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ABSTRACT
Automated ultrasonic recordings are widely used in basic and applied research to detect the presence of bats. Often, algorithms for the automated identification of species are based on a pre-processing of acoustic information that involves the generation of spectrograms. Even though this approach is technically advanced, recent surveys highlight substantially high failure rates to identify species correctly, which urges for improved processes. Here, we tested an entirely new method, in particular, the transformation of ultrasonic recordings into variant maps. To compare this method with a spectrogram-based method, we used a database consisting of 160 echolocation calls from eight European bat species, including species of the genus Myotis that are inherently difficult to separate based on echolocation calls. For non-Myotis species, both methods led to a 100% correct identification rate, while for Myotis species the use of variant maps led to a lower identification rate of 85.3% compared to 91.1% that was achieved with a spectrogram-based method. However, a combination of both methods could lead to an identification rate of 94.1% for Myotis species. This result suggests combining our approach with spectrogram-based techniques to improve the automated identification of species based on acoustic information.
Acknowledgements
Financial support by the National Natural Science Foundation of China NSFC (No. 61362014) and the Overseas Higher-level Scholar Project of Yunnan Province, China, is gratefully acknowledged. Moreover, we appreciate the financial support by the Federal Ministry of Science, Research and Culture in Brandenburg, the University of Potsdam, the Leibniz Institute for Zoo and Wildlife Research and the Deutsche Forschungsgemeinschaft (Vo 890/22). We also thank Holger Goerlitz for providing M. capaccinii recordings and Lutz Wiegrebe for providing M. daubentonii sequences. Finally, we would like to thank all the reviewers who contributed to this manuscript for their highly valuable comments and suggestions.
Disclosure statement
No potential conflict of interest was reported by the authors.
Supplemental Material
Supplemental data for this article can be accessed at https://doi.org/10.1080/09524622.2019.1621776.