Research Portal

Dr Martin Austin

Senior Lecturer in Ocean Sciences

Affiliations

Links

ORCID: 0000-0003-3179-8767

Contact info

Office: 211 Marine Centre Wales     Phone: 01248 382803

Email: m.austin@bangor.ac.uk

Web: Google Scholar     ResearchGate     ORCID

Twitter: @mart_austin

I am an observational oceanographer and specialise in the hydro- and morpho-dynamics of the inter-tidal and shallow sub-tidal regions of the coastal ocean. My present research at Bangor includes:

  • The turbulent flow dynamics around sub-sea cables that causes seabed scour and subsequent cable failure. This ESPRC-funded research works in collaboration with three industry partners from the Marine Renewable Energy sector. It aims to reduce costs within the industry, where cable failures in 2014-17 cost the sector £250M.  
  • The dynamics of large-scale turbulent motions in tidally energetic regions. This EPSRC- and NRN-funded work seeks to quantify large-scale turbulent motions and assess the impacts on tidal energy extraction and infrastructure. Observational field experiments are being undertaken in the Menai Strait and around north Wales, and include industry collaborators from UK, Europe and the USA.
  • WASP - Waves Across Shore Platforms. EPSRC-funded grant investigating wave attenuation processes across rocky shore platforms at multiple sites across the UK and New Zealand to produce a new numerical modelling tool.
  • Nearshore inter- to sub-tidal sediment exchange caused by the interaction of wave-driven nearshore currents, tidal currents and cross-shelf currents. This is linked to the Crown Estates Anglesey Tidal Test Site, with particular interest in nearshore sub-sea cable pathways, and encompasses field measurements of the full water column velocity, turbulence and sediment profiles. Autonomous Coastal Observatory buoy units are being deployed to support this work in  spring 2018.

 

I graduated from Plymouth University in 2002 with a BSc in Ocean Science and completed my PhD in gravel beach morphodynamics at Loughborough University in 2005. I have subsequently been a Post-doctoral Research Fellow at: Plymouth University (2005 - 2007, Cross-shore sediment transport on sandy beaches); Loughborough University (2007, Dust generation on an Arctic pro-glacial flood plain); before returning once again to Plymouth (2007 - 2010, Impacts of offshore wave energy arrays on seabed and shoreline processes; and 2010 - 2013, Dynamics of rip currents and implication for beach safety).  Research Areas

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  1. Alongshore fluid motions in the swash zone of a sandy and gravel beach

    Austin, M. J., Masselink, G., Russell, P. E., Turner, I. L. & Blenkinsopp, C. E., Aug 2011, In: Coastal Engineering. 58, 8, p. 690-705

    Research output: Contribution to journalArticlepeer-review

  2. Swash-groundwater interaction on a steep gravel beach

    Austin, M. J. & Masselink, G., Dec 2006, In: Continental Shelf Research. 26, 20, p. 2503-2519

    Research output: Contribution to journalArticlepeer-review

  3. Published

    Water-level controls on macro-tidal rip currents

    Austin, M. J., Masselink, G., Scott, T. M. & Russell, P. E., 16 Dec 2013, In: Continental Shelf Research. 75, p. 28-40

    Research output: Contribution to journalArticlepeer-review

  4. Published

    The effect of bedform dynamics on computing suspended sediment fluxes using optical backscatter sensors and current meters

    Austin, M. J. & Masselink, G., Mar 2008, In: Coastal Engineering. 55, 3, p. 251-260

    Research output: Contribution to journalArticlepeer-review

  5. Published

    Morphological change and sediment dynamics of the beach step on a macrotidal gravel beach

    Austin, M. J. & Buscombe, D., 31 Mar 2008, In: Marine Geology. 249, 3-4, p. 167-183

    Research output: Contribution to journalArticlepeer-review

  6. Published

    Coastal sand dunes: storms and (over-)stabilisation

    Austin, M. & Walker-Springett, G., 1 Nov 2021, Geography Review, 35, 2, p. 8-13 6 p.

    Research output: Contribution to specialist publicationArticle

  7. Published

    Rip currents are a natural hazard along our coasts - here's how to spot them

    Austin, M., 27 Jul 2016, The Conversation.

    Research output: Contribution to specialist publicationArticle

  8. Relaxation time effects of wave ripples on tidal beaches

    Austin, M. J., Masselink, G., O'Hare, T. & Russell, P. E., 28 Aug 2007, In: Geophysical Research Letters. 34, 16, p. 1-5 5 p.

    Research output: Contribution to journalArticlepeer-review

  9. Published

    Temporal observations of rip current circulation on a macro-tidal beach

    Austin, M., Scott, T., Brown, J., Brown, J., MacMahan, J., Russell, P. E. & Masselink, G., 31 May 2010, In: Continental Shelf Research. 30, 9, p. 1149-1165

    Research output: Contribution to journalArticlepeer-review

  10. Groundwater dynamics in coastal gravel barriers backed by freshwater lagoons and the potential for saline intrusion: Two cases from the UK

    Austin, M. J., Masselink, G., McCall, R. T. & Poate, T. G., Aug 2013, In: Journal of Marine Systems. 123-124, p. 19-32

    Research output: Contribution to journalArticlepeer-review

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