An integrated airborne gravity survey of an offshore area near the northern Noto Peninsula, Japan*

Masao Komazawa; Shigeo Okuma; Jiro Segawa

doi:10.1071/EG10002

RESEARCH ARTICLE

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An integrated airborne gravity survey of an offshore area near the northern Noto Peninsula, Japan^*

Masao Komazawa ¹ ³ Shigeo Okuma ¹ Jiro Segawa ²

+ Author Affiliations

- Author Affiliations

¹ Geological Survey of Japan, AIST, Central 7, 1-1-1 Higashi, Tsukuba, Ibaraki 305-8657, Japan.

² Tokyo University of Marine Science and Technology, 5-32-7 Minamidaira, Hino, Tokyo 191-0041, Japan.

³ Corresponding author. Email: komazawa-m@aist.go.jp

Exploration Geophysics 41(1) 88-95 https://doi.org/10.1071/EG10002
Submitted: 10 September 2009 Accepted: 25 December 2009 Published: 19 February 2010

Abstract

An airborne gravity survey using a helicopter was carried out in October 2008, offshore along the northern Noto Peninsula, to understand the shallow and regional underground structure. Eleven flight lines, including three tie lines, were arranged at 2 km spacing within 20 km of the coast. The total length of the flight lines was ~700 km. The Bouguer anomalies computed from the airborne gravimetry are consistent with those computed from land and shipborne gravimetry, which gradually decrease in the offshore direction. So, the accuracy of the airborne system is considered to be adequate. A local gravity low in Wajima Bay, which was already known from seafloor gravimetry, was also observed. This suggests that the airborne system has a structural resolution of ~2 km.

Reduction of gravity data to a common datum was conducted by compiling the three kinds of gravity data, from airborne, shipborne, and land surveys. In the present study, we have used a solid angle numerical integration method and an iteration method. We finally calculated the gravity anomalies at 300 m above sea level. We needed to add corrections of 2–5 mGals in order to compile the airborne and shipborne gravity data smoothly, so the accuracy of the Bouguer anomaly map is considered to be nearly 2 mGal on the whole, and 5 mGals at worst in limited or local areas.

Key words: airborne gravity survey, Bouguer anomalies, graben, Noto Peninsula, shipborne gravity survey, reduction to datum level.

Acknowledgments

The authors thank the Japan Aviation College of the Japan Aviation Academy, Noto Airport Office and Japan Air Self-Defence Force for their cooperation on this survey. The authors thank two anonymous reviewers for valuable comments, and Dr Lindsay Thomas of Australian Society of Exploration Geophysicists for his specific reading and valuable comments.

References

Geological Survey of Japan, 2000, Gravity CD-ROM of Japan, Digital Geoscience Map P-2: Geological Survey of Japan.

Komazawa, M., 1988, A gravimetric terrain correction method by assuming annular prism model: Journal of Geodesy Society of Japan 34, 11–23.[in Japanese with English abstract]
Komazawa M. , and Okuma S. , 2010, 1 : 200,000 Gravity map in and around the northern part of Noto Peninsula, with explanatory note, In:Seamless Geoinformation of coastal zone, “Northern coastal zone of Noto Peninsula” Digital Geological Map S-1: Geological Survey of Japan, AIST.

Kuroishi, Y., Ando, H., and Fukuda, Y., 2002, A new hybrid geoid model for Japan, GSIGEO2000: Journal of Geodesy 76, 428–436.
| Crossref | GoogleScholarGoogle Scholar | US NASA and NIMA, 1998, United States National Aeronautical and Space Agency and National Imagery and Mapping Agency EGM96/The NASA GSFS and NIMA Joint Geopotential Model. Available online at: http://cddisa.gsfc.nasa.gov/926/egm96/getit.html (accessed 2 January, 2010)

¹ ^*Part of this paper was presented at the 9th SEGJ International Symposium (2009).