Geosciences (Dec 2021)

Laboratory Measurements to Image Endobenthos and Bioturbation with a High-Frequency 3D Seismic Lander

  • Inken Schulze,
  • Dennis Wilken,
  • Michael L. Zettler,
  • Mayya Gogina,
  • Mischa Schönke,
  • Peter Feldens

DOI
https://doi.org/10.3390/geosciences11120508
Journal volume & issue
Vol. 11, no. 12
p. 508

Abstract

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The presented 3D seismic system operates three transducers (130 kHz) from a stationary lander and allows non-destructive imaging of small-scale objects within the top decimeters of silty sediments, covering a surface area of 0.2 m2. In laboratory experiments, samples such as shells, stones, and gummy worms of varied sizes (down to approx. 1 cm diameter) could be located in the 3D seismic cube to a depth of more than 20 cm and differentiated by a reflected amplitude intensity and spatial orientation. In addition, simulated bioturbation structures could be imaged. In a practical application, the system allows to determine the abundance of endobenthos and its dynamic in muddy deposits in-situ and thus identify the intensity of local bioturbation.

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