health : A Medical Geology Perspective | 2013 | 805 | 0 | |||
The likelihood of observing dust-stimulated phytoplankton growth in waters proximal to the Australian continent | Journal of marine systems | 2013 | 521 | 0 | |||
Iron plays a role in nitrate drawdown by phytoplankton in Lake Erie surface waters as observed in lake-wide assessments | Canadian journal of fisheries and aquatic sciences | 2012 | 700 | 2 | |||
Zinc marine biogeochemistry in seawater: a review | Marine and freshwater research | 2012 | 639 | 1 | |||
Exploring the link between micronutrients and phytoplankton in the Southern Ocean during the 2007 austral summer | Frontiers in microbiology | 2012 | 549 | 441 | |||
Iron bioavailability in the Southern Ocean | Oceanography and Marine Biology | 2012 | 571 | 0 | |||
Phytoplankton selenium requirements: the case for species isolated from temperate and polar regions of the Southern Hemisphere | Journal of phycology | 2012 | 889 | 1 | |||
Contrasting oceanographic conditions and phytoplankton communities on the east and west coasts of Australia | Deep-sea research. Part 2. Topical studies in oceanography | 2011 | 579 | 0 | |||
Iron-limitation and high light stress on phytoplankton populations from the Australian Sub-Antarctic Zone (SAZ) | Deep-sea research. Part 2. Topical studies in oceanography | 2011 | 592 | 0 | |||
Exopolysaccharides produced by bacteria isolated from the pelagic Southern Ocean — Role in Fe binding, chemical reactivity, and bioavailability | Marine chemistry | 2011 | 1,017 | 2 | |||
Saccharides enhance iron bioavailability to Southern Ocean phytoplankton | Proceedings of the National Academy of Sciences of the United States of America | 2011 | 622 | 0 | |||
Characterisation of water masses and phytoplankton nutrient limitation in the East Australian Current separation zone during spring 2008 | Deep-sea research. Part 2. Topical studies in oceanography | 2011 | 630 | 0 | |||
The strengthening East Australian Current, its eddies and biological effects — an introduction and overview | Deep-sea research. Part 2. Topical studies in oceanography | 2011 | 539 | 1 | |||
Iron biogeochemistry across marine systems – progress from the past decade | Biogeosciences | 2010 | 887 | 719 | |||
Discriminating between intra- and extracellular metals using chemical extractions: an update on the case of iron | Limnology and oceanography, methods | 2009 | 593 | 1 | |||
A Novel In Situ Tool for the Exposure and Analysis of Microorganisms in Natural Aquatic Systems | Environmental science & technology | 2009 | 597 | 1 | |||
Bioavailability of organically bound Fe to model phytoplankton of the Southern Ocean | Biogeosciences | 2009 | 925 | 981 | |||
An evaluation of iron bioavailability and speciation in western Lake Superior with the use of combined physical, chemical, and biological assessment | Limnology and oceanography | 2009 | 572 | 589 | |||
Porous Underwater Chamber (PUC) for in-situ determination of nutrient and pollutant bioavailability to microorganisms | Limnology and oceanography, methods | 2008 | 602 | 4 | |||
Application of the biotic ligand model to explain potassium interaction with thallium uptake and toxicity to plankton | Environmental toxicology and chemistry | 2007 | 563 | 0 | |||
Bioavailability of Iron Sensed by a Phytoplanktonic Fe-Bioreporter | Environmental science & technology | 2006 | 567 | 2 | |||
Bioavailability of trace metals to aquatic microorganisms: importance of chemical, biological and physical processes on biouptake | Biochimie | 2006 | 602 | 5 | |||
Optimization of iron-dependent cyanobacterial (Synechococcus, Cyanophyceae) bioreporters to measure iron bioavailability | Journal of phycology | 2006 | 551 | 2 | |||
Impact of zinc acclimation on bioaccumulation and homeostasis in Chlorella kesslerii | Aquatic toxicology | 2005 | 553 | 1 | |||
Discriminating between intra- and extracellular metals using chemical extractions | Limnology and oceanography, methods | 2004 | 627 | 0 | |||
Some fundamental (and often overlooked) considerations underlying the free ion activity and biotic ligand models | Environmental toxicology and chemistry | 2004 | 475 | 696 | |||
Failure of the biotic ligand and free-ion activity models to explain zinc bioaccumulation by Chlorella kesslerii | Environmental toxicology and chemistry | 2003 | 459 | 2 | |||
Physicochemical mechanisms of trace metal bioaccumulation by microorganisms | Chimia | 2002 | 594 | 0 |