Cetacean population density estimation from single fixed sensors using passive acoustics

Küsel, Elizabeth T.; Mellinger, David K.; Thomas, Len; Marques, Tiago A.; Moretti, David; Ward, John L.

doi:10.1121/1.3583504

Cited by 104 publications

(97 citation statements)

References 35 publications

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“…Based on all of these and the passive sonar equation, the transmission loss can be related to the source level. According to the passive sonar equation, 21,22 the transmission loss can be expressed as…”

Section: Detection Rangementioning

confidence: 99%

A small long-life acoustic transmitter for studying the behavior of aquatic animals

Deng

et al. 2016

Review of Scientific Instruments

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Acoustic telemetry is an important tool for studying the behavior of aquatic animals and assessing the environmental impact of structures such as hydropower facilities. However, the physical size, signal intensity, and service life of off-the-shelf transmitters are presently insufficient for monitoring certain species. In this study, we developed a small, long-life acoustic transmitter with an approximate length of 24.2 mm, diameter of 5.0 mm, and dry weight of 0.72 g. The transmitter generates a coded acoustic signal at 416.7 kHz with a selectable source level between 159 and 163 dB relative to 1 µPa at 1 m, allowing a theoretical detection range of up to 500 m. The expected operational lifetime is 1 yr at a pulse rate interval of 15 s. The new technology makes long-term acoustic telemetry studies of small fish possible, and is being deployed for a long-term tracking of juvenile sturgeon. C 2016 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license

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Section: Detection Rangementioning

confidence: 99%

A small long-life acoustic transmitter for studying the behavior of aquatic animals

Deng

et al. 2016

Review of Scientific Instruments

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“…The methodology employed in this study to estimate the population density of marine mammals off Newport, OR, will be based on the works of Zimmer et al (2008), Marques et al (2009), Küsel et al (2011), Ainslie (2013, and the results from the ONR-funded project "Cetacean density estimation from novel acoustic datasets by acoustic propagation modeling." In the latter, this study's PIs investigated the effects of call bandwidth, multipath arrivals, and the use of propagation models in population density estimation from single sensor datasets.…”

Section: Approach To Estimating Population Density From a Glider Datasetmentioning

confidence: 99%

“…In the latter, this study's PIs investigated the effects of call bandwidth, multipath arrivals, and the use of propagation models in population density estimation from single sensor datasets. Required steps for a cue counting approach, where a cue has been defined as a clicking event (Küsel et al, 2011), to density estimation from data recorded by single, fixed sensors are summarized in Figure 1. Fitting the glider with two recording sensors, instead of one, provides the opportunity to investigate other density estimation modalities (Thomas and Marques, 2012), such as individual or group counting.…”

Section: Approach To Estimating Population Density From a Glider Datasetmentioning

confidence: 99%

Application of Density Estimation Methods to Datasets from a Glider

Kuesel¹,

Siderius²,

Mellinger³

et al. 2014

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LONG-TERM GOALSThis is a new project that started in August 2013 and the long-term goal is to extend the use of population density estimation methods based on detections of marine mammal vocalizations to datasets collected by a moving platform. The moving platform under consideration is an electric underwater glider, which offers the potential of surveying a larger area than a fixed, single sensor. The glider also has the potential to surface and transmit data using a satellite modem. Moreover, fitting the glider with two hydrophones, one on each wing can provide bearings to vocalizing animals. Density estimation from glider datasets will be developed by looking at some of the species known to occur off the central Oregon coast, such as humpback and sperm whales as well as different dolphin species. OBJECTIVESThe objective of this research is to extend existing methods for cetacean population density estimation from fixed passive acoustic recordings to datasets recorded from a moving platform, in particular using an underwater glider. Instead of using datasets previously recorded for different applications, the current project will benefit from data collections designed specifically for density estimation purposes, with combined environmental sampling provided by the glider's Conductivity, Temperature and Depth (CTD) sensor. The central Oregon coast, where experiments and data collection will take place, is an easily accessible area for both project teams (PSU and OSU) working on this project with known occurrence of many marine mammal species, ranging from pinnipeds, to baleen whales, cetaceans and dolphin species (Carretta et al., 2009). Extensive oceanographic (Pierce et al., 2012) as well as noise characterization (Haxel et al., 2011) has also been performed in this area, providing possible support data for the current project's data analysis. Because gliders offer low-cost, all-weather, remote-area operation, it is our goal to extend its usability to population density estimation surveys offering another tool to aid those involved in marine mammal research, monitoring, and mitigation planners.

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“…The works of Thomas and Marques (2012) and Marques et al (2013) provide good summaries of the current 274 E. T. Küsel et al: Marine mammal tracks from glider acoustics state of density estimation techniques from passive acoustics applied to different species of marine mammals. Küsel et al (2011) addressed density estimation from single fixed sensors in which no information on animal location is readily available from the data. In such cases, a modeling approach is used to estimate detection distances, which are then translated into a relationship expressing the probability of detection as a function of range -the detection function.…”

Section: Introductionmentioning

confidence: 99%

Marine mammal tracks from two-hydrophone acoustic recordings made with a glider

et al. 2017

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Abstract. A multinational oceanographic and acoustic sea experiment was carried out in the summer of 2014 off the western coast of the island of Sardinia, Mediterranean Sea. During this experiment, an underwater glider fitted with two hydrophones was evaluated as a potential tool for marine mammal population density estimation studies. An acoustic recording system was also tested, comprising an inexpensive, off-the-shelf digital recorder installed inside the glider. Detection and classification of sounds produced by whales and dolphins, and sometimes tracking and localization, are inherent components of population density estimation from passive acoustics recordings. In this work we discuss the equipment used as well as analysis of the data obtained, including detection and estimation of bearing angles. A human analyst identified the presence of sperm whale (Physeter macrocephalus) regular clicks as well as dolphin clicks and whistles. Cross-correlating clicks recorded on both data channels allowed for the estimation of the direction (bearing) of clicks, and realization of animal tracks. Insights from this bearing tracking analysis can aid in population density estimation studies by providing further information (bearings), which can improve estimates.

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Cetacean population density estimation from single fixed sensors using passive acoustics

Cited by 104 publications

References 35 publications

A small long-life acoustic transmitter for studying the behavior of aquatic animals

A small long-life acoustic transmitter for studying the behavior of aquatic animals

Application of Density Estimation Methods to Datasets from a Glider

Marine mammal tracks from two-hydrophone acoustic recordings made with a glider

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