Effects of strong sound velocity gradients on propagation of low-frequency impulse sound: Comparison of fast field program predictions and experimental data

Hole, Lars Robert; Lunde, Per; Gjessing, Y. T.

doi:10.1121/1.420059

Cited by 5 publications

(5 citation statements)

References 20 publications

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“…In acoustic surveys of elephants, because the low frequencies in elephant calls (from this study, Mean: 19 Hz, Range: 7–81 Hz, 95% below 32 Hz, n = 423) propagate through the forest efficiently, detection probabilities among habitats can reasonably be assumed constant. A study of the propagation of low‐frequency sound over distances up to 1.5 km revealed that frequencies below 63 Hz did not experience measurable excess attenuation in the forested environment (Hole, Lunde & Gjessing, 1997). Although studies from the savannah habitat have demonstrated that elephant call detection varies with daily temperature inversions (Larom et al.…”

Section: Methodsmentioning

confidence: 99%

Acoustic estimation of wildlife abundance: methodology for vocal mammals in forested habitats

Thompson

Schwager

Payne

et al. 2010

African Journal of Ecology

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Habitat loss and hunting pressure threaten mammal populations worldwide, generating critical time constraints on trend assessment. This study introduces a new survey method that samples continuously and non‐invasively over long time periods, obtaining estimates of abundance from vocalization rates. We present feasibility assessment methods for acoustic surveys and develop equations for estimating population size. As an illustration, we demonstrate the feasibility of acoustic surveys for African forest elephants (Loxodonta africana cyclotis). Visual surveys and vocalizations from a forest clearing in the Central African Republic were used to establish that low‐frequency elephant calling rate is a useful index of elephant numbers (linear regression P < 0.001, radj.2 = 0.58). The effective sampling area was 3.22 km2 per acoustic sensor, a dramatic increase in coverage over dung survey transects. These results support the use of acoustic surveys for estimating elephant abundance over large remote areas and in diverse habitats, using a distributed network of acoustic sensors. The abundance estimation methods presented can be applied in surveys of any species for which an acoustic abundance index and detection function have been established. This acoustic survey technique provides an opportunity to improve management and conservation of many acoustically‐active taxa whose populations are currently under‐monitored.

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Section: Methodsmentioning

confidence: 99%

Acoustic estimation of wildlife abundance: methodology for vocal mammals in forested habitats

Thompson

Schwager

Payne

et al. 2010

African Journal of Ecology

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“…Studies have been published discussing the influence of atmospheric conditions on the measurements (Hole 1997. One study did detect higher attenuation at 63 Hz within a forest (Hole et al 1997), but this determination was based on comparison with a modeled prediction that used viscoelastic ground instead of a porous surface. A more straightforward analysis of these waveforms is recommended.…”

Section: Recommended Studiesmentioning

confidence: 99%

Past Research on Sound Propagation through Forests

Albert¹

2004

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This report reviews past scientific research to determine whether forests have any noise reduction effects for blast noise from artillery training or explosions. Unfortunately, there has been very little relevant work that would contribute to answering this question. For military noise sources, the main frequencies of interest are below 100 Hz. Most of the past investigations have been done at high frequencies using low-amplitude continuous wave noise sources rather than high-amplitude impulsive sources. For these reasons, additional measurements will be needed to determine the effect of forests on artillery and blast noise. DISCLAIMER: The contents of this report are not to be used for advertising, publication, or promotional purposes. Citation of trade names does not constitute an official endorsement or approval of the use of such commercial products. All product names and trademarks cited are the property of their respective owners. The findings of this report are not to be construed as an official Department of the Army position unless so designated by other authorized documents.

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“…This set of experiments examined blast noise propagation in summer and winter conditions near Haslemoen, Norway, recording over 550 blast events at distances up to 24 km. Hole et al (1997) presented variability in transmission loss for a subset of these data out to 1.4 km, and showed that the standard deviation of transmission loss increases with increasing distance and frequency, and the authors commented that meteorological variability contributed largely to this standard deviation and the errors in prediction. Researchers have also documented impacts of time-of-day on sound propagation.…”

Section: Introductionmentioning

confidence: 95%

Blast noise characteristics as a function of distance for temperate and desert climates

Valente

Ronsse

Pater

et al. 2012

The Journal of the Acoustical Society of America

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Variability in received sound levels were investigated at distances ranging from 4 m to 16 km from a typical blast source in two locations with different climates and terrain. Four experiments were conducted, two in a temperate climate with a hilly terrain and two in a desert climate with a flat terrain, under a variety of meteorological conditions. Sound levels were recorded in three different directions around the source during the summer and winter seasons in each location. Testing occurred over the course of several days for each experiment during all 24 h of the day, and meteorological data were gathered throughout each experiment. The peak levels (L(Pk)), C-weighted sound exposure levels (CSEL), and spectral characteristics of the received sound pressure levels were analyzed. The results show high variability in L(Pk) and CSEL at distances beyond 2 km from the source for each experiment, which was not clearly explained by the time of day the blasts occurred. Also, as expected, higher frequency energy is attenuated more drastically than the lower frequency energy as the distance from the source increases. These data serve as a reference for long-distance blast sound propagation.

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Effects of strong sound velocity gradients on propagation of low-frequency impulse sound: Comparison of fast field program predictions and experimental data

Cited by 5 publications

References 20 publications

Acoustic estimation of wildlife abundance: methodology for vocal mammals in forested habitats

Acoustic estimation of wildlife abundance: methodology for vocal mammals in forested habitats

Past Research on Sound Propagation through Forests

Blast noise characteristics as a function of distance for temperate and desert climates

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