Acoustic sensors enable efficient and non-invasive monitoring of a wide range of species, including many that are difficult to monitor in other ways. Although they were initially limited in application scope largely due to cost and hardware constraints, the development of low-cost, open-source models like the Audiomoth in recent years has increased access immensely and opened up new avenues of research. For example, some teams are using them to identify illicit human activities through the detection of associated sounds, like gunshots, vehicles, or chainsaws (e.g. OpenEars).
With this relatively novel dimension of wildlife monitoring rapidly advancing in both marine and terrestrial systems, it is crucial that we identify and share information about the utility and constraints of these sensors to inform efforts. A recent study identified advancements in hardware and machine learning applications, as well as early development of acoustic biodiversity indicators, as factors facilitating progress in the field. In terms of limitations, the authors highlight insufficient reference sound libraries, a lack of open-source audio processing tools, and a need for standardization of survey and analysis protocols. They also stress the importance of collaboration in moving forward, which is precisely what this group will aim to facilitate.
If you're new to acoustic monitoring and want to get up to speed on the basics, check out these beginner's resources and conversations from across the WILDLABS platform:
Three Resources for Beginners:
- Listening to Nature: The Emerging Field of Bioacoustics, Adam Welz
- Ecoacoustics and Biodiversity Monitoring, RSEC Journal
- Monitoring Ecosystems through Sound: The Present and Future of Passive Acoustics, Ella Browning and Rory Gibb
Three Forum Threads for Beginners:
- AudioMoth user guide | Tessa Rhinehart
- Audiomoth and Natterjack Monitoring (UK) | Stuart Newson
- Help with analysing bat recordings from Audiomoth | Carlos Abrahams
Three Tutorials for Beginners:
- "How do I perform automated recordings of bird assemblages?" | Carlos Abrahams, Tech Tutors
- "How do I scale up acoustic surveys with Audiomoths and automated processing?" | Tessa Rhinehart, Tech Tutors
- Acoustic Monitoring | David Watson, Ruby Lee, Andy Hill, and Dimitri Ponirakis, Virtual Meetups
Want to know more about acoustic monitoring and learn from experts in the WILDLABS community? Jump into the discussion in our Acoustic Monitoring group!
Header image: Carly Batist
- 0 Resources
- 0 Discussions
- 7 Groups
Mobile developer w/ a passion for nature and conservation
- 0 Resources
- 10 Discussions
- 6 Groups
Australian National University (ANU)
- 0 Resources
- 0 Discussions
- 4 Groups
soundscape analysis, bioacoustic, Ornithologist, Birdwatcher, Wildlife photographer, Graduated in Environmental Studies,Ecotour guide
- 1 Resources
- 0 Discussions
- 3 Groups
- 0 Resources
- 0 Discussions
- 11 Groups
- @Sumit_Arora
- | He/Him/His
Centre for Wildlife Studies
Tech & Partnerships at CWS | Tech4Good | Sustainability | Biodiversity | Climate Action | Heartfulness
- 0 Resources
- 0 Discussions
- 4 Groups
- 0 Resources
- 0 Discussions
- 3 Groups
- 0 Resources
- 0 Discussions
- 8 Groups
- @MilesParsons
- | he/his
Aquatic bioacoustician with love of the ocean, wildlife and music (whether made by humans or animals)
- 0 Resources
- 1 Discussions
- 1 Groups
Hello, I am working as Enterprise Solution Architect with Department of Conservation, New Zealand Government. I am keen to learn the progresses and advancements made in the conservation space. This will provide us the starting point to collaborate and implement the technology.Tkx
- 0 Resources
- 7 Discussions
- 12 Groups
The Cornell Lab of Ornithology
Capacity Building Co-lead at the K. Lisa Yang Center for Conservation Bioacoustics
- 0 Resources
- 0 Discussions
- 1 Groups
- @jejl
- | Dr
Application of radio astronomy techniques to conservation research, particularly in acoustics.
- 0 Resources
- 7 Discussions
- 4 Groups