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Mark James Hopwood£¬ÄÏ·½¿Æ¼¼´óѧº£Ñó¿ÆѧÓ빤³ÌϵÖúÀí½ÌÊÚ¡£ËûÓÚ2015ÄêÔÚÓ¢¹úÄÏ°²ÆÕ¶Ù´óѧ»ñµÃÁ˺£ÑóºÍµØÇò¿Æѧ²©Ê¿Ñ§Î»£¬ËûµÄµ¼Ê¦Peter StathamÊǺÛÁ¿½ðÊô³¬¾»¼¼Êõ·½ÃæÁìÏȵÄÑо¿****£¬¶ø¸Ã¼¼ÊõÊÇÑо¿º£ÑóÖ㬵ÍŨ¶È½ðÊôËù±ØÐèµÄ¼¼Êõ¡£Í¬Ä꣬Hopwood²©Ê¿¼ÓÈëÁ˵¹úGEOMAR »ù¶ûº¥Ä·»ô×Ⱥ£ÑóÑо¿ÖÐÐÄ£¬ÔÚEric AchterbergµÄÈ«Çò×î´óµÄº£Ñó»¯Ñ§Ñо¿×éÀïÍê³ÉÁ˲©Ê¿ºóÑо¿¡£2019Ä꣬Ëû»ñµÃÁËDFGµÄ¶ÀÁ¢Ñо¿×ʽð£¬ÓÃÓÚÑо¿¸ñÁêÀ¼µººÍÄϼ«ÖÞÇøÓòµÄ±ù-ÑóÏ໥×÷Ó㬲¢ÇÒ×Ô2017ÄêÒÔÀ´±»ÈÎÃüΪÖÇÀû¸ßγ¶Èº£ÑóÉú̬ϵͳ¶¯Ì¬Ñо¿ÖÐÐĵĸ±Ñо¿Ô±¡£ 2021Äê4Ô£¬Hopwood½ÌÊÚ×÷ΪÖúÀí½ÌÊÚ¼ÓÈëÄÏ·½¿Æ¼¼´óѧ¡£

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PhD Earth and Ocean Science (PhD awarded May 2015)

University of Southampton, UK, School of Oceanography, Sept 2011- Sept 2014

PhD: ¡°The redox and complexation chemistry of iron within freshwater sources to the ocean¡±

MChem (combined BSc and MSc) Chemistry with Patent Law, 1^st class honours

University of Manchester, UK, School of Chemistry, September 2007- June 2011

Thesis: ¡°The promiscuity of two 4-methylideneimidazol-5-one dependent enzymes¡±

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Associate Professor , SUSTech Southern University of Science and Technology, Shenzhen China March 2021-

GEOMAR Helmholtz Centre for Ocean Research Kiel September 2014-March 2021

PI for the DFG project ¡®Biogeochemistry of ice-ocean interactions around Greenland¡¯ (July 2019-June 2022). Formerly postdoctoral researcher working on the interaction between trace metals and primary production for the projects ¡®Ocean Certain¡¯ (EU, 2014-2017) and ¡®Climate-Biogeochemistry Interactions in the Tropical Ocean¡¯ (DFG, SFB 754, 2017- June 2019).

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Best early-career presentation, Advances in Marine Biogeochemistry, Oxford, January 2016

University of Manchester Bursary for academic excellence 2007-2011

Lord Brotherton Award for Chemistry 2008

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*€670 k in new investigator grants from Shenzhen City and Guandong Province

*€60 k GPF POLAR BEAST cruise (5 weeks) ¨C Arctic/Atlantic connectivity via the EGC

*€15 k EUROFLEETS Ice Disko cruise (2 weeks) ¨C biogeochemistry of icebergs in Disko Bay

*€296 k DFG ¡®The biogeochemistry of Ice-Ocean interactions around Greenland¡¯

*€125 k proposal for SPI GLACE expedition participation in 2019

€70 k RV Sanna cruise Green Melt (co-author)

*€1 k IASC Travel Award for ¡®Glacier-marine ecosystem interactions¡¯ workshop 2019

*€4 k EU-INTERACT funded access to Greenland field station 2018

*€5 k SFB 754, mini-proposal for investigating Fe(II) redox chemistry 2017

*€4 k SFB 754, mini-proposal for uncoupling Fe/C/mass fluxes (co-author) 2017

€15 k National Research Council of Italy, funded access to Arctic station (co-author) 2016

*€1 k Royal Society of Chemistry Travel Award to present at Ocean Sciences 2014

*¡ê3 k Gillings Foundation grant for exchange to University North Carolina Wilmington 2013

*¡ê1 k Scottish Association for Marine Science bursary for fieldwork 2013

*Lead scientist/PI

·¢±íÂÛÖø

1. Krisch, S. et al. The effect of ice cavities on ice sheet nutrient export: A case study at Nioghalvfjerdsbrae, the 79¡ãN Glacier. Nat. Commun. (Accepted)

2. Vergara-Jara, M. J. et al. A mosaic of phytoplankton responses across Patagonia, the SE Pacific and SW Atlantic Ocean to ash deposition and trace metal release from the Calbuco 2015 volcanic eruption. Ocean Sci. Discuss. 2020, 1¨C42 (2020). (Accepted)

3. Browning, T. J. et al. Iron regulation of North Atlantic eddy phytoplankton productivity. Geophys. Res. Lett. (2021) doi:10.1029/2020gl091403.

4. Gei?ler, F. et al. Lab-on-chip analyser for the in situ determination of dissolved manganese in seawater. Sci. Rep. 11, (2021).

5. Cantoni, C. et al. Glacial drivers of marine biogeochemistry indicate a future shift to more corrosive conditions in an Arctic fjord. J. Geophys. Res. Biogeosciences n/a, e2020JG005633 (2020).

6. Bach, L. T. et al. Factors controlling plankton community production, export flux, and particulate matter stoichiometry in the coastal upwelling system off Peru. Biogeosciences 17, (2020).

7. Krisch, S. et al. The influence of Arctic Fe and Atlantic fixed N on summertime primary production in Fram Strait, North Greenland Sea. Sci. Rep. 10, 15230 (2020).

8. Browning, T. J. et al. Nutrient regulation of late spring phytoplankton blooms in the midlatitude North Atlantic. Limnol. Oceanogr. (2019) doi:10.1002/lno.11376.

9. Hopwood, M. J. et al. Review article: How does glacier discharge affect marine biogeochemistry and primary production in the Arctic? Cryosph. (2020) doi:10.5194/tc-14-1347-2020.

10.  Vieira, L. H. et al. Unprecedented Fe delivery from the Congo River margin to the South Atlantic Gyre. Nat. Commun. (2020) doi:10.1038/s41467-019-14255-2.

11.  Hopwood, M. J. et al. Fe(II) stability in coastal seawater during experiments in Patagonia, Svalbard, and Gran Canaria. Biogeosciences (2020) doi:10.5194/bg-17-1327-2020.

12. Straneo, F. et al. The case for a sustained Greenland Ice sheet-Ocean Observing System (GrIOOS). Frontiers in Marine Science (2019) doi:10.3389/fmars.2019.00138.

13.  H?fer, J. et al. The role of water column stability and wind mixing in the production/export dynamics of two bays in the Western Antarctic Peninsula. Prog. Oceanogr. (2019) doi:10.1016/j.pocean.2019.01.005.

14. Hopwood, M. J. et al. Non-linear response of summertime marine productivity to increased meltwater discharge around Greenland. Nat. Commun. 9, 3256 (2018).

15. Hopwood, M. Iron from ice. Nat. Geosci. (2018) doi:10.1038/s41561-018-0167-8.

16. Hopwood, M. J. et al. Photochemical vs. Bacterial Control of H2O2 Concentration Across a pCO2 Gradient Mesocosm Experiment in the Subtropical North Atlantic. Frontiers in Marine Science vol. 5 105 (2018).

17.  Menzel Barraqueta, J.-L. et al. Aluminium in the North Atlantic Ocean and the Labrador Sea (GEOTRACES GA01 section): roles of continental inputs and biogenic particle removal. Biogeosciences 2018, 1¨C28 (2018).

18. Hopwood, M. J., Rapp, I., Schlosser, C. & Achterberg, E. P. Hydrogen peroxide in deep waters from the Mediterranean Sea, South Atlantic and South Pacific Oceans. Sci. Rep. 7, (2017).

19. Hopwood, M. J. et al. A Comparison between Four Analytical Methods for the Measurement of Fe(II) at Nanomolar Concentrations in Coastal Seawater. Frontiers in Marine Science vol. 4 192 (2017).

20.   Gei?ler, F. et al. Evaluation of a ferrozine based autonomous in situ lab-on-chip analyzer for dissolved iron species in coastal waters. Front. Mar. Sci. 4, (2017).

21. Hopwood, M. J., Cantoni, C., Clarke, J. S., Cozzi, S. & Achterberg, E. P. The heterogeneous nature of Fe delivery from melting icebergs. Geochemical Perspect. Lett. 3, 200¨C209 (2017).

22. Meire, L. et al. High export of dissolved silica from the Greenland Ice Sheet. Geophys. Res. Lett. 43, 9173¨C9182 (2016).

23. Hopwood, M. J. et al. Seasonal Changes in Fe along a Glaciated Greenlandic Fjord. Front. Earth Sci. 4, (2016).

24. Hopwood, M. J., Statham, P. J., Skrabal, S. A. & Willey, J. D. Dissolved iron(II) ligands in river and estuarine water. Mar. Chem. 173, 173¨C182 (2015).

25. Hopwood, M. J., Bacon, S., Arendt, K., Connelly, D. P. & Statham, P. J. Glacial meltwater from Greenland is not likely to be an important source of Fe to the North Atlantic. Biogeochemistry 124, (2015).

26. Willey, J. D., et al. The role of fossil fuel combustion on the stability of dissolved iron in rainwater. Atmos. Environ. 107, 187¨C193 (2015).

27. Hopwood, M. J., Statham, P. J. & Milani, A. Dissolved Fe(II) in a river-estuary system rich in dissolved organic matter. Estuar. Coast. Shelf Sci. 151, 1¨C9 (2014).

28. Hopwood, M. J., Statham, P. J., Tranter, M. & Wadham, J. L. Glacial flours as a potential source of Fe(II) and Fe(III) to polar waters. Biogeochemistry 118, 443¨C452 (2014).

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Associate Member The Future Ocean, Member Challenger Society for Marine Science, Member Scottish Association for Marine Science.

Reviewer for: Marine Chemistry, Journal of Geophysical Research, Frontiers in Marine/Earth Science, Antarctic Science, Nature Geoscience, Limnology & Oceanography, Estuarine and Coastal Shelf Science, Biogeosciences, The Cryosphere, Anthropocene, MEPS, NSF, NERC, CONICYT, FRAM Centre, Leverhulme Trust, Polish National Science Centre,