Underwater_Geophysics

Underwater Prospection

This category includes all of the various techniques used by underwater archaeologists to determine the location of archaeological sites. As the list expands, appropriate subdivisions will be made.

Arnold, J. B., III (1974). A Magnetometer Survey of the 19th Century Steamboat Black Cloud. Texas Archaeological Society Bulletin 45:225-230.

Arnold, J. B., III (1976). An Underwater Archeological Magnetometer Survey and Site Test Excavation Project off Padre Island. Underwater Archeology Series No. 3. Texas Antiquities Committee, Austin.

Arnold, J. B., III (1982). A Matagorda Bay Magnetometer Survey and Site Test Excavation Project. Underwater Archeology Series No. 9. Texas Antiquities Committee, Austin.

Arnold, J. B., III (1986). Marine Magnetometer Survey of Archeological Materials Found near Galveston, Texas. Underwater Archeology Series No. 10. Texas Antiquities Committee, Austin.

Arnold, J. B., III and C. J. Clausen (1975). A Radar Position-Fixing System for Marine Magnetometer Surveys. Archaeometry 17(2):237-239.

Arnold, J. and G. Kegley (1974). Results of a Magnetometer Survey at Hueco Tanks, A Prehistoric Mogollon Village in Western Texas. Ms. on file, Texas Historical Commission, Austin.

Bascom, W. (1971). A Tool for Deep-water Archaeology. The International Journal of Nautical Archaeology and Underwater Exploration 1:180-184.

Bass, G. F. (1968). New Tools for Undersea Archaeology. National Geographic Magazine 134:403-422.

Bass, G.F. (1970). Archaeology Under Water. Penguin Books, London.

Bass, G. F. and D. M. Rosencrantz (1968). A Diversified Program for the Study of Shallow Water Searching and Mapping Techniques. Final Report for Contract N00014-67A-0216-0002. U.S. Office of Naval Research, Washington, D. C.

Blake, V. S. (1995). The Simulation of Side-scan Sonar Images An Illustration of Interpretation Problems in Marine Archaeology Search and Survey. In Science & Site: Evaluation and Conservation, edited by John Beavis and Katherine Barker, pp. 125-134. Occasional Paper 1. School of Conservation Sciences, Bournemouth University, Poole, England.

Blake, V.S. (1991). Remote Sensing in Underwater Archaeology. Science and Archaeology 33:3-17.

Blake, V.S. (1993). Remote Sensing in Underwater Archaeology: Potentials and Pitfalls. Scottish Trust for Underwater Archaeology monograph.

Blake, V.S. (1995). The Simulation of Side-scan Sonar Images. Archaeological Prospection 2(1):29-56.

Blom, R.G., R.E. Crippen, and C. Elachi (1984). Detection of Subsurface Features in SEASAT Radar Images of Means Valley, Mojave Desert, California. Geology 12:346-349.

Broadwater, J. D. (1988). Supporting Underwater Archaeology with Ocean Technology. Oceans 88:837-839.

Buckingham, M. J. (1992). Ocean-acoustic Propagation Models. J Acoustique 223-287.

Chauhan, O. S. and F. Almeida (1988). Geophysical Methods as a Tool to Explore Submerged Marine Archaeological Sites. In Marine Archaeology of Indian Ocean Countries. S. R. Rao, ed. pp. 3-5. National Institute of Oceanography, Goa, India.

Claussen, C. J. (1967). A New Underwater Excavating System for the Archaeologist. Conference on Historic Site Archaeology Papers 2(1):98-106.

Duck, R. W (1995). Application of Side-scan Sonar to Archaeological Sites Underwater. In Science & Site: Evaluation and Conservation. J. Beavis and K. Barker, pp. 109-124. Occasional Paper 1. School of Conservation Sciences, Bournemouth University, Poole, England.

Duck, R. W. and W. M. Dow (1994). Side-Scan Sonar Reveals Submerged Remains of the First Tay Railroad Bridge. Geoarchaeology 9(2):139-153.

Duck, R. W. and J. McManus (1987). Sidescan Sonar Applications in Limnoarchaeology. Geoarchaeology 2:223-230.

Edgerton, H. E. (1963). Sub-bottom Penetrations in Boston Harbor. Journal of Geophysical Research 68(9):2753-2760.

Fajklewicz, Z. J. (1972). Sonar Survey. In Marine Archaeology Colston Papers 23. D. J. Blackman, ed.

Hall, E. T. (1966). A Sea-going Sonar Position-fixing System. Archaeometry 9:45-50.

Hobbs, C. H., III, D. B. Blanton, R. A. Gammisch, and J. Broadwater (1994). A Marine Archaeological Reconnaissance Using Side-Scan Sonar, Jamestown Island, Virginia, U.S.A. Journal of Coastal Research 10(2):351-359.

Kelland, N. C. (1973). Assessment Trials of Underwater Acoustic Triangulation Equipment. The International Journal of Nautical Archaeology and Underwater Exploration 2(1):163-168.

Klein, M. (1981). Developments in Remote Sensing for Underwater Archaeology. In Underwater Archaeology: The Challenge before Us. Proceedings of the Twelfth Conference on Underwater Archaeology. G. P. Watts, ed. pp. 241-245. Fathom Eight Publication.

Leonard, P. and S. Scheifele (1972). An Underwater Measuring Device. The International Journal of Nautical Archaeology and Underwater Exploration 1:165-186.

Lichtman, G.S., G.I. Shiller and L.J. Pierson (1984). Geophysical Evaluation of Submerged Post-Wisconsin Potential Archaeological Sites, Santa Barbara Channel, California. 54th Annual Internat. Mtg., Soc. Expl. Geophys., Expanded Abstracts 84:189-190.

Linden, R.H. and P.J.Shurer (1984). Results of a Sub-Bottom Acoustic Survey in a Search for the Tonquin. The International Journal of Nautical and Underwater Exploration 13.4: 305-309.

Lundin, E. (1973). Determining the Positions of Objects Located beneath a Water Surface. The International Journal of Nautical Archaeology and Underwater Exploration 2(2):371-380.

McGhee, M. S., B. P. Luyendyk, and D. E. Boegman (1968). Location of an Ancient Roman Shipwreck by Modern Acoustic Techniques -- A Critical Look at Marine Technology. Marine Technology Society 4th Annual Conference, Washington, D.C.

NAS (1995). Archaeology Underwater: The NAS Guide to Principles and Practice. Archetype, London.

Quinn, R., J. M. Bull, and J. K. Dix (1997). Imaging Wooden Artefacts using Chirp Sources. Archaeological Prospection 4(1):25-35.

Rajamanickam, G. and L. V. Subba Raju (1988). Application of High Resolution Shallow Seismic Investigations for Marine Archaeological Sites. In Proceedings of the First Indian Conference on Marine Archaeology of Indian Ocean Countries. S. R. Rao, ed. pp. 73-77. National Institute of Oceanography, Dona Paula, Goa.

Rao, T. C. S. (1988). Geophysical Techniques to Locate Pre-historic Sites and Artefacts on the Continental Shelf. In Marine Archaeology of Indian Ocean Countries. S. R. Rao, ed. pp. 73-77. National Institute of Oceanography, Goa, India.

Redknap, M. (1990). Surveying for Underwater Archaeological Sites: Signs in the Sands. The Hydrographic Journal 5:11-16.

Ruppé, R.J. (1988). The Location and Assessment of Underwater Archaeological Sites. In Wet Site Archaeology. B.A. Purdy, ed. pp. 55-68. The Telford Press, Caldwell, New Jersey.

St. John Wilkes, B. (1971). Nautical Archaeology: A Handbook. David & Charles, Newton Abbot, England.

Stright, M.J. (1986). Evaluation of Archaeological Site Potential on the Gulf of Mexico Continental Shelf Using High-resolution Seismic Data. Geophysics 51(3):605-622.

Theoret, M. A. (1980). Side-scan Sonar in Lake Champlain Vermont, USA. International Journal of Nautical Archaeology 9(1):35-41.

Tidewater Atlantic Research (1993). A Phase I Magnetic and Acoustic Remote Sensing and Target Assessment Investigation for the East Channel of the Mississippi River at Prairie Du Chien, Wisconsin. Tidewater Atlantic Research, Inc., Washington, North Carolina. Submitted to the U. S. Army Corps of Engineers, St. Paul District, St. Paul, Minnesota. Contract No. DACW37-92-M-1199 and DACW37-92-M-0132.

Velegrakis, A., D. J. Tomalin, and M. B. Collins (1992). Poole Bay Project: An Appraisal of the Seabed Archaeological Potential, Based on the Analysis of Geophysical Data. SUDO Technical Report SUDO/TEC/92/13/C. Southampton, University Department of Oceanography, England.