Profiles

Delphine Lannuzel

UTAS Home Associate Professor Delphine Lannuzel

Delphine Lannuzel

Deputy Head, Centre for Oceans & Cryosphere

IMAS Hobart , Hobart CBD Campuses

+61 3 6226 7646 (phone)

delphine.lannuzel@utas.edu.au

Associate Professor Delphine Lannuzel is an ARC DECRA fellow at the Institute for Marine and Antarctic Studies. She is interested in the field of sea ice biogeochemistry.

Biography

Delphine was awarded her PhD in September 2006, at the Université Libre de Bruxelles upon presentation of a thesis on 'The Biogeochemistry of Iron in the Antarctic sea ice Environment'. She did her undergraduate degree at the Institut Universitaire Européen de la Mer, Brest, France.

Career summary

Qualifications

  • PhD (2006): The Biogeochemistry of Iron in the Antarctic sea ice Environment. Université Libre de Bruxelles, Belgium
  • DEA (2001): The Institut Universitaire Européen de la Mer, France

Languages (other than English)

Native French speaker

Memberships

Committee associations

Member of the SCOR working group on sea ice biogeochemistry

Other

  • EGU membership
  • IGS membership

Teaching

Marine chemistry, trace metals, Southern Ocean, sea ice, glaciers, cryosphere, primary productivity, environmental analytical techniques

Teaching expertise

Associate Professor Lannuzel has been giving lectures on marine chemistry to undergraduate students. She is currently designing lectures on sea ice biogeochemistry for the Ocean University of China as part of an Australia-China Program.

Research Appointments

Associate Professor Lannuzel has been recently appointed an ongoing senior lecturer at the Institute for Marine and Antarctic Studies.

View more on Professor Delphine Lannuzel in WARP

Expertise

Associate Professor Delphine Lannuzel is a specialist in sea ice biogeochemistry, based at the Institute for Marine and Antarctic Studies (IMAS). Her research examines the interaction between the chemistry and biology in the sea ice environment. Her skills lie in the fields of sea ice biogeochemistry, trace elements, chemical oceanography, and environmental analytical chemistry. She is internationally regarded for her research on the iron cycle in sea ice.

Research Themes

Delphine's research lies in the study of trace metals in the sea ice environment. The iron and other trace elements profiles generated during her research represented the first data for the Antarctic pack ice zone. Her pioneer work highlighted the accumulation of trace element iron in the sea ice medium and therefore the paramount importance of Antarctic sea ice to iron biogeochemical cycling in polar ecosystems.

Collaboration

Associate Professor Lannuzel collaborates with national and international research centres spanning across the field of glaciology, oceanography and atmospheric sciences.

Current national collaborations:

  • Griffiths University, Queensland: Role of Persistent Organic Pollutants in the sea ice environment

Current international collaborations:

  • Vrije Universiteit, Brussel, Belgium: impact of changes in sea ice extent on primary productivity in the Southern Ocean: links between the iron and carbon cycles in fast ice and the marginal ice zone
  • Virginia Institute for Marine Science: impact of changes in sea ice extent on primary productivity in the Southern Ocean: links between the iron and carbon cycles in fast ice and the marginal ice zone
  • University of Genoa, Genova, Italy: Role of organic ligands in the cycle of iron in Antarctic sea ice
  • University of Hokkaido, Japan: Dissolution of iron from sea ice particles

Awards

  • ARC DECRA, 2012 ($375,000)
  • Recipient of the University of Tasmania Vice Chancellor Award for Research Excellence, 2011
  • Japan Society for the promotion of Science (JSPS) award, 2011
  • ARC APD Fellowship, 2009 ($325,000)
  • Scientific Committee on Antarctic Research (SCAR) international fellowship, 2007

Current projects

Associate Professor Lannuzel is currently finishing her DECRA project which aims at assessing the importance of sea ice as a natural fertiliser in the climatically important polar region.

She is also leading a field work program at Davis station to study the Impact of changes in sea ice extent on primary productivity in the Southern Ocean: links between the iron and carbon cycles in fast ice and the marginal ice zone.

Fields of Research

  • Chemical oceanography (370802)
  • Biological oceanography (370801)
  • Marine and estuarine ecology (incl. marine ichthyology) (310305)
  • Glaciology (370902)
  • Ecosystem function (410203)
  • Atmospheric composition, chemistry and processes (370104)
  • Physical oceanography (370803)
  • Analytical spectrometry (340101)
  • Climate change processes (370201)
  • Inorganic chemistry (340299)
  • Oceanography (370899)
  • Physical geography and environmental geoscience (370999)
  • Instrumental methods (excl. immunological and bioassay methods) (340105)
  • Ecology (310399)
  • Pollution and contamination (410599)
  • Ecological impacts of climate change and ecological adaptation (410102)
  • Greenhouse gas inventories and fluxes (370203)
  • Animal immunology (310905)
  • Ocean engineering (401503)
  • Organic geochemistry (370304)
  • Atmospheric aerosols (370103)
  • Behavioural ecology (310301)
  • Earth system sciences (379901)

Research Objectives

  • Measurement and assessment of marine water quality and condition (180505)
  • Antarctic and Southern Ocean oceanic processes (180402)
  • Other environmental management (189999)
  • Effects of climate change on Antarctic and sub-Antarctic environments (excl. social impacts) (190503)
  • Expanding knowledge in the earth sciences (280107)
  • Biodiversity in Antarctic and Southern Ocean environments (180404)
  • Assessment and management of coastal and estuarine ecosystems (180201)
  • Climate change adaptation measures (excl. ecosystem) (190101)
  • Ecosystem adaptation to climate change (190102)
  • Assessment and management of terrestrial ecosystems (180601)
  • Climate variability (excl. social impacts) (190502)
  • Expanding knowledge in the environmental sciences (280111)
  • Assessment and management of benthic marine ecosystems (180501)
  • Management of Antarctic and Southern Ocean environments (180499)
  • Antarctic and Southern Ocean ice dynamics (180401)
  • Climate change models (190501)
  • Expanding knowledge in the biological sciences (280102)
  • Social impacts of climate change and variability (190103)
  • Assessment and management of Antarctic and Southern Ocean ecosystems (180403)
  • Effects of climate change on the South Pacific (excl. Australia and New Zealand) (excl. social impacts) (190506)
  • Fisheries - aquaculture (100299)
  • Clinical health (200199)
  • Effects of climate change on Australia (excl. social impacts) (190504)

Publications

Sampling and analytical instrumentation for trace metal marine chemistry

Development of a novel method for sampling and measuring trace elements in the sea ice environment, since such technologies did not presently exist worldwide (Lannuzel et al., 2006). Design of fully automated, stand-alone flow injection instrumentation and appropriate chemistries for the on-line mapping and speciation of trace metals in marine samples (Lannuzel et al., 2006; Queroue et al., 2014; Lannuzel et al., 2015b). Set up reliable and efficient digestion and analytical technique for the determination of metals in marine particles (Bowie et al., 2010).

Trace metal biogeochemistry in sea ice

Spatial and temporal distribution of minor and major nutrients in samples of sea ice, snow, brine and the underlying seawater. Publication of the first detailed profiles of trace metals distribution in Antarctic pack ice (iron, aluminium, manganese, barium, copper, zinc, cadmium, molybdenum and chromium) (Lannuzel et al., 2011a; 2014a) Use of aluminium and manganese as tracers of dust deposition and sediment re-suspension (Lannuzel et al., 2014; Lannuzel et al., 2015a). Elucidate trace metal main sources and pathways to Antarctic sea ice (van der Merwe et al., 2011b; Lannuzel et al, 2007;2008;2015a). Discovery that most of iron is associated to organic matter in Antarctic sea ice (Schoemann et al., 2008;Lannuzel et al., 2015b).

Iron control of Southern Ocean productivity

Report spatial, seasonal and inter-annual variability of iron distribution in the Southern Ocean and demonstrate the paramount importance of iron in the polar ecosystem. Generate iron vertical profiles along the SR3-section (Tagliabue et al., 2009) and in waters South of Tasmania (Bowie et al., 2009; Lannuzel et al., 2011b) as a mean to elucidate the zonal differences in phytoplankton productivity in the Southern Ocean.

Total publications

87

Journal Article

(66 outputs)
YearCitationAltmetrics
2023Corkill M, Moreau S, Janssens J, Fraser AD, Heil P, et al., 'Physical and biogeochemical properties of rotten East Antarctic summer sea ice', Journal of Geophysical Research: Oceans, 128, (2) Article e2022JC018875. ISSN 2169-9275 (2023) [Refereed Article]

DOI: 10.1029/2022JC018875 [eCite] [Details]

Co-authors: Corkill M; Fraser AD; Heil P; Cougnon EA; Genovese C; Meiners KM; Wongpan P

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2023Lannuzel D, Fourquez M, de Jong J, Tison J-L, Delille B, et al., 'First report on biological iron uptake in the Antarctic sea‑ice environment', Polar Biology pp. 1-17. ISSN 0722-4060 (2023) [Refereed Article]

DOI: 10.1007/s00300-023-03127-7 [eCite] [Details]

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2022Genovese C, Grotti M, Ardini F, Corkill MJ, Duprat LP, et al., 'A proposed seasonal cycle of dissolved iron-binding ligands in Antarctic sea ice', Elementa, 10, (1) Article 00030. ISSN 2325-1026 (2022) [Refereed Article]

DOI: 10.1525/elementa.2021.00030 [eCite] [Details]

Co-authors: Genovese C; Corkill MJ; Wuttig K; Townsend AT

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2022Genovese C, Grotti M, Ardini F, Wuttig K, Vivado D, et al., 'Effect of salinity and temperature on the determination of dissolved iron-binding organic ligands in the polar marine environment', Marine Chemistry, 238 Article 104051. ISSN 0304-4203 (2022) [Refereed Article]

DOI: 10.1016/j.marchem.2021.104051 [eCite] [Details]

Citations: Scopus - 3Web of Science - 2

Co-authors: Genovese C; Wuttig K; Townsend A

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2022Ratnarajah L, Puigcorbe V, Moreau S, Roca-Marti M, Janssens J, et al., 'Distribution and export of particulate organic carbon in East Antarctic coastal polynyas', Deep-Sea Research. Part 1, 190 Article 103899. ISSN 0967-0637 (2022) [Refereed Article]

DOI: 10.1016/j.dsr.2022.103899 [eCite] [Details]

Citations: Scopus - 1Web of Science - 1

Co-authors: Ratnarajah L; Moreau S; Janssens J; Corkill M; Genovese C; Lieser J

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2022Smith AJR, Nelson T, Ratnarajah L, Genovese C, Westwood K, et al., 'Identifying potential sources of iron-binding ligands in coastal Antarctic environments and the wider Southern Ocean', Frontiers in Marine Science, 9 Article 948772. ISSN 2296-7745 (2022) [Refereed Article]

DOI: 10.3389/fmars.2022.948772 [eCite] [Details]

Co-authors: Smith AJR; Nelson T; Ratnarajah L; Westwood K; Holmes TM; Corkill M; Townsend AT; Wuttig K

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2021Duprat L, Townsend AT, van der Merwe P, Meiners KM, Lannuzel D, 'Spatial and seasonal distribution of dissolved and particulate bioactive metals in Antarctic sea ice', Elementa, 9, (1) Article 00032. ISSN 2325-1026 (2021) [Refereed Article]

DOI: 10.1525/elementa.2021.00032 [eCite] [Details]

Co-authors: Townsend AT; van der Merwe P

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2021Roukaerts A, Deman F, Van der Linden F, Carnat G, Bratkic A, et al., 'The biogeochemical role of a microbial biofilm in sea ice: Antarctic landfast sea ice as a case study', Elementa, 9, (1) Article 00134. ISSN 2325-1026 (2021) [Refereed Article]

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2021Smith AJR, Ratnarajah L, Holmes TM, Wuttig K, Townsend AT, et al., 'Circumpolar deep water and shelf sediments support late summer microbial iron remineralization', Global Biogeochemical Cycles, 35, (11) Article 2020GB006921. ISSN 0886-6236 (2021) [Refereed Article]

DOI: 10.1029/2020GB006921 [eCite] [Details]

Citations: Scopus - 5Web of Science - 5

Co-authors: Smith AJR; Ratnarajah L; Holmes TM; Wuttig K; Townsend AT; Bell E; Nicol S

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2021Steiner NS, Bowman J, Campbell K, Chierici M, Eronen-Rasimus E, et al., 'Climate change impacts on sea-ice ecosystems and associated ecosystem services', Elementa, 9, (1) Article 00007. ISSN 2325-1026 (2021) [Refereed Article]

DOI: 10.1525/elementa.2021.00007 [eCite] [Details]

Citations: Scopus - 12Web of Science - 11

Co-authors: Meiners KM; Wongpan P

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2021Vallelonga P, de Gois JS, Borges DLG, Costas-Rodriguez M, Gkinis V, et al., 'Concentration and isotopic composition of bromine and chlorine in Antarctic sea ice', Geochimica et Cosmochimica Acta, 293 pp. 18-27. ISSN 0016-7037 (2021) [Refereed Article]

DOI: 10.1016/j.gca.2020.10.020 [eCite] [Details]

Citations: Scopus - 1Web of Science - 1

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2020Duprat L, Corkill M, Genovese C, Townsend AT, Moreau S, et al., 'Nutrient distribution in East Antarctic summer sea ice: a potential iron contribution from glacial basal melt', JGR Oceans, 125, (12) Article e2020JC016130. ISSN 2169-9275 (2020) [Refereed Article]

DOI: 10.1029/2020JC016130 [eCite] [Details]

Citations: Scopus - 13Web of Science - 11

Co-authors: Corkill M; Genovese C; Townsend AT; Meiners KM

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2020Kanna N, Lannuzel D, van der Merwe P, Nishioka J, 'Size fractionation and bioavailability of iron released from melting sea ice in a subpolar marginal sea', Marine Chemistry, 221 Article 103774. ISSN 0304-4203 (2020) [Refereed Article]

DOI: 10.1016/j.marchem.2020.103774 [eCite] [Details]

Citations: Scopus - 5Web of Science - 3

Co-authors: van der Merwe P

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2020Kelly AA, Lannuzel D, Rodemann T, Meiners KM, Auman HJ, 'Microplastic contamination in east Antarctic sea ice', Marine Pollution Bulletin, 154 Article 111130. ISSN 0025-326X (2020) [Refereed Article]

DOI: 10.1016/j.marpolbul.2020.111130 [eCite] [Details]

Citations: Scopus - 118Web of Science - 102

Co-authors: Kelly AA; Rodemann T; Meiners KM; Auman HJ

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2020Lannuzel D, Tedesco L, van Leeuwe M, Campbell K, Flores H, et al., 'The future of Arctic sea-ice biogeochemistry and ice-associated ecosystems', Nature Climate Change, 10 pp. 983-992. ISSN 1758-678X (2020) [Refereed Article]

DOI: 10.1038/s41558-020-00940-4 [eCite] [Details]

Citations: Scopus - 52Web of Science - 47

Co-authors: Wongpan P

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2020Liniger GG, Strutton PG, Lannuzel D, Moreau S, 'Calving event led to changes in phytoplankton bloom phenology in the Mertz polynya, Antarctica', Journal of Geophysical Research: Oceans, 125, (11) Article e2020JC016387. ISSN 2169-9275 (2020) [Refereed Article]

DOI: 10.1029/2020JC016387 [eCite] [Details]

Citations: Scopus - 7Web of Science - 6

Co-authors: Liniger GG; Strutton PG

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2019Duprat L, Kanna N, Janssens JP, Roukaerts A, Deman F, et al., 'Enhanced iron flux to Antarctic sea ice via dust deposition from ice-free coastal areas', Journal of Geophysical Research: Oceans, 124, (12) pp. 8538-8557. ISSN 2169-9275 (2019) [Refereed Article]

DOI: 10.1029/2019JC015221 [eCite] [Details]

Citations: Scopus - 13Web of Science - 11

Co-authors: Janssens JP; Townsend AT; Meiners KM; van der Merwe P

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2019Lim SM, Moreau S, Vancoppenolle M, Deman F, Roukaerts A, et al., 'Field observations and physical-biogeochemical modeling suggest low silicon affinity for Antarctic fast ice diatoms', JGR Oceans, 124, (11) pp. 7837-7853. ISSN 2169-9275 (2019) [Refereed Article]

DOI: 10.1029/2018JC014458 [eCite] [Details]

Citations: Scopus - 7Web of Science - 5

Co-authors: Moreau S; Meiners KM; Janssens JP

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2019Moreau S, Lannuzel D, Janssens JP, Arroyo MC, Corkill M, et al., 'Sea ice meltwater and circumpolar deep water drive contrasting productivity in three Antarctic polynyas', Journal of Geophysical Research: Oceans, 124, (5) pp. 2943-2968. ISSN 2169-9275 (2019) [Refereed Article]

DOI: 10.1029/2019JC015071 [eCite] [Details]

Citations: Scopus - 20Web of Science - 19

Co-authors: Moreau S; Janssens JP; Corkill M; Cougnon E; Genovese C; Legresy B; Lenton A; Ratnarajah L; Rintoul S; Rosenberg M; Strutton PG; Tilbrook B

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2019Wuttig K, Townsend AT, van der Merwe P, Gault-Ringold M, Holmes T, et al., 'Critical evaluation of a seaFAST system for the analysis of trace metals in marine samples', Talanta, 197 pp. 653-668. ISSN 0039-9140 (2019) [Refereed Article]

DOI: 10.1016/j.talanta.2019.01.047 [eCite] [Details]

Citations: Scopus - 56Web of Science - 51

Co-authors: Wuttig K; Townsend AT; van der Merwe P; Gault-Ringold M; Holmes T; Schallenberg C; Latour PM; Bowie AR

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2018Genovese C, Grotti M, Pittaluga J, Ardini F, Janssens JP, et al., 'Influence of organic complexation on dissolved iron distribution in East Antarctic pack ice', Marine Chemistry, 203 pp. 28-37. ISSN 0304-4203 (2018) [Refereed Article]

DOI: 10.1016/j.marchem.2018.04.005 [eCite] [Details]

Citations: Scopus - 15Web of Science - 13

Co-authors: Genovese C; Janssens JP; Wuttig K; Moreau S

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2018Janssens JP, Meiners KM, Townsend AT, Lannuzel D, 'Organic matter controls of iron incorporation in growing sea ice', Frontiers in Earth Science, 6 Article 22. ISSN 2296-6463 (2018) [Refereed Article]

DOI: 10.3389/feart.2018.00022 [eCite] [Details]

Citations: Scopus - 9Web of Science - 8

Co-authors: Janssens JP; Meiners KM; Townsend AT

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2018Lambelet M, van de Flierdt T, Butler ECV, Bowie AR, Rintoul SR, et al., 'The neodymium isotope fingerprint of Adelie Coast Bottom Water', Geophysical Research Letters, 45, (20) pp. 11,247-11,256. ISSN 0094-8276 (2018) [Refereed Article]

DOI: 10.1029/2018GL080074 [eCite] [Details]

Citations: Scopus - 15Web of Science - 13

Co-authors: Bowie AR; Rintoul SR; Remenyi T

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2018Meiners KM, Vancoppenolle M, Carnat G, Castellani G, Delille B, et al., 'Chlorophyll-a in Antarctic landfast sea ice: a first synthesis of historical ice core data', Journal of Geophysical Research: Oceans, 123, (11) pp. 8444-8459. ISSN 2169-9275 (2018) [Refereed Article]

DOI: 10.1029/2018JC014245 [eCite] [Details]

Citations: Scopus - 18Web of Science - 22

Co-authors: Meiners KM; Martin A; McMinn A; Swadling KM; van der Merwe P; Weldrick CK

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2017Fripiat F, Meiners KM, Vancoppenolle M, Papadimitriou S, Thomas DN, et al., 'Macro-nutrient concentrations in Antarctic pack ice: overall patterns and overlooked processes', Elementa, 5 Article 13. ISSN 2325-1026 (2017) [Refereed Article]

DOI: 10.1525/elementa.217 [eCite] [Details]

Citations: Scopus - 33Web of Science - 33

Co-authors: Meiners KM

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2017Ratnarajah L, Lannuzel D, Townsend AT, Meiners KM, Nicol S, et al., 'Physical speciation and solubility of iron from baleen whale faecal material', Marine Chemistry, 194 pp. 79-88. ISSN 0304-4203 (2017) [Refereed Article]

DOI: 10.1016/j.marchem.2017.05.004 [eCite] [Details]

Citations: Scopus - 11Web of Science - 11

Co-authors: Ratnarajah L; Townsend AT; Meiners KM; Nicol S; Bowie AR

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2016Herraiz-Borreguero L, Lannuzel D, van der Merwe P, Treverrow A, Pedro JB, 'Large flux of iron from the Amery Ice Shelf marine ice to Prydz Bay, East Antarctica', Journal of Geophysical Research: Oceans, 121, (8) pp. 6009-6020. ISSN 2169-9275 (2016) [Refereed Article]

DOI: 10.1002/2016JC011687 [eCite] [Details]

Citations: Scopus - 42Web of Science - 41

Co-authors: van der Merwe P; Treverrow A

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2016Janssens JP, Meiners KM, Tison J-L, Dieckmann G, Delille B, et al., 'Incorporation of iron and organic matter into young Antarctic sea ice during its initial growth stages', Elementa, 4 Article 000123. ISSN 2325-1026 (2016) [Refereed Article]

DOI: 10.12952/journal.elementa.000123 [eCite] [Details]

Citations: Scopus - 25Web of Science - 21

Co-authors: Janssens JP; Meiners KM

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2016Lannuzel D, Chever F, van der Merwe PC, Janssens JP, Roukaerts A, et al., 'Iron biogeochemistry in Antarctic pack ice during SIPEX-2', Deep-Sea Research II, 131 pp. 111-122. ISSN 0967-0645 (2016) [Refereed Article]

DOI: 10.1016/j.dsr2.2014.12.003 [eCite] [Details]

Citations: Scopus - 35Web of Science - 28

Co-authors: van der Merwe PC; Janssens JP; Townsend AT; Bowie AR; Meiners KM

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2016Lannuzel D, Vancoppenolle M, van der Merwe P, de Jong J, Meiners KM, et al., 'Iron in sea ice: review and new insights', Elementa, 4 Article 130. ISSN 2325-1026 (2016) [Refereed Article]

DOI: 10.12952/journal.elementa.000130 [eCite] [Details]

Citations: Scopus - 64Web of Science - 63

Co-authors: van der Merwe P; Meiners KM

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2016Ratnarajah L, Melbourne-Thomas J, Marzloff MP, Lannuzel D, Meiners KM, et al., 'A preliminary model of iron fertilisation by baleen whales and Antarctic krill in the Southern Ocean: sensitivity of primary productivity estimates to parameter uncertainty', Ecological Modelling, 320 pp. 203-212. ISSN 0304-3800 (2016) [Refereed Article]

DOI: 10.1016/j.ecolmodel.2015.10.007 [eCite] [Details]

Citations: Scopus - 30Web of Science - 27

Co-authors: Ratnarajah L; Melbourne-Thomas J; Marzloff MP; Meiners KM; Chever F; Nicol S; Bowie AR

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2016Ratnarajah L, Nicol S, Kawaguchi S, Townsend AT, Lannuzel D, et al., 'Understanding the variability in the iron concentration of Antarctic krill', Limnology and Oceanography, 61, (5) pp. 1651-1660. ISSN 0024-3590 (2016) [Refereed Article]

DOI: 10.1002/lno.10322 [eCite] [Details]

Citations: Scopus - 13Web of Science - 11

Co-authors: Ratnarajah L; Nicol S; Townsend AT; Meiners KM; Bowie AR

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2016Roukaerts A, Cavagna A-J, Fripiat F, Lannuzel D, Meiners KM, et al., 'Sea-ice algal primary production and nitrogen uptake rates off East Antarctica', Deep-Sea Research. Part II, 131 pp. 140-149. ISSN 0967-0645 (2016) [Refereed Article]

DOI: 10.1016/j.dsr2.2015.08.007 [eCite] [Details]

Citations: Scopus - 13Web of Science - 11

Co-authors: Meiners KM

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2016Schallenberg C, Van Der Merwe P, Chever F, Cullen JT, Lannuzel D, et al., 'Dissolved iron and iron(II) distributions beneath the pack ice in the East Antarctic (120 °E) during the winter/spring transition', Deep-Sea Research: Part II, 131 pp. 96-110. ISSN 0967-0645 (2016) [Refereed Article]

DOI: 10.1016/j.dsr2.2015.02.019 [eCite] [Details]

Citations: Scopus - 17Web of Science - 12

Co-authors: Schallenberg C; Van Der Merwe P; Chever F; Bowie AR

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2016Steiner N, Deal C, Lannuzel D, Lavoie D, Massonnet F, et al., 'What sea-ice biogeochemical modellers need from observers', Elementa, 4 Article 000084. ISSN 2325-1026 (2016) [Refereed Article]

DOI: 10.12952/journal.elementa.000084 [eCite] [Details]

Citations: Scopus - 21Web of Science - 19

Co-authors: Moreau S

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2015Lannuzel D, Grotti M, Abelmoschi ML, Van Der Merwe P, 'Organic ligands control the concentrations of dissolved iron in Antarctic sea ice', Marine Chemistry, 174 pp. 120-130. ISSN 0304-4203 (2015) [Refereed Article]

DOI: 10.1016/j.marchem.2015.05.005 [eCite] [Details]

Citations: Scopus - 35Web of Science - 33

Co-authors: Van Der Merwe P

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2015Mawji E, Schlitzer R, Dodas EM, Abadie C, Abouchami W, et al., 'The GEOTRACES Intermediate Data Product 2014', Marine Chemistry, 177 pp. 1-8. ISSN 0304-4203 (2015) [Refereed Article]

DOI: 10.1016/j.marchem.2015.04.005 [eCite] [Details]

Citations: Scopus - 118Web of Science - 115

Co-authors: Bowie A

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2015Miller LA, Fripiat F, Else BGT, Bowman JS, Brown KA, et al., 'Methods for biogeochemical studies of sea ice: the state of the art, caveats, and recommendations', Elementa, 3 Article 000038. ISSN 2325-1026 (2015) [Refereed Article]

DOI: 10.12952/journal.elementa.000038 [eCite] [Details]

Citations: Scopus - 70Web of Science - 69

Co-authors: Meiners KM

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2015Queroue F, Sarthou G, Planquette HF, Bucciarelli E, Chever F, et al., 'High variability in dissolved iron concentrations in the vicinity of the Kerguelen Islands (Southern Ocean)', Biogeosciences, 12, (12) pp. 3869-3883. ISSN 1726-4170 (2015) [Refereed Article]

DOI: 10.5194/bg-12-3869-2015 [eCite] [Details]

Citations: Scopus - 20Web of Science - 19

Co-authors: van der Merwe P; Townsend AT; Bowie AR

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2014Delille B, Vancoppenolle M, Geilfus N-X, Tilbrook B, Lannuzel D, et al., 'Southern Ocean CO2 sink: the contribution of the sea ice', Journal of Geophysical Research: Oceans, 119, (9) pp. 6340-6355. ISSN 2169-9275 (2014) [Refereed Article]

DOI: 10.1002/2014JC009941 [eCite] [Details]

Citations: Scopus - 57Web of Science - 54

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2014Lannuzel D, van der Merwe PC, Townsend AT, Bowie AR, 'Size fractionation of iron, manganese and aluminium in Antarctic fast ice reveals a lithogenic origin and low iron solubility', Marine Chemistry, 161 pp. 47-56. ISSN 0304-4203 (2014) [Refereed Article]

DOI: 10.1016/j.marchem.2014.02.006 [eCite] [Details]

Citations: Scopus - 40Web of Science - 38

Co-authors: van der Merwe PC; Townsend AT; Bowie AR

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2014Queroue F, Townsend A, Van Der Merwe P, Lannuzel D, Sarthou G, et al., 'Advances in the offline trace metal extraction of Mn, Co, Ni, Cu, Cd, and Pb from open ocean seawater samples with determination by sector field ICP-MS analysis', Analytical Methods, 2014, (6) pp. 2837-2847. ISSN 1759-9660 (2014) [Refereed Article]

DOI: 10.1039/c3ay41312h [eCite] [Details]

Citations: Scopus - 35Web of Science - 36

Co-authors: Townsend A; Van Der Merwe P; Bowie A

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2014Ratnarajah L, Bowie AR, Lannuzel D, Meiners K, Nicol S, 'The Biogeochemical Role of Baleen Whales and Krill in Southern Ocean Nutrient Cycling', PLoS ONE, 9, (12) Article e114067. ISSN 1932-6203 (2014) [Refereed Article]

DOI: 10.1371/journal.pone.0114067 [eCite] [Details]

Citations: Scopus - 45Web of Science - 46

Co-authors: Ratnarajah L; Bowie AR; Meiners K; Nicol S

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2013Butler ECV, O'Sullivan JE, Watson RJ, Bowie AR, Remenyi TA, et al., 'Trace metals Cd, Co, Cu, Ni, and Zn in waters of the subantarctic and Polar Frontal Zones south of Tasmania during the 'SAZ-Sense' project', Marine Chemistry: An International Journal for Studies of All Chemical Aspects of The Marine Environment, 148 pp. 63-76. ISSN 0304-4203 (2013) [Refereed Article]

DOI: 10.1016/j.marchem.2012.10.005 [eCite] [Details]

Citations: Scopus - 21Web of Science - 18

Co-authors: Butler ECV; Bowie AR; Remenyi TA

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2013Lannuzel D, Schoemann V, Dumont I, Content M, de Jong J, et al., 'Effect of melting Antarctic sea ice on the fate of microbial communities studied in microcosms', Polar Biology, 36, (10) pp. 1438-1497. ISSN 0722-4060 (2013) [Refereed Article]

DOI: 10.1007/s00300-013-1368-7 [eCite] [Details]

Citations: Scopus - 27Web of Science - 25

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2013Smith LV, McMinn A, Martin AR, Nicol S, Bowie AR, et al., 'Preliminary investigation into the stimulation of phytoplankton photophysiology and growth by whale faeces', Journal of Experimental Marine Biology and Ecology, 446 pp. 1-9. ISSN 0022-0981 (2013) [Refereed Article]

DOI: 10.1016/j.jembe.2013.04.010 [eCite] [Details]

Citations: Scopus - 21Web of Science - 22

Co-authors: Smith LV; McMinn A; Martin AR; Nicol S; Bowie AR; Van Der Merwe P

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2013Vancoppenolle M, Meiners K, Michel C, Bopp L, Brabant F, et al., 'Role of sea ice in global biogeochemical cycles: emerging views and challenges', Quaternary Science Reviews: International Multidisciplinary Review and Research Journal, 79, (Nov) pp. 207-230. ISSN 0277-3791 (2013) [Refereed Article]

DOI: 10.1016/j.quascirev.2013.04.011 [eCite] [Details]

Citations: Scopus - 171Web of Science - 157

Co-authors: Meiners K; Moreau S; Van Der Merwe P

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2012Meiners KM, Vancoppenolle M, Thanassekos S, Dieckmann GS, Thomas DN, et al., 'Chlorophyll a in Antarctic sea ice from historical ice core data', Geophysical Research Letters, 39, (21) Article L21602. ISSN 0094-8276 (2012) [Refereed Article]

DOI: 10.1029/2012GL053478 [eCite] [Details]

Citations: Scopus - 84Web of Science - 77

Co-authors: Meiners KM; McMinn A; Van Der Merwe P; Swadling KM; Raymond B

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2012de Jong J, Schoemann V, Lannuzel D, Croot P, de Baar H, et al., 'Natural iron fertilization of the Atlantic sector of the Southern Ocean by continental shelf sources of the Antarctic Peninsula', Journal of Geophysical Research G: Biogeosciences, 117, (1) Article G01029. ISSN 0148-0227 (2012) [Refereed Article]

DOI: 10.1029/2011JG001679 [eCite] [Details]

Citations: Scopus - 105Web of Science - 104

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2011Cossa D, Heimburger LE, Lannuzel D, Rintoul SR, Butler ECV, et al., 'Mercury in the Southern Ocean', Geochimica Et Cosmochimica Acta, 75, (14) pp. 4037-4052. ISSN 0016-7037 (2011) [Refereed Article]

DOI: 10.1016/j.gca.2011.05.001 [eCite] [Details]

Citations: Scopus - 181Web of Science - 180

Co-authors: Rintoul SR; Butler ECV; Bowie AR; Remenyi TA

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2011Lannuzel D, Bowie AR, Remenyi TA, Lam P, Townsend AT, et al., 'Distributions of dissolved and particulate iron in the sub-Antarctic and Polar Frontal Southern Ocean (Australian sector)', Deep-Sea Research. Part 2: Topical Studies in Oceanography, 58, (21-22) pp. 2094-2112. ISSN 0967-0645 (2011) [Refereed Article]

DOI: 10.1016/j.dsr2.2011.05.027 [eCite] [Details]

Citations: Scopus - 58Web of Science - 56

Co-authors: Bowie AR; Remenyi TA; Townsend AT

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2011Lannuzel D, Bowie AR, Van Der Merwe P, Townsend AT, Schoemann V, 'Distribution of dissolved and particulate metals in Antarctic sea ice', Marine Chemistry: An International Journal for Studies of All Chemical Aspects of The Marine Environment, 124, (1-4) pp. 134-146. ISSN 0304-4203 (2011) [Refereed Article]

DOI: 10.1016/j.marchem.2011.01.004 [eCite] [Details]

Citations: Scopus - 65Web of Science - 60

Co-authors: Bowie AR; Van Der Merwe P; Townsend AT; Schoemann V

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2011Norman L, Thomas DN, Stedmon CA, Granskog MA, Papadimitriou S, et al., 'The characteristics of dissolved organic matter (DOM) and chromophoric dissolved organic matter (CDOM) in Antarctic sea ice', Deep-Sea Research. Part 2: Topical Studies in Oceanography, 58, (9-10) pp. 1075-1091. ISSN 0967-0645 (2011) [Refereed Article]

DOI: 10.1016/j.dsr2.2010.10.030 [eCite] [Details]

Citations: Scopus - 63Web of Science - 55

Co-authors: Meiners KM; Van Der Merwe P

Tweet

2011Van Der Merwe P, Lannuzel D, Bowie AR, Mancuso Nichols CA, Meiners K, 'Iron fractionation in pack and fast ice in East Antarctica: Temporal decoupling between the release of dissolved and particulate iron during spring melt', Deep-Sea Research. Part II: Topical Studies in Oceanography, 58, (9-10) pp. 1222-1236. ISSN 0967-0645 (2011) [Refereed Article]

DOI: 10.1016/j.dsr2.2010.10.036 [eCite] [Details]

Citations: Scopus - 45Web of Science - 42

Co-authors: Van Der Merwe P; Bowie AR; Mancuso Nichols CA; Meiners K

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2011Van Der Merwe P, Lannuzel D, Bowie AR, Meiners K, 'High temporal resolution observations of spring fast ice melt and seawater iron enrichment in East Antarctica', Journal of Geophysical Research-Space Physics, 116 Article G03017. ISSN 0148-0227 (2011) [Refereed Article]

DOI: 10.1029/2010JG001628 [eCite] [Details]

Citations: Scopus - 45Web of Science - 40

Co-authors: Van Der Merwe P; Bowie AR; Meiners K

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2010Bowie AR, Townsend AT, Lannuzel D, Remenyi TA, Van Der Merwe P, 'Modern sampling and analytical methods for the determination of trace elements in marine particulate material using magnetic sector inductively coupled plasma-mass spectrometry', Analytica Chimica Acta, 676, (1-2) pp. 15-27. ISSN 0003-2670 (2010) [Refereed Article]

DOI: 10.1016/j.aca.2010.07.037 [eCite] [Details]

Citations: Scopus - 65Web of Science - 65

Co-authors: Bowie AR; Townsend AT; Remenyi TA; Van Der Merwe P

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2010Lannuzel D, Schoemann V, de Jong J, Pasquer B, van der Merwe P, et al., 'Distribution of dissolved iron in Antarctic sea ice: Spatial, seasonal, and inter-annual variability', Journal of Geophysical Research, 115, (3) EJ ISSN 0148-0227 (2010) [Refereed Article]

DOI: 10.1029/2009JG001031 [eCite] [Details]

Citations: Scopus - 100Web of Science - 94

Co-authors: Pasquer B; van der Merwe P; Bowie AR

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2010Nicol S, Bowie AR, Jarman S, Lannuzel D, Meiners K, et al., 'Southern Ocean iron fertilization by baleen whales and Antarctic krill', Fish and Fisheries, 11, (2) pp. 203-209. ISSN 1467-2960 (2010) [Refereed Article]

DOI: 10.1111/j.1467-2979.2010.00356.x [eCite] [Details]

Citations: Scopus - 130Web of Science - 124

Co-authors: Nicol S; Bowie AR; Meiners K; van der Merwe P

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2010Tagliabue A, Boop L, Dutay JC, Bowie AR, Chever F, et al., 'Hydrothermal contribution to the oceanic dissolved iron inventory', Nature Geoscience, 3, (4) pp. 252-256. ISSN 1752-0894 (2010) [Refereed Article]

DOI: 10.1038/ngeo818 [eCite] [Details]

Citations: Scopus - 314Web of Science - 290

Co-authors: Bowie AR; Remenyi TA

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2009Becquevort S, Dumont I, Tison JL, Lannuzel D, Sauvee ML, et al., 'Biogeochemistry and microbial community composition in sea ice and underlying seawater off East Antarctica during early spring ', Polar Biology, 32, (6) pp. 879-895. ISSN 0722-4060 (2009) [Refereed Article]

DOI: 10.1007/s00300-009-0589-2 [eCite] [Details]

Citations: Scopus - 37Web of Science - 37

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2009Bowie AR, Lannuzel D, Remenyi TA, Wagener T, Lam PJ, et al., 'Biogeochemical iron budgets of the Southern Ocean south of Australia: Decoupling of iron and nutrient cycles in the subantarctic zone by the summertime supply', Global Biogeochemical Cycles, 23, (4) Article GB4034. ISSN 0886-6236 (2009) [Refereed Article]

DOI: 10.1029/2009GB003500 [eCite] [Details]

Citations: Scopus - 151Web of Science - 150

Co-authors: Bowie AR; Remenyi TA; Boyd PW; Townsend AT; Trull T

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2009Dumont I, Schoemann V, Lannuzel D, Chou L, Tison JL, et al., 'Distribution and characterization of dissolved and particulate organic matter in Antarctic pack ice', Polar Biology, 32, (5) pp. 733-750. ISSN 0722-4060 (2009) [Refereed Article]

DOI: 10.1007/s00300-008-0577-y [eCite] [Details]

Citations: Scopus - 27Web of Science - 27

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2009Van Der Merwe P, Lannuzel D, Mancuso Nichols CA, Meiners K, Heil P, et al., 'Biogeochemical observations during the winter-spring transition in East Antarctic sea ice: Evidence of iron and exopolysaccharide controls', Marine Chemistry: An International Journal for Studies of All Chemical Aspects of The Marine Environment, 115, (3-4) pp. 163-175. ISSN 0304-4203 (2009) [Refereed Article]

DOI: 10.1016/j.marchem.2009.08.001 [eCite] [Details]

Citations: Scopus - 75Web of Science - 67

Co-authors: Van Der Merwe P; Mancuso Nichols CA; Meiners K; Heil P; Bowie AR

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2008Lannuzel D, Schoemann V, de Jong J, Chou L, Delille B, et al., 'Iron study during a time series in the western Weddell pack ice', Marine Chemistry, 108, (1-2) pp. 85-95. ISSN 0304-4203 (2008) [Refereed Article]

DOI: 10.1016/j.marchem.2007.10.006 [eCite] [Details]

Citations: Scopus - 115Web of Science - 109

Co-authors: Schoemann V

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2008Tison JL, Worby AP, Delille B, Brabant F, Papadimitriou S, et al., 'Temporal evolution of decaying summer first-year sea ice in the Western Weddell Sea, Antarctica', Deep-Sea Research. Part 2: Topical Studies in Oceanography, 55, (8-9) pp. 975-987. ISSN 0967-0645 (2008) [Refereed Article]

DOI: 10.1016/j.dsr2.2007.12.021 [eCite] [Details]

Citations: Scopus - 70Web of Science - 63

Co-authors: Worby AP

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2008de Jong J, Schoemann V, Lannuzel D, Tison J-L, Mattielli N, 'High-accuracy determination of iron in seawater by isotope dilution multiple collector inductively coupled plasma mass spectrometry (ID-MC-ICP-MS) using nitrilotriacetic acid chelating resin for pre-concentration and matrix separation', Analytica Chimica Acta: International Journal Devoted to All Branches of Analytical Chemistry, 623, (2) pp. 126-139. ISSN 0003-2670 (2008) [Refereed Article]

DOI: 10.1016/j.aca.2008.06.013 [eCite] [Details]

Citations: Scopus - 64Web of Science - 61

Co-authors: Schoemann V

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Review

(1 outputs)
YearCitationAltmetrics
2016Bowie AR, Jabour J, Trull TW, McLachlan K, Boyd PW, et al., 'Position analysis: ocean fertilisation' pp. 1-32. ISSN 1835-7911 (2016) [Substantial Review]

[eCite] [Details]

Co-authors: Bowie AR; Jabour J; Trull TW; Boyd PW; Press T; Brent K; McGee J

Conference Publication

(16 outputs)
YearCitationAltmetrics
2018Herraiz-Borreguero L, Lannuzel D, van der Merwe PC, Treverrow A, Pedro JB, 'Iron fertilization from the Amery Ice Shelf marine ice layer, East Antarctica', Geophysical Research Abstracts, 08-13 April, Vienna, Austria, pp. 18537. ISSN 1607-7962 (2018) [Conference Extract]

[eCite] [Details]

Co-authors: van der Merwe PC; Treverrow A

2015Lannuzel D, Grotti M, Abelmoschi ML, Van Der Merwe P, 'Organic ligands control the concentrations of dissolved iron in Antarctic sea ice', Goldschmidt2015 Abstracts, 16-21 August, Prague, Czech Republic, pp. 1766. (2015) [Conference Extract]

[eCite] [Details]

Co-authors: Van Der Merwe P

2015Nishioka J, Lannuzel D, 'Biogeochemistry of Arctic and Antarctic sea ice systems', Goldschmidt2015 Abstracts, 16-21 August, Prague, Czech Republic (2015) [Chair International Conference]

[eCite] [Details]

2015Queroue F, Van Der Merwe P, Wuttig K, Lannuzel D, Sarthou G, et al., 'Analysis of trace metals in open ocean seawater samples using resin extraction methods with SF-ICP-MS detection', PACIFICHEM, 2015 International Chemical Congress of Pacific Basin Societies, 15th-20th December, Honolulu, Hawaii, USA, pp. TECH-73. (2015) [Keynote Presentation]

[eCite] [Details]

Co-authors: Van Der Merwe P; Wuttig K; Bowie AR; Townsend AT

2015Vancoppenolle M, Moreau S, Bopp L, Madec G, Delille B, et al., 'Sea ice in the global biogeochemical cycles: how much do we care?', Goldschmidt2015 Abstracts, 16-21 August, Praha, Czech Republic (2015) [Keynote Presentation]

[eCite] [Details]

Co-authors: Moreau S

2014Lannuzel D, Van Der Merwe P, Townsend AT, Bowie AR, 'Size fractionation of iron, manganese and aluminium in Antarctic fast ice reveals a lithogenic origin and low iron solubility', Ocean Sciences Meeting Suppl., Eos Trans. AGU, 20th-24th February, Honolulu, USA, pp. 13036. (2014) [Conference Extract]

[eCite] [Details]

Co-authors: Van Der Merwe P; Townsend AT; Bowie AR

2012Queroue F, Bowie AR, Lannuzel D, Van Der Merwe P, Sarthou G, et al., 'Trace metals (Fe, Mn, Co, Cu, Pb, Cd, Ni) analysis in open ocean samples using sector field ICP-MS', 2012APWC - Asia Pacific Winter Conference on Plasma Spectrochemistry, 26th-29th August, Jeju, South Korea, pp. 2. (2012) [Conference Extract]

[eCite] [Details]

Co-authors: Bowie AR; Van Der Merwe P; Townsend AT

2011Lannuzel D, Van Der Merwe P, Bowie AR, Townsend AT, 'Size fractionation of particulate metals during a time series in East Antarctic fast ice', Geophysical Research Abstracts, 3-8 April 2011, Vienna, Austria, pp. EGU2011-2334. (2011) [Keynote Presentation]

[eCite] [Details]

Co-authors: Van Der Merwe P; Bowie AR; Townsend AT

2010Bowie AR, Townsend AT, Lannuzel D, 'The determination of trace elements in size-fractionated marine particles using magnetic sector ICP-MS', The 4th Asia-Pacific Winter Conference on Plasma Spectrochemistry, 26-30 November 2010, Chengdu, China, pp. 9. (2010) [Conference Extract]

[eCite] [Details]

Co-authors: Bowie AR; Townsend AT

2010Butler E, O'Sullivan J, Watson R, Bowie AR, Remenyi TA, et al., 'Trace Metals Cd, Co, Cu, Ni, Pb and Zn in Waters of the Sub- Antarctic and Polar Frontal Zones south of Tasmania - the 'SAZ-Sense' Study', Program and Abstract Book, AMSA 2010 - New Waves in Marine Science, 4-8 July 2010, Wollongong, New South Wales, pp. 70. (2010) [Conference Extract]

[eCite] [Details]

Co-authors: Bowie AR; Remenyi TA

2010Lannuzel D, Bowie AR, Townsend AT, van der Merwe P, Remenyi TA, et al., 'Modern sampling and analytical methods for the determination of trace elements in marine samples using sector field ICP-MS', 18th RACI Research and Development Topics Conference in Analytical and Environmental Chemistry, 5th-8th December 2010, Hobart, Tasmania, pp. 97. (2010) [Conference Extract]

[eCite] [Details]

Co-authors: Bowie AR; Townsend AT; van der Merwe P; Remenyi TA

2010Lannuzel D, Schoemann V, Van Der Merwe P, Townsend AT, Bowie AR, 'Dissolved and Particulate Metals Distribution in Antarctic Sea Ice and their Role in Tracing Iron Sources', EOS Transactions, Ocean Sciences Meeting Supplement, 22-26 February 2010, Portland, Oregon, pp. Abstract CO13A-05. (2010) [Conference Extract]

[eCite] [Details]

Co-authors: Van Der Merwe P; Townsend AT; Bowie AR

2010Tagliabue A, Bopp L, Dutay J, Bowie AR, Chever F, et al., 'On the importance of hydrothermalism to the oceanic dissolved iron inventory', EOS Transactions, Ocean Sciences Meeting Supplement, 22-26 February 2010, Portland, Oregon, pp. Abstract CO14A-04. (2010) [Conference Extract]

[eCite] [Details]

Co-authors: Bowie AR; Remenyi TA

2010Van Der Merwe P, Lannuzel D, Mancuso Nichols CA, Meiners K, Bowie AR, 'Iron partitioning in pack and fast ice in East Antarctica: potential for temporal decoupling between the release of dissolved and particulate iron during spring melt', EOS Transactions, Ocean Sciences Meeting Supplement, 22-26 February 2010, Portland, Oregon, pp. Abstract CO15C-07. (2010) [Conference Extract]

[eCite] [Details]

Co-authors: Van Der Merwe P; Mancuso Nichols CA; Meiners K; Bowie AR

2009Bowie AR, Lannuzel D, Remenyi TA, Wagener T, Lam P, et al., 'Different processes drive biogeochemical iron budgets in the subantarctic and polar Southern Ocean', 2nd International Forum on the Sub-Antarctic (IFSA), Environmental Change in the Sub-Antarctic, 26th-27th April, Hobart, Australia (2009) [Conference Extract]

[eCite] [Details]

Co-authors: Bowie AR; Remenyi TA; Townsend AT; Trull T

2009Bowie AR, Lannuzel D, Remenyi TA, Wagener T, Lam P, et al., 'Different processes drive biogeochemical iron budgets in the subantarctic and polar Southern Ocean', Gordon Research Conference: Polar Marine Science-Beyond IPY, 15th-20th March, Lucca, Italy (2009) [Conference Extract]

[eCite] [Details]

Co-authors: Bowie AR; Remenyi TA; Townsend AT; Trull T

Other Public Output

(4 outputs)
YearCitationAltmetrics
2016Bowie AR, Jabour J, Trull TW, McLachlan K, Boyd PW, et al., 'Position Analysis: Ocean Fertilisation', The Antarctic Climate & Ecosystems Cooperative Research Centre, Hobart, Tasmania, ISSN: 1835-7911 (2016) [Government or Industry Research]

[eCite] [Details]

Co-authors: Bowie AR; Jabour J; Trull TW; Boyd PW; Press T; Brent KA; McGee JS

2014Lieser JL, Massom RA, Fraser Alexander Donald, Haward MG, Heil P, et al., 'Position analysis: Antarctic sea ice and climate change 2014', Antarctic Climate & Ecosystems Cooperative Research Centre, Hobart, Tasmania, Australia (2014) [Report Other]

[eCite] [Details]

Co-authors: Lieser JL; Massom RA; Fraser Alexander Donald; Haward MG; Heil P; Meiners K; Melbourne-Thomas J; Press AJ; Williams GD

2011Nicol S, Van Der Merwe P, Lannuzel D, Townsend AT, 'Iron Whales', Catalyst - Mark Horstman, ABC TV, Hobart, Tasmania, 14 April 2011 (2011) [Media Interview]

[eCite] [Details]

Co-authors: Nicol S; Van Der Merwe P; Townsend AT

2009Van Der Merwe P, Lannuzel D, 'Phytoplankton let us breathe', Cool science, Australian Antarctic Division, Hobart, Tasmania, Online, 26 November 2009 (2009) [Magazine Article]

[eCite] [Details]

Co-authors: Van Der Merwe P

Grants & Funding

In 2006, Delphine was awarded two Belgian Fellowships for young polar researchers. She then successfully applied for funding from the Scientific Committee on Antarctic Research (SCAR) and the Surface Ocean Low Atmosphere Science (SOLAS) in 2007 to build up her promising career as a polar researcher in Hobart. In 2008, she was granted an Early Career Researcher only Australian Research Council (ARC Discovery 2009-11 DP0985361) and UNESCO L'Oréal (declined due to successful ARC). She has collaborated on major grants from the Australian Antarctic Science scheme in 2008 and 2009, as well the University of Tasmania (UTAS) Cross Linkage and the Institutional Research Grants Scheme (IRGS) grants in 2010 and 2014.

More recently, she was successful with obtaining an ARC DECRA (2012-present) as well as leading major AAS field program in Antarctica in 2012 (AAS 3026) and 2015 (AAS 4291).

Funding Summary

Number of grants

14

Total funding

$76,261,494

Projects

Using animal-borne sensors to unravel East Antarctic coastal productivity (2023 - 2025)$807,639
Description
This project will examine the mechanisms underpinning the high productivity in Antarctic coastal polynyas, which are ice-free oases within the sea ice supporting abundant marine life. The study expects to generate essential new biochemical and biological observations using autonomous platforms to understand phytoplankton dynamics in these inaccessible habitats along Australia's Antarctic Territory. Expected outcomes include novel insight into the role of iron supply from melting glaciers in supporting marine production. This should reduce the high uncertainty in prognoses for polynya activity under anthropogenic climate change, and support Australia'sinternational leadership in conservation and management of important Antarctic ecosystems.
Funding
Australian Research Council ($807,639)
Scheme
Grant-Discovery Projects
Administered By
University of Tasmania
Research Team
Bestley S; Hindell MA; Lannuzel D; Schallenberg C; Rodriguez EP; van Wijk E; Labrousse S; McMahon C; Roquet F
Period
2023 - 2025
Grant Reference
DP230101368
I-CRYME: Impact of CRYosphere Melting on Southern Ocean Ecosystems and biogeochemical cycles (2023 - 2027)$447,634
Description
This project improves our understanding of how the melting cryosphere of the King Hkon VII Sea (KHS), in the Southern Ocean (SO) impacts the marine ecosystem surrounding Antarctica. The project focuses on the pressing research question of what are the consequences of climate change on the Earths cryosphere and associated polar marine ecosystems? Such knowledge is of primary importance to objectives of the Southern Ocean Decade, the SO task force of the United Nations decade of Ocean Science for Sustainable Development.The project brings together a multidisciplinary team with broad expertise on the SO (e.g. physical oceanography) and its associated cryosphere, as well as expertise on the microorganisms, trace metals and biogeochemical cycling that occurs within these systems. The main hypothesis of this project is that the melting cryosphere (i.e. ice sheets, glaciers and sea ice) of the SO and Antarctic continent have a profound impact on marine biogeochemical dynamics (nutrients, bio-essential trace metals, and ecosystem productivity). To investigate this hypothesis, we focus on the poorly studied region of the KHS in the SO.
Funding
The Research Council of Norway ($447,634)
Scheme
Grant
Administered By
Norwegian Polar Institute
Research Team
Moreau S; Lannuzel D; Meyer A; van der Merwe P
Period
2023 - 2027
HydroBox: A containerised hydrochemistry lab for Australian oceanography (2022)$552,086
Description
This project aims to deliver a portable, sea-going laboratory for the analysis of ocean salinity, dissolved oxygenand dissolved nutrients to high analytical standards. The expected outcomes include a vast increase in thecapacity to accurately measure these Essential Ocean Variables in the waters around Australia, in particulararound Antarctica and the Southern Ocean, new opportunities for international collaboration and improved trainingof Australian students in sea-going oceanography. Significant benefits include the ability to detect early impacts ofclimate change on physical, chemical and biological ocean processes, and solidification of Australia's worldleading status in the field of hydrochemistry.
Funding
Australian Research Council ($552,086)
Scheme
Grant-Linkage Infrastructure
Administered By
University of Tasmania
Research Team
Chase Z; Lannuzel D; Bindoff NL; Strutton PG; Boyd PW; Ellwood M
Year
2022
Grant Reference
LE220100089
An autonomous sea state monitoring system for the Australian research fleet (2022)$446,389
Description
The project aims to deliver an innovative shipborne autonomous multi camera facility for monitoring physical, thermodynamical and biological properties of the Southern Ocean surface, including sea ice at high latitudes. The project expects to enable systematic observations in this remote ocean basin, which is largely under sampled and yet fundamental for Australia's and Earth's climate system. Expected outcomes are innovative observation techniques and unprecedented databases. In conjunction with other equipments or on its own, the facility should provide significant benefits to underpin development of superior model capabilities, advancements of climate models and domestic and international responses to climate change.
Funding
Australian Research Council ($328,389)
Collaborators
Australian Antarctic Division ($10,000); CSIRO-Commonwealth Scientific & Industrial Research Organisation ($3,000); Pivot Maritime International ($10,000); Queensland University of Technology ($10,000); University of Adelaide ($15,000); University of Melbourne ($60,000); University of Newcastle ($10,000)
Scheme
Grant-Linkage Infrastructure
Administered By
University of Melbourne
Research Team
Toffoli A; Mallet MD; Lannuzel D; Meylan M; Heil P; Schofield R; Bennetts L; Fraser AD
Year
2022
Grant Reference
LE220100103
The Australian Centre for Excellence in Antarctic Science (2020 - 2025)$22,302,208
Description
The Centre will revolutionise predictions of the future of East Antarctica and the Southern Ocean. Changes in the Antarctic will be profoundly costly to Australia, including sea-level and fisheries impacts; but the speed and scale of future change remains poorly understood. A new national-scale and interdisciplinary Centre is required to understand the complex interactions of the ocean, ice sheets, atmosphere and ecosystems that will govern Antarctica's future. The Centre will combine new field data with innovative models to address Australia's Antarctic science priorities, train graduate students, develop leaders, engage the public, and enable major economic benefit as Australia adapts to climate change in the coming years and beyond.
Funding
Australian Research Council ($20,000,000)
Collaborators
Australian National University ($975,664); Curtin University ($87,720); University of Canberra ($87,720); University of Melbourne ($87,720); University of New South Wales ($975,664); University of Western Australia ($87,720)
Scheme
Grant-Special Research Initiatives
Administered By
University of Tasmania
Research Team
King MA; Blanchard JL; Boyd PW; Hill NA; Hindell MA; Lea MA; Lucieer VL; McMinn A; Watson CS; Reading AM; Bindoff NL; Chase Z; Coleman R; Halpin JA; Lannuzel D; Nikurashin M; Phillips HE; Strutton PG; Spence JP; Whittaker J; Williams GD; Noble T; Davies R; Heslop D; Selway K
Period
2020 - 2025
Grant Reference
SR200100008
Australian Antarctic Program Partnership (2019 - 2029)$50,000,000
Description
Australian Antarctic Program Partnership, comprises the University of Tasmania, the Commonwealth Scientific and Industrial Research Organisation, the Australian Antartcic Division, Geosciences Australia, the Bureau of Meteorology, IMOS and Tasmanian State Govt. This initiative will support research that aims to understand the role of the Antarctic region in the global climate system and the implications on marine ecosystems.
Funding
Department of Industry, Innovation and Science ($50,000,000)
Scheme
Antarctic Science Collaboration Initiative
Administered By
University of Tasmania
Research Team
Bindoff NL; Swadling KM; Nicol S; Bestley S; Blanchard JL; Lannuzel D; Williams GD; Coleman R; Nikurashin M; Bowie AR; Phillips HE; King MA; Watson CS; Hurd R; Boyd PW
Period
2019 - 2029
Ocean fertilisation: a positive effect from Antarctica's great thaw? (2019 - 2023)$917,462
Description
This project will evaluate how the Antarctica's great thaw may fertilise the Southern Ocean with iron and help mitigate carbon dioxide emissions now and in the future. The Southern Ocean is anaemic, meaning that the iron levels are too low to sustain photosynthesis, a pathway by which the oceans transform carbon dioxide into carbon-rich sediments. There is evidence that melting ice may supply substantial amount of iron, capable of boosting marine life and removing carbon dioxide. As polar regions show the earliest and most severe impacts of anthropogenic activity, studying ice-ocean interactions is central to supporting national and international policy development that can effectively limit the worst impacts of climate change globally.
Funding
Australian Research Council ($917,462)
Scheme
Fellowship-Future
Administered By
University of Tasmania
Research Team
Lannuzel D
Period
2019 - 2023
Grant Reference
FT190100688
Impact of the predicted changes in sea ice extent on primary productivity in the Southern Ocean: links between the iron and carbon (2015 - 2017)$41,696
Description
Despite its potential to naturally fertilize the Southern Ocean with iron, stimulating carbon uptake export, the marginal ice zone has been understudied compared to open ocean regions with respect to its contribution to the biological carbon pump. Our international (AUS-US-Belgium-Japan), multi-disciplinary, project will assess the physical and biological drivers of both the iron and carbon cycles in the marginal ice zone, quantifying the fertilization potential of sea ice and the associated primary productivity. Combining a fast ice process study, laboratory experiments, and ship-based sampling of the marginal ice zone, we will generate an improved understanding of the biogeochemistry required to constrain predictions of the changing sea ice habitat in the East Australian sector.
Funding
Department of Environment and Energy (Cwth) ($41,696)
Scheme
Grant-Australian Antarctic Science
Administered By
University of Tasmania
Research Team
Lannuzel D; Cavagna AJ; Dehairs F; Nomura D; Shadwick EH
Period
2015 - 2017
When Sinks Become Sources; Understanding Persistent Organic Pollutant Behaviour in Dynamic Polar Environments (2015 - 2016)$12,640
Description
The Antarctic seasonal-ice zone provides an archetype for multi-compartment, temporal observations of POP partitioning in response to the major drivers of POP transfer and fate such as ice cover and primary productivity. In addition, the major Antarctic POP reservoirs of seawater and ice will be characterised through this project. Empirical data will be used to parameterise a regional POP mass balance model. Model application to
varying climate scenarios will extend our understanding of POP behaviour and threat in Polar Regions.
Funding
Department of Environment and Energy (Cwth) ($12,640)
Scheme
Grant-Australian Antarctic Science
Administered By
University of Tasmania
Research Team
Nash S; King C; Lannuzel D; Meiners K; Bigot M
Period
2015 - 2016
The Role of Antarctic Sea Ice as a Natural Ocean Fertiliser (2012 - 2014)$375,000
Description
Marine phytoplankton remove the greenhouse gas carbon dioxide from the atmosphere through the process of photosynthesis, and therefore play a key role in regulating Earth's climate. In remote regions like the Southern Ocean, phytoplankton growth is effectively limited by the scarcity of trace elements such as iron. However, while the rest of the Southern Ocean is iron-depleted and phytoplankton-poor, there is now clear evidence that Antarctic sea ice melt releases iron and triggers seasonal ice-edge phytoplankton blooms observable from space. In order to reliably characterise the ocean carbon cycle, this project will assess the role of sea ice as a natural fertiliser of iron and other key nutrients in the climatically important polar zone.
Funding
Australian Research Council ($375,000)
Scheme
Fellowship-Discovery Early Career Researcher Award
Administered By
University of Tasmania
Research Team
Lannuzel D
Period
2012 - 2014
Grant Reference
DE120100030
Novel Analytical Technologies Using High Resolution Inductively Coupled Plasma Mass Spectrometry for the Rapid and Accurate Determination of Biologically-important Trace Elements in Seawater (2011)$19,500
Funding
University of Tasmania ($19,500)
Scheme
Grant-Cross Theme
Administered By
University of Tasmania
Research Team
Bowie AR; Lannuzel D; Townsend AT; Seen AJ
Year
2011
Metals in the Southwest Pacific ocean: Participation in GEOTRACES, an international study of marine trace elements and their isotopes. (2011)$10,000
Funding
University of Tasmania ($10,000)
Scheme
Grant-Institutional Research Scheme
Administered By
University of Tasmania
Research Team
Lannuzel D; Chase Z; Ellwood M; Hassler CS; Bowie AR
Year
2011
Iron in the Antarctic Sea Ice Zone and Its Role in the Past and Future Climate (2009 - 2011)$300,000
Description
This project will assess the importance of the trace micro-nutrient element iron to Antarctic sea ice algal communities. The biogeochemistry of iron, including a comprehensive examination of its distribution, speciation, cycling and role in fuelling ice-edge phytoplankton blooms will be investigated. A significant part of this research will concentrate on the influence of organic exopolysaccharides on iron solubility, complexation and bioavailability, both within the ice and in surrounding surface waters. This innovative research will improve our understanding of key processes that control the productivity of the climatically important Antarctic sea ice zone.
Funding
Australian Research Council ($300,000)
Scheme
Grant-Discovery Projects
Administered By
University of Tasmania
Research Team
Lannuzel D
Period
2009 - 2011
Grant Reference
DP0985361
The Role of Iron as a Micro-Nutrient to the Antarctic Sea-Ice Zone Algal Community (2008 - 2009)$29,240
Funding
Department of Environment and Energy (Cwth) ($29,240)
Scheme
Grant-Australian Antarctic Science
Administered By
University of Tasmania
Research Team
Trull T; Bowie AR; Lannuzel D; Mancuso Nichols CA; Meiners K; van der Merwe P
Period
2008 - 2009

Research Supervision

Since 2010, Associate Professor Lannuzel has supervised several PhD students at the University of Tasmania, all looking into the fertilization of iron in different environments, spanning from coastal and open ocean, to sea ice and mammals.

Current

6

Completed

8

Current

DegreeTitleCommenced
PhDMicroplastics: The next environmental challenge for Antarctic marine ecosystems?2019
PhDResolving Key Iron Processes in Antarctic Sea Ice2020
PhDVolcanic Fertilisation of the Kerguelen Plateau Region2021
PhDIron and Antarctic phytoplankton2023
PhDAntarctic biogeochemistry and management2023
PhDOcean mixing under Antarctic sea ice2023

Completed

DegreeTitleCompleted
PhDDrivers of Primary Productivity in Antarctic Coastal Polynyas
Candidate: Guillaume Guy Pierre Liniger		2023
PhDThe Distribution and Availability of Iron in the Antarctic Coastal Ocean
Candidate: Abigail Jessica Rose Smith		2022
PhDRole of Sea Ice as a Biogeochemically Active Reservoir of Iron and Other Trace Metals
Candidate: Luis Paulo Agostino De Magalhaes Duprat		2021
PhDRole of Iron-Binding Organic Ligands in the Distribution of Dissolved Iron in Antarctic Sea Ice
Candidate: Cristina Genovese		2021
PhDEffects of Natural Iron Fertilisation by Baleen Whales and Antarctic Krill on the Southern Ocean Carbon Cycle
Candidate: Lavenia Ratnarajah		2017
PhDIncorporation Mechanisms of Iron and Organic Matter into Newly-formed Sea Ice
Candidate: Julie Paule Johanna Janssens		2017
PhDAntarctic Sea Ice Algae: Primary production and carbon allocation
Candidate: Sarah Caroline Ugalde		2015
PhDManganese Distributions in the Southern Ocean and the Co-impact Mn-Fe-Cu on Phytoplankton
Candidate: Fabien Queroue		2015