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
- @MattyD797
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PhD Student | Cornell University | Smithsonian Institution; My focus is in computational ecology within fishery acoustics
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Bioacoustics @CarbonRewild
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Sea Mammal Research Unit Univ' St Andrews
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DrivenData
Engineer and AI for Good leader working on bringing machine learning tools to social impact organizations.
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Research scientist developing conservation technology in environmental monitoring and cultural preservation.
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I'm a PhD candidate in the Responsive Environments Group, working on electronic systems for human and wildlife monitoring.
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Wildlife biologist interested in biodiversity monitoring and the conservation of mammals. Passionate photographer.
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Do you have photos and videos of your conservation tech work? We want to include them in a conservation technology showcase video
17 May 2024
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Read in detail about how to use The Inventory, our new living directory of conservation technology tools, organisations, and R&D projects.
1 May 2024
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The Inventory is your one-stop shop for conservation technology tools, organisations, and R&D projects. Start contributing to it now!
1 May 2024
Technology to End the Sixth Mass Extinction. Salary: $132 - $160k; Location: Seattle WA; 7+ years of experience in hardware product development and manufacturing; View post for full job description
1 May 2024
TBC is looking for an applicant to lead on the design, analysis and reporting of data from a wide range of innovative bat population monitoring surveys with a particular focus on passive acoustic monitoring, undertake...
24 April 2024
Full-time 3 year postdoctoral fellowship in Escondido, CA
22 April 2024
In a recent publication we tested Underwater Passive Acoustic Monitoring (UPAM) as a feasible non-invasive technique to study the calling behavior of therathened aquatic Andean frogs under natural conditions in the...
6 April 2024
What can soundscapes tell us about ecosystem functioning and health? We are looking to hire a postdoctoral researcher in ecoacoustics for Nature Recovery at Oxford
2 April 2024
Hussey Labs seeks a senior post-doctoral researcher/senior research associate for movement ecology of Greenland halibut in the context of fisheries management across Baffin Bay-Davis Strait, Eastern Canadian Arctic.
13 March 2024
Catch up on the conservation tech discussions and events that happened during World Wildlife Day 2024!
7 March 2024
Do you know anyone interested in this position? Let them know by sharing widely.
27 February 2024
The Ecological Acoustics and Behavior Lab at the University of New Hampshire seeks a PhD student to join our lab to investigate how forest habitat affects moose occupancy and soundscape in northern New Hampshire
13 February 2024
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43 Products
Recently updated products
Description | Activity | Replies | Groups | Updated |
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Hi all,I'm curious to hear experiences/thoughts on mounting microphones in potted instrument housings that will receive a fair amount of... |
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Acoustics | 16 hours 56 minutes ago | |
Hi Tabitha, What recording settings were you using when you saw these differences? I've measured the consumption across some different firmware versions and I can't see any... |
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Acoustics | 1 day 23 hours ago | |
Wow.. Really exciting to see this effort. Congratulations on the award!I have been interested in this subject for a long time, as we have elephant-human conflicts in plenty in... |
+7
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Acoustics | 6 days 22 hours ago | |
Hello!Long time, no update. @StephODonnell suggested I post here with my thesis and some reflections. ---------------------------------------------------------TL;DR... |
+19
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Acoustics | 2 weeks 2 days ago | |
I think I've landed on the Wildlife Acoustics Song Meter Mini Bat 2 for now, but I'm definitely interested to see how this cheaper tech progresses |
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Acoustics | 2 weeks 3 days ago | |
Hi Jesse,For a material to be acoustically transparent (in air), the speed of sound in the material times its density must match that of air. Realistically, any solid... |
+1
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Acoustics, Biologging | 2 weeks 3 days ago | |
Hi Steph, We appreciate the support! Thanks for the tag and your help managing the community!Patrick |
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Sensors, Acoustics, Conservation Dogs, Emerging Tech, Open Source Solutions | 2 weeks 3 days ago | |
Hi Sol,If the maximum depth is 30m, it would be worth experimenting with HydroMoth in this application especially if the deployment time is short. As Matt says, the air-filed case... |
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Acoustics, AI for Conservation, Data management and processing tools, Emerging Tech, Sustainable Fishing Challenges | 2 weeks 3 days ago | |
Oh wow, thank you so much!!!I will keep that four advices in mind! |
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Acoustics | 2 weeks 4 days ago | |
You won't get any audio if you don't allow enough time for the hydromoth/audiomoth to write. So when you do a continuous recording you need to experiment a little. I'm sure there... |
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Acoustics | 2 weeks 5 days ago | |
Congratulations! My first hydromoth was just arrived yesterday and so excited! Looking forward for the update from your project!!! |
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Acoustics, Biologging, Climate Change, Conservation Tech Training and Education, Data management and processing tools, Emerging Tech, Open Source Solutions, Protected Area Management Tools, Sensors, Software and Mobile Apps | 2 weeks 5 days ago | |
If you have the resources, I would suggest testing the sensitivity and directionality of the system at relevant frequencies both with and without an external mic, and let the... |
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Acoustics | 2 weeks 6 days ago |
Detection and removing of windy events in wild acoustic recordings
12 June 2023 1:28pm
19 July 2023 12:21am
Audacity has a noise filter which one 'trains' on a piece of recorded noise. Perhaps it is worth a shot. Freeware, open source, and with a community of developers and users.
30 January 2024 2:00pm
Hi Francesca!
Did you managed this problem somehow? Can you post the workflow or the solution that worked for you?
Power managment/Recharging System and Communication System
2 January 2024 4:06pm
26 January 2024 8:49am
"Seychelles and South Africa did not allow Starlink to operate"
This is not good, has implications for anti-poaching measures.
26 January 2024 9:03am
Power usage for microcontrollers with solar is much more manageable. For Raspberry Pi's and higher it gets expensive and big.
I'm quite impressed by the specs from the Goal Zero Yeti devices. This can have high capacity and be charged with Solar. Not small though. And the price is not in proportion to the Pi's.
So this 200x model for example, would be close to 16 days running the audio recorder. Let's say 10. without solar. Add solar? Depends on the size of the panels I guess. Power usage for mobile networking? Depends on how much you transmit.
Probably some well documented experiments would be really nice for people here. Sounds like something nice for the next set of grants :)
26 January 2024 2:11pm
Real nice video. I'll have another look in the weekend in detail.
New paper - An integrated passive acoustic monitoring and deep learning pipeline for black-and-white ruffed lemurs in Ranomafana National Park, Madagascar
23 January 2024 4:08pm
19 February 2024 4:22pm
19 February 2024 5:46pm
Wireless communication for Jungle
23 January 2024 1:21pm
Questionnaire for Pain Points and Needs in Bioacoustics
23 January 2024 12:37pm
Hi! We're engineers eager to understand how technology can simplify acoustic work. If you use recorders, your input would be invaluable. Please consider taking our 5min survey. As a thank you, participants will be entered into a draw for a Audio Moth Recorder! Thank you so much!!
Monitoring setup in the forest based on the wifi with 2.4 GHz frequency.
30 December 2023 4:39pm
18 January 2024 8:17pm
Hi Dilip,
I do not have data about signal distortion in a forest area and with the signal you are intended to use.
However, in a savannah environment, when I put a tour on the highest point of the park, Lora signal (avg 900MHz) is less distorted than WiFi signal (2.4GHz). This is normal as a physics law: the frequency determines the wave length, and the less the length (obviously the less the frequency), the less obstructed the signal.
So, without interfering with your design, I would say that in a forest configuration, WiFi will need more access points deployed and may be more costly, and in your context, even when using LoRa, you will need more gateways than I have in a savannah.
To design the approximate number of gateways, you may need to use terrain Visibility analysis.
To design the cameras deployment, you will need to comply with the sampling methods defined in your research. However, if it is on for surveillance reasons, you may need to rely on terrain visibility analysis also.
Best regards.
22 January 2024 6:22pm
I've got quite a lot of experience with wireless in forested areas and over long(ish) ranges.
Using a wifi mesh is totally possible, and it will work. You will likely not get great range between units. You will likely need to have your mesh be fairly adaptable as conditions change.
Wireless and forests interact in somewhat unpredictable ways it turns out. Generally, wireless is attenuated by water in the line-of-sight between stations. From the Wifi perspective, a tree is just a lot of water up in the air. Denser forest = more water = worse communications. LoRa @ 900Mhz is less prone to this issue than Wifi @ 2.4Ghz and way less prone than Wifi @ 5Ghz. But LoRa is also fairly low data rate. Streaming video via LoRa is possible with a lot of work, but video streaming is not at all what LoRa was build to do, and it does it quite poorly at best.
The real issue I see here is to do with power levels. CCTV, audio streaming, etc are high data rate activities. You may need quite a lot of power to run these systems effectively both for the initial data collection and then for the communications.
If you are planning to run mains power to each of these units, you may be better off running an ethernet cable as well. Alternatively, you can run "power line" networking, which has remarkably good bandwidth and gets you back down to a single twisted pair for power and communications.
If you are planning to run off batteries and/or solar, you may need a somewhat large power system to support your application?
23 January 2024 1:19am
I would recommend going with Ubiquity 2.4Ghz devices which have performed relatively well in dense foliage of the California Redwood forests. It took a lot of tweaking to find paths through the dense tree cover as mentioned in the previous posts.
Audiomoth Bat Call Triggering Settings
22 January 2024 9:48am
22 January 2024 7:26pm
Nils Bouillard (@Nilsthebatman) would be good to talk with!
Adrià López-Baucells also has lots of useful info on his website.
23 January 2024 1:09am
Thank you @carlybatist
Program Officer - Bioacoustics, WILDLABS
22 January 2024 9:37pm
Introducing Citibats Cambodia Citizen Science Project
22 January 2024 7:29am
Hiring bioacoutics analysts
19 January 2024 4:18am
Recycled & DIY Remote Monitoring Buoy
15 January 2024 1:14am
15 January 2024 9:17pm
Hello fellow Brett. Cool project. You mentioned a waterseal testing process. Is there documentation on that?
18 January 2024 10:25am
I dont have anything written up but I can tell what parts we used and how we tested.
Its pretty straightforward, we used this M10 Enclosure Vent from Blue Robotics:
M10 Enclosure Vent and Plug
This manual vent allows trapped pressure to escape from a watertight enclosure after it has been closed!
Blue RoboticsAlong with this nipple adapter:
Then you can use any cheap hand held break pump to connect to your enclosure. You can pump a small vacuum in and make sure the pressure holds.
Here's a tutorial video from blue robotics:
Let me know if you have any questions or if I can help out.
Two year postdoc - Machine Learning & Bioacoustics
16 January 2024 7:49am
Cold-Weather Soundscapes
Listening to nature how sound can help us understand environmental change
9 January 2024 6:33pm
Looking for a Supervisor/Research Group - ML-driven Marine Biomonitoring
3 January 2024 2:05pm
5 January 2024 11:07am
Hi Filippo,
Nice to read your message. Have you thought of contacting anyone in the Bioscience department at UCL? In our group "the People and Nature Lab", a few PhD students (Ben and Jason) are working on ML methods for coral reef monitoring. Might be interesting to reach out to them. List of People at CBER.
Best, Aude
7 January 2024 6:06pm
Thanks Aude, very useful. Will reach out to them!
Gunshot detection technology deployed
7 January 2024 5:41pm
The sound maps that predict poachers' movements
7 January 2024 5:33pm
Bird Acoustic Surveys: Comparison with traditional transect methods
6 November 2023 9:32am
4 December 2023 11:36am
Hi Theresa. In comparison to traditional survey, I think that the time/cost benefits of acoustics are good. Certainly the set-up, maintenance, and data management requirements are minimal. And if there is significant travel time to site, and the recording period of acoustic survey is long, then I think the benefits are compounded (i.e. there are economies of scale to acoustics that you don't get with trad surveys).
Until the last year or two, the data analysis for species identification has been the time-consuming part. However, now that systems such as BirdNET are available, this issue is fairly well dealt with (but still needs a little bit of skill/experience).
A couple of scientific papers have assessed these costs/benefits - I hope these make an interesting read.
Carlos
Cost‐benefit analysis of acoustic recorders as a solution to sampling challenges experienced monitoring cryptic species
Ecology & Evolution is a broad open access journal welcoming research in ecology, evolution, and conservation science, and providing a forum for evidence-based views.
Wiley Online Library
The Use of Automated Bioacoustic Recorders to Replace Human Wildlife Surveys: An Example Using Nightjars
To be able to monitor and protect endangered species, we need accurate information on their numbers and where they live. Survey methods using automated bioacoustic recorders offer significant promise, especially for species whose behaviour or ecology reduces their detectability during traditional surveys, such as the European nightjar. In this study we examined the utility of automated bioacoustic recorders and the associated classification software as a way to survey for wildlife, using the nightjar as an example. We compared traditional human surveys with results obtained from bioacoustic recorders. When we compared these two methods using the recordings made at the same time as the human surveys, we found that recorders were better at detecting nightjars. However, in practice fieldworkers are likely to deploy recorders for extended periods to make best use of them. Our comparison of this practical approach with human surveys revealed that recorders were significantly better at detecting nightjars than human surveyors: recorders detected nightjars during 19 of 22 survey periods, while surveyors detected nightjars on only six of these occasions. In addition, there was no correlation between the amount of vocalisation captured by the acoustic recorders and the abundance of nightjars as recorded by human surveyors. The data obtained from the recorders revealed that nightjars were most active just before dawn and just after dusk, and least active during the middle of the night. As a result, we found that recording at both dusk and dawn or only at dawn would give reasonably high levels of detection while significantly reducing recording time, preserving battery life. Our analyses suggest that automated bioacoustic recorders could increase the detection of other species, particularly those that are known to be difficult to detect using traditional survey methods. The accuracy of detection is especially important when the data are used to inform conservation.
plosone2 January 2024 3:28pm
Thanks for taking the time to respond and share these articles!
3 January 2024 4:55pm
A very nice read, especially for me someone new to the field as myself. Nice to see all of the various approaches and to know I wasn't re-inventing the wheel but adding something new (Potential new platform for real time localization).
Looks like my timing wasn't ideal to be included in your summary. Maybe for version #2 :)
Thanks for sharing!
Practical sound localization on the Raspberry Pi
17 December 2023 5:31pm
18 December 2023 11:24pm
Worth a read? The synopsis sounded very star trek like.
21 December 2023 6:22am
Probably not unless you are old enough to be nostalgic. I don’t think that’s you Brett 😀
31 December 2023 10:55am
Cool! My Sound Localization project has hit hackaday. The use case of fireworks localization was pure sensationalism.
Hydromoth for coastal & offshore surveying
16 November 2023 7:36am
18 November 2023 1:47am
Hi Sol,
I think your concern is well placed. The pros typically tow an array of hydrophones, in its simpler configuration it looks like a long fat rubber hose containing maybe a dozen transducers feeding their electrical signals to a recording unit back on the ship. All this is done to reduce noise from the ship, from waves crashing, and flow noise. The multiple transducers can also be electronically tuned to be directional so that it can be "pointed" away from a noise source (like the ship).
In your position, I would just try the simplest thing that could work, then fix the problems as they arise. It could be you may need to be dead in the water while recording. To address surface noise (slapping waves, wind), you could mount the hydromoth low down on a spar buoy, which you tow into position.
Best of luck, it sounds like an interesting project (c:
19 December 2023 2:20pm
Hydromoths are great for the price but they do not have the most streamlined housing and audio quality won't be as good as something like a SoundTrap or really any recorder with a proper hydrophone and 16-bit +DAQ system.
If you can afford it, this is an excellent SoundTrap based towed autonomous system NOAA have been using. It might work towed behind an autonomous vehicle
Alternatively, if you can have something inside the vehicle, a simple tape recorder (e.g. Tascam DR40X) and hydrophone on cable will provide excellent sound quality. You could also use something like a Raspberry Pi with audio focussed ADC hat to record but that would require a bit more programming. Even consider a standard AudioMoth and plug a proper hydrophone into the audio jack - this would still have a 12-bit ADC but would provide better sound quality than a hydromoth (hydrophones are more omnidirectional and there's no air filled causing reflections and attenuation)
20 December 2023 6:57am
If you are considering an external microphone and a towed system, then you would also be in a position to consider a raspberry pi with an external microphone with sbts-aru. Another option:
New Raspberry Pi Sound Localizing ARU is now fully released and ready for use
7 October 2023 2:10pm
18 December 2023 3:42pm
Hi @chrisgnicholas ! AudioMoth has a pipeline for exactly that:
Cheers,
Lars
Application-Notes/Using_the_AudioMoth_GPS_Board/Using_the_AudioMoth_GPS_Board.pdf at master · OpenAcousticDevices/Application-Notes
Papers relating to work carried out by Open Acoustic Devices. - OpenAcousticDevices/Application-Notes
GitHub18 December 2023 7:06pm
Very cool, real-time audio pattern matching is exactly what I meant! I'd love to hear updates as it goes.
18 December 2023 7:29pm
When I designed the recorder. I chose it to use jackd2 instead of pulse audio or direct alsa access because unless I was mistaken it could support multiple consumers of the sound source and the other approaches not.
Originally its purpose was part of my security system so it records as well as being able to connect and listen live. That’s simply a case of also installing icecast2 and darkice onto the same system. Then I discovered bio-acoustics and pivoted and then discovered wildlabs 😀
In principle you could both those things as well as real time audio pattern matching no problem.
Which market-available microphones, accelerometers and GIS sensors for dogs / pets ?
7 September 2023 3:21pm
6 December 2023 2:03pm
good to know that GPS coordinates can be used to sync the time.
Does GPS resolution allow to a desired time resolution (e.g. seconds) ? Does choice of time resolution significantly depends on the physiology of the animal (e.g. time of re-action to stimuli, hence less than a second) or for most animal communication and animal behaviour is it enough above a second?
7 December 2023 7:03am
Hi Luigi!
It is not the coordinates but the information from the "pulse per second" from the GPS which is used for the time sync.
Have a look at
17 December 2023 3:02pm
I am not an acoustics person but train and deploy canines in the field. Are you looking for something that records sniff rate and patterns? For GPS I just use a Garmin collar system Altha 100. There is a Conservation Canine group that might be worth asking your question in.
Call for Interview Subjects: Conservation Bioacoustics Methods
14 December 2023 8:47pm
15 December 2023 12:19pm
Happy to help Samuel, will send a message
15 December 2023 3:46pm
I'd love to!
16 December 2023 9:43am
Thank you Stefan! Will follow up with your email shortly.
Low-cost hydrophone - Invitation to tender
15 December 2023 9:28pm
Sustainable land managment
15 December 2023 3:38pm
Geospatial data training and education for conservation
15 December 2023 3:20pm
Sharing our startup's webpage, featuring information about our services and products.
We are open for new partnership, collaboration R&D project in the field of GIS data analysis.
Conservation of Kikuyu Escarpment Forest
1 December 2023 12:38pm
Deploying Song Meters in Nigeria
24 November 2023 9:01am
28 November 2023 3:08pm
Hi Joan,
Sounds like a great project! I would recommend having a look at some of the nice review literature and guidelines that are out there, like -
- https://www.researchgate.net/publication/368683386_Good_practice_guidelines_for_long-term_ecoacoustic_monitoring_in_the_UK
- https://academic.oup.com/bioscience/article/69/1/15/5193506 (Terrestrial Passive Acoustic Monitoring: Review and Perspectives)
- https://zslpublications.onlinelibrary.wiley.com/doi/full/10.1002/rse2.227 (Optimizing tropical forest bird surveys using passive acoustic monitoring and high temporal resolution sampling)
- https://onlinelibrary.wiley.com/doi/full/10.1111/brv.12890 (Acoustic indices as proxies for biodiversity: a meta-analysis)
- https://besjournals.onlinelibrary.wiley.com/doi/full/10.1111/2041-210X.14194 (Using acoustic indices in ecology: Guidance on study design, analyses and interpretation)
And some specific to nocturnal birds:
- https://pdfs.semanticscholar.org/f720/4b65248c2d9335dc0b70d1ac3b748145398e.pdf (In the still of the night: revisiting Eastern Whip-poor-will surveys with passive acoustic monitoring)
- https://link.springer.com/article/10.1007/s10531-023-02642-7 (Passive acoustic monitoring in difficult terrains: the case of the Principe Scops-Owl)
- https://www.tandfonline.com/doi/abs/10.1080/01650521.2021.1933699 (Passive acoustic monitoring of the Ferruginous Pygmy-Owl (Glaucidium brasilianum) over a complete annual cycle: seasonality and monitoring recommendations)
- https://www.biorxiv.org/content/10.1101/2023.05.22.541336v1.abstract (Nighthawk: acoustic monitoring of nocturnal bird migration in the Americas)
And a study on bird acoustic monitoring in Nigeria:
- https://www.sciencedirect.com/science/article/pii/S1470160X20312115 (Passive acoustic monitoring gives new insight into year-round duetting behaviour of a tropical songbird)
In terms of processing and analyzing the data, I work for Rainforest Connection which maintains Arbimon - a free, no-code ecoacoustic analysis platform to help automate species detection and classification within soundscapes. If you're interested, you can get started with our support docs!
There are also a number of stats packages for analyzing soundscape data (seewave, monitoR, warbleR in R; and OpenSoundscape, scikit-maad in Python).
AWMS Conference 2023
New book: Sound Identification of Terrestrial mammals
17 November 2023 1:55pm
12 July 2023 4:07pm
Hi everyone!
@baddiwad was one of our fantastic speakers in our June Variety Hour show, so we had the chance to hear about her work in a lot more detail. If you're interested in finding out more about Franscesca's project, catch up here: