|Determining the detection thresholds for harbor porpoise clicks of autonomous data loggers, the Timing Porpoise Detectors|Verfuß, U.K.; Dähne, M.; Gallus, A.; Jabbusch, M.; Benke, H. (2013). Determining the detection thresholds for harbor porpoise clicks of autonomous data loggers, the Timing Porpoise Detectors. J. Acoust. Soc. Am. 134: 2462-2468. hdl.handle.net/10.1121/1.4816571
In: The Journal of the Acoustical Society of America. American Institute of Physics: New York, etc. ISSN 0001-4966, more
Calibration Agroacoustics Acoustic sensing Sound pressure Acoustical properties Microphones Acoustics Amplifiers Computer software Acoustical measurements
|Authors|| || Top |
- Verfuß, U.K.
- Dähne, M.
- Gallus, A.
Timing Porpoise Detectors (T-PODs, Chelonia Ltd.) are autonomous passive acoustic devices for monitoring odontocetes. They register the time of occurrence and duration of high frequency pulsed sounds as possible odontocetes echolocation clicks. Because of evolution, five T-POD versions exist. Although the manufacturer replaced those by a digital successor, the C-POD, T-PODs are still used, and data from many field studies exist. Characterizing the acoustic properties of T-PODs enables the interpretation of data obtained with different devices. Here, the detection thresholds of different T-POD versions for harbor porpoise clicks were determined. While thresholds among devices were quite variable in the first T-POD generations, they became more standardized in newer versions. Furthermore, the influence of user-controlled settings on the threshold was investigated. From version 3 on, the detection threshold was found to be easily adjustable with version-dependent setting options “minimum intensity” and “sensitivity,” enabling the presetting of standard thresholds. In version 4, the setting “click bandwidth” had a strong influence on the detection threshold, while “selectivity” in version 3 and “noise adaptation = ON” or “OFF” in version 4 hardly influenced thresholds obtained in the tank tests. Nevertheless, the latter setting may influence thresholds in a complex acoustic environment like the sea.