Please use this identifier to cite or link to this item: https://repositorio.icmbio.gov.br/handle/cecav/1821
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dc.contributor.authorCampos, Ivan Braga-
dc.contributor.authorFewster, Rachel-
dc.contributor.authorTruskinger, Anthony-
dc.contributor.authorTowsey, Michael-
dc.contributor.authorRoe, Paul-
dc.contributor.authorVasques Filho, Demival-
dc.contributor.authorLee, Willian-
dc.contributor.authorGaskett, Anne-
dc.date.accessioned2023-09-27T18:26:33Z-
dc.date.available2023-09-27T18:26:33Z-
dc.date.issued2021-
dc.identifier.otherhttps://doi.org/10.1016/j.ecolind.2020.106953pt_BR
dc.identifier.urihttps://repositorio.icmbio.gov.br/handle/cecav/1821-
dc.description.abstractProtected areas (PAs) monitoring is a technical bottleneck that limits the implementation of decision-making processes for natural resource and wildlife management. Recent methodological advances make passive acous tic monitoring and associated acoustic index analysis an increasingly suitable method for PAs monitoring. Acoustic indices are mathematical filters that can provide standardised comparative information about the acoustic energy, which can be applied to compare communities. In this study we test whether acoustic indices are sufficiently sensitive to detect differences in the soundscape within each of the four seasons between a PA (the Serra do Cipó National Park, Brazil) and a surrounding farmland area. Statistical analysis of results from 12 acoustic indices is used to identify which of 20 acoustic regions, defined by frequency range and time period, present the greatest differences between the two sites. The soundscapes of the two sites differed most in autumn within the acoustic region 6, representing 05:30 – 09:00am and a range of 0.988–3.609 kHz. This acoustic region exhibited significant differences for all the 12 indices tested. Visual examination of 65 long-duration false-colour (LDFC) spectrograms resulted in the selection of 865 (from 1365) sound files with acoustic events within the range of acoustic region 6. Sonotype analysis of the 865 files showed that the soundscape outside the park is strongly influenced by human activity, with domestic animals rare in the park soundscape (1% of the sound files), but very common in the surrounding farmland environment (63% of the sound files). The main goal of monitoring programmes detecting biodiversity trends across space and time, which is here achieved via passive acoustic monitoring and acoustic indices. This confirms the utility of the techniques used here for PA monitoring, especially for detecting trends in anthropogenic disturbance, which is a common threat to natural habitats in parks and reserves in the tropics.pt_BR
dc.language.isoenpt_BR
dc.publisherEcological Indicators-
dc.subjectbioacousticspt_BR
dc.subjectecoacousticspt_BR
dc.subjectacoustic indicespt_BR
dc.subjectacoustic regionpt_BR
dc.subjectmonitoringpt_BR
dc.subjectprotected areaspt_BR
dc.subjectnational parkpt_BR
dc.subjectSerra do Cipópt_BR
dc.subjectCEM@VEpt_BR
dc.titleAssessing the potential of acoustic indices for protected area monitoring in the Serra do Cipó National Park, Brazilpt_BR
dc.typeArtigopt_BR
dc.volumes/nºpt_BR
dc.series/nºpt_BR
dc.initialpage01pt_BR
dc.finalpage11pt_BR
dc.capitulos/nºpt_BR
dc.event.uf(outra)pt_BR
dc.totalpage11pt_BR
dc.number120pt_BR
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