Dr Michael Hatch
Position | Grant Funded Reseacher |
---|---|
Org Unit | Earth Sciences |
michael.hatch@adelaide.edu.au | |
Location |
Floor/Room
2
,
Mawson
,
North Terrace
|
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Biography/ Background
PhD (2012) Geophysics, 成人大片, Adelaide, SA, Australia. Thesis title: Investigations of electromagnetic methods applied to the in-river and near-river environment along the Murray River, Australia.
MSc (1991) Geosciences, University of Arizona, Tucson, AZ, USA. Thesis title: The Use of Global Positioning System to Measure Ground Subsidence in the Tucson Area, Southern Arizona.
BA (1983) Geosciences and Economics, University of Pennsylvania, Philadelphia, PA, USA.
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Research Interests
Fast-sampling TEM techniques as a rapid, accurate way of increasing data density in river environments, providing information on river sediment salt load. This information informs catchment managers directly about saline hotspots, and importantly, geological variation that can influence the discharge of saline ground water into the river. -
Publications
REFEREED PUBLICATIONS
Hatch, M. A., G. Heinson, T. Munday, S. Thiel, K. Lawrie, J. Clarke, and P. Mill, (accepted – 2013) The importance of including conductivity and dielectric permittivity information when processing low-frequency GPR and high-frequency EMI data sets. Journal of Applied Geophysics.
McLennan,S., S. Hill, M. A, Hatch, K. Barovich, V. Berens, (2013, in press), Riparian eucalypt biogeochemical expression of groundwater salinity, Murray River, South Australia, Geochemistry: Exploration, Environment, Analysis.
Hatch, M. A., G. Heinson, and T. Munday (2010) A comparative study of “in-river” geophysical techniques for defining variations in riverbed salt load as an aid to managing river salinization. Geophysics, vol. 75, no. 4, WA135-147.
Munday, T., M. A. Hatch, A. Fitzpatrick, and D. Allen (2010) AEM data for assessing irrigation channel leakage-a meritorious approach in an Australian setting? Proceedings of the Symposium on the Application of Geophysics to Engineering and Environmental Problems, SAGEEP.
, T. J. Munday, V. , M. A. Hatch, A. L. Telfer (2007) Mapping salt-loads of the Murray River, Australia, using airborne and in-river electromagnetic methods. Proceedings of the Symposium on the Application of Geophyics to Engineering and Environmental Problems, SAGEEP
, I. , A. , K. , V. , M. A. , R. C. (2007) Spatio-temporal monitoring of floodplain environments using electromagnetic methods: A scaled approach to understanding surface water-groundwater interactions on the Chowilla floodplain, South Australia. Proceedings of the Symposium on the Application of Geophyics to Engineering and Environmental Problems, SAGEEP
, V. , M. A. , T. , K. (2006) Mapping zones of saline groundwater discharge using nanotem: River Murray, South Australia 19th Symposium on the Application of Geophysics to Engineering and Environmental Problems, SAGEEP 2006: Geophysical Applications for Environmental and Engineering Hazards - Advances and Constraints
Barrett, B., G. Heinson, M. A. Hatch, and A. Telfer (2005) River sediment salt-load detection using a water-borne transient electromagnetic system. Journal of Applied Geophysics, 58, 29-44.
Telfer, A., V. Berens, M. A. Hatch, and C. Palfreyman (2005) Instream NanoTEM: providing increased resolution to stream salinisation and floodplain processes along the River Murray, southeast Australia. Australian Journal of Water Resources, 9, no. 2, 155-161.
Barrett, B., G. Heinson, M. A. Hatch, and A. Telfer (2002) Geophysical Methods in
Saline Groundwater Studies: Locating Perched Water Tables and Fresh-water Lenses. Exploration Geophysics, 33, 2, p. 115.SELECTED CONFERENCE PROCEEDINGS/ABSTRACTS
Hatch, M. A., J. Clarke, P. Mill and K. Lawrie (2009), Improvements in mapping of
floodplain dynamics by integrating drilling information with airborne EM, ground penetrating radar and ground based, high resolution EM: in ASEG Conference Proceedings, 2009.
Telfer, A., V. Berens, M. A. Hatch and C. Palfreyman (2004) Instream NanoTEM: Providing Increased Resolution to Stream Salinisation and Floodplain Processes along the River Murray. 1st National Salinity Engineering Conference, Perth, WA.
Hopkins, B., M. A. Hatch, and A. Telfer. (2003) Geophysics to Investigate River Murray Salinity: a Case Study Using Fast Sampling TEM. ASEG Conference Proceedings, 2003.
Hatch, M. A. and A. J. Mutton (2003) The Effect of Dipole Position Errors on E-field Measurements in Electrical Geophysical Surveys: Is close enough good enough?. ASEG International Proceedings 2003.
Meyers, J., M. Cooper, J. Bishop, and M. A. Hatch (2000) Downhole Magnetometric Resistivity Surveying for Refractory Gold Ore at Wiluna Gold Mine, WA. ASEG 14th International Conference, Preview, 84, p. 79. (2000 ASEG Conference Laric Hawkins Award, for Innovation in Geophysics)
Bishop, J., N. Carroll, M. Asten, M. A. Hatch, and S. MacInnes (1997) Finding Sphalerite at Broken Hill with Drillhole Magnetometric Resistivity, ASEG 12th International Conference, Exploration Geophysics, 28, Nos 1 and 2, p. 6.
Hatch, M. A., and J. S. Sumner (1991) Global Positioning System Measurement of Subsidence in the Tucson Basin, Pima County, Arizona, Geological Society of America, Conference Proceedings (1991), 23, p. A324.
Pool, D. R. and M. A. Hatch (1991) Gravity Response to Storage Change in the Vicinity of Infiltration Basins, Fifth Biennial Symposium on Artificial Recharge of Groundwater, Univ. of Arizona.
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Entry last updated: Thursday, 15 Dec 2022
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