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dc.contributor.advisorCapon, Samantha J
dc.contributor.authorDecker, Emilia
dc.date.accessioned2021-06-17T04:29:02Z
dc.date.available2021-06-17T04:29:02Z
dc.date.issued2021-05-31
dc.identifier.doi10.25904/1912/4215
dc.identifier.urihttp://hdl.handle.net/10072/405193
dc.description.abstractFreshwater systems are dramatically transformed by human activities and are in need of effective monitoring to halt the decline of ecosystem health. Ecoacoustics presents a new cost effective way to monitor changes in ecosystems by investigating sounds and their relationships with the environment. However, while ecoacoustics has been explored as a monitoring tool in terrestrial and marine realms, it only gained traction in recent years in freshwater systems. In this thesis, I investigate ecoacoustics as a monitoring tool for freshwater systems. By investigating spatial-temporal variation in soundscapes of this realm (Chapter 2), examining the main biological drivers of these soundscapes (Chapter 3) and relating acoustic properties to environmental parameters (Chapter 4), I provide comprehensive studies on how freshwater soundscapes change and how ecoacoustics can be used as a monitoring tool. In the first study (Chapter 2), I characterize soundscapes across multiple freshwater streams, classify these streams according to their soundscape and use acoustic indices to describe spatial-temporal variation of freshwater soundscapes. The results demonstrate that soundscapes in 12 freshwater streams can be highly variable in both space and time. Even among similar streams in the same region, soundscapes differ greatly. Further all 12 streams used in this thesis have a unique soundscape with most differences between soundscapes being observed during the daytime. For the second study, I manually annotated biological sounds from the 12 freshwater streams analysed in the previous study. Results demonstrate high level of spatial and temporal variation in sound composition between streams with each stream containing a unique sound composition. The sound composition in each stream exhibits a daily cycle with site-specific sequences of sonic activity. Further, sound types are partitioned into temporal, frequency and spatial niches which aligns with the acoustic niche hypothesis. In my last study I relate acoustic properties of 12 freshwater streams to their environmental parameters. In particular, I explore the relationship between acoustic indices from Chapter 2, annotated biological sounds from Chapter 3 and environmental parameters of each stream. Further I investigate 1) the capacity of acoustic indices to detect biological sounds and 2) biological sounds and acoustic indices as potential monitoring tool for environmental parameters in freshwater streams. Results demonstrate that flow, depth and macrophyte cover are the key drivers of sound composition and that acoustic indices can be used to detect biological sounds and reflect environmental parameters in freshwater streams. Very few studies have explored soundscapes of freshwater bodies over a broad spatial and temporal scale. Overall, my thesis represents an important first step towards monitoring and analysing freshwater soundscapes. Soundscapes of freshwater streams exhibit spatial-temporal variation and are unique in their sound composition. This suggests that there is a great potential for ecoacoustics to provide a monitoring tool for freshwater systems, especially through easy and efficient use of acoustic indices. However, more research should investigate automated process to extract more acoustic information by using machine learning. My research expands our knowledge of freshwater acoustics and ecoacoustics as a cost effective long-term monitoring tool.
dc.languageEnglish
dc.language.isoen
dc.publisherGriffith University
dc.publisher.placeBrisbane
dc.subject.keywordsFreshwater systems
dc.subject.keywordssoundscapes
dc.subject.keywordsecoacoustics
dc.subject.keywordsmonitoring tool
dc.titleEcoacoustics as a sustainable tool to characterize, investigate and monitor freshwater streams
dc.typeGriffith thesis
gro.facultyScience, Environment, Engineering and Technology
gro.rights.copyrightThe author owns the copyright in this thesis, unless stated otherwise.
gro.hasfulltextFull Text
dc.contributor.otheradvisorLinke, Simon
dc.contributor.otheradvisorSheldon, Fran
gro.identifier.gurtID000000024504
gro.thesis.degreelevelThesis (PhD Doctorate)
gro.thesis.degreeprogramDoctor of Philosophy (PhD)
gro.departmentSchool of Environment and Sc
gro.griffith.authorDecker, Emilia


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