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Ecoacoustics

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https://www.readbyqxmd.com/read/30002420/acoustic-complexity-of-vocal-fish-communities-a-field-and-controlled-validation
#1
Marta Bolgan, M Clara P Amorim, Paulo J Fonseca, Lucia Di Iorio, Eric Parmentier
The Acoustic Complexity Index (ACI) is increasingly applied to the study of biodiversity in aquatic habitats. However, it remains unknown which types of acoustic information are highlighted by this index in underwater environments. This study explored the robustness of the ACI to fine variations in fish sound abundance (i.e. number of sounds) and sound diversity (i.e. number of sound types) in field recordings and controlled experiments. The ACI was found to be sensitive to variations in both sound abundance and sound diversity, making it difficult to discern between these variables...
July 12, 2018: Scientific Reports
https://www.readbyqxmd.com/read/29876078/the-impact-of-environmental-factors-in-birdsong-acquisition-using-automated-recorders
#2
Nirosha Priyadarshani, Isabel Castro, Stephen Marsland
The use of automatic acoustic recorders is becoming a principal method to survey birds in their natural habitats, as it is relatively noninvasive while still being informative. As with any other sound, birdsong degrades in amplitude, frequency, and temporal structure as it propagates to the recorder through the environment. Knowing how different birdsongs attenuate under different conditions is useful to, for example, develop protocols for deploying acoustic recorders and improve automated detection methods, an essential part of the research field that is becoming known as ecoacoustics...
May 2018: Ecology and Evolution
https://www.readbyqxmd.com/read/28887176/ecoacoustic-codes-and-ecological-complexity
#3
REVIEW
Almo Farina
Multi-layer communication and sensing network assures the exchange of relevant information between animals and their umwelten, imparting complexity to the ecological systems. Individual soniferous species, the acoustic community, and soundscape are the three main operational levels that comprise this multi-layer network. Acoustic adaptation and acoustic niche are two more important mechanisms that regulate the acoustic performances at the first level while the acoustic community model explains the complexity of the interspecific acoustic network at the second level...
February 2018: Bio Systems
https://www.readbyqxmd.com/read/27413632/a-new-method-for-ecoacoustics-toward-the-extraction-and-evaluation-of-ecologically-meaningful-soundscape-components-using-sparse-coding-methods
#4
Alice Eldridge, Michael Casey, Paola Moscoso, Mika Peck
Passive acoustic monitoring is emerging as a promising non-invasive proxy for ecological complexity with potential as a tool for remote assessment and monitoring (Sueur & Farina, 2015). Rather than attempting to recognise species-specific calls, either manually or automatically, there is a growing interest in evaluating the global acoustic environment. Positioned within the conceptual framework of ecoacoustics, a growing number of indices have been proposed which aim to capture community-level dynamics by (e...
2016: PeerJ
https://www.readbyqxmd.com/read/27262416/the-acoustic-communities-definition-description-and-ecological-role
#5
Almo Farina, Philip James
An acoustic community is defined as an aggregation of species that produces sound by using internal or extra-body sound-producing tools. Such communities occur in aquatic (freshwater and marine) and terrestrial environments. An acoustic community is the biophonic component of a soundtope and is characterized by its acoustic signature, which results from the distribution of sonic information associated with signal amplitude and frequency. Distinct acoustic communities can be described according to habitat, the frequency range of the acoustic signals, and the time of day or the season...
September 2016: Bio Systems
https://www.readbyqxmd.com/read/27113387/use-of-ecoacoustics-to-determine-biodiversity-patterns-across-ecological-gradients
#6
Paul B C Grant, Michael J Samways
The variety of local animal sounds characterizes a landscape. We used ecoacoustics to noninvasively assess the species richness of various biotopes typical of an ecofriendly forest plantation with diverse ecological gradients and both nonnative and indigenous vegetation. The reference area was an adjacent large World Heritage Site protected area (PA). All sites were in a global biodiversity hotspot. Our results showed how taxa segregated into various biotopes. We identified 65 singing species, including birds, frogs, crickets, and katydids...
December 2016: Conservation Biology: the Journal of the Society for Conservation Biology
https://www.readbyqxmd.com/read/25062472/fish-bioacoustics
#7
REVIEW
Friedrich Ladich
Bony fishes have evolved a diversity of sound generating mechanisms and produce a variety of sounds. By contrast to sound generating mechanisms, which are lacking in several taxa, all fish species possess inner ears for sound detection. Fishes may also have various accessory structures such as auditory ossicles to improve hearing. The distribution of sound generating mechanisms and accessory hearing structures among fishes indicates that acoustic communication was not the driving force in their evolution. It is proposed here that different constraints influenced hearing and sound production during fish evolution, namely certain life history traits (territoriality, mate attraction) in the case of sound generating mechanisms, and adaptation to different soundscapes (ambient noise conditions) in accessory hearing structures (Ecoacoustical constraints hypothesis)...
October 2014: Current Opinion in Neurobiology
https://www.readbyqxmd.com/read/20922061/year-round-variability-of-ambient-noise-in-temperate-freshwater-habitats-and-its-implications-for-fishes
#8
Sonja Amoser, Friedrich Ladich
Changes in habitat acoustics over the year can potentially affect fish hearing and orientation to sound, especially in temperate climates. This is the first study where year-round changes in ambient noise in aquatic habitats were assessed. Seven different European fresh-water habitats were chosen for this study. Sound pressure level (SPL) and spectral composition of the ambient noise varied in both quiet stagnant habitats (lakes, backwaters) and in flowing habitats (streams, rivers). Linear equivalent SPL (L(Leq, 60s)) tended to be lower in stagnant habitats (means: 91...
June 2010: Aquatic Sciences
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