Reliable estimation of the size or density of wild animal populations is very important for effective wildlife management, conservation and ecology. Currently, the most widely used methods for obtaining such estimates involve either sighting animals from transect lines or some form of capture-recapture on marked or uniquely identifiable individuals. However, many species are difficult to sight, and cannot be easily marked or recaptured. Some of these species produce readily identifiable sounds, providing an opportunity to use passive acoustic data to estimate animal density. In addition, even for species for which other visually based methods are feasible, passive acoustic methods offer the potential for greater detection ranges in some env...
<p>Marine mammals exploit the efficiency of sound propagation in the marine environment for essentia...
Dolphin populations are often considered an indicator of ocean health, yet they have historically be...
Author Posting. © Acoustical Society of America, 2009. This article is posted here by permission of...
Reliable estimation of the size or density of wild animal populations is very important for effectiv...
Monitoring on the basis of sound recordings, or passive acoustic monitoring, can complement or serve...
Some animal species are hard to see but easy to hear. Standard visual methods for estimating populat...
Some animal species are hard to see but easy to hear. Standard visual methods for estimating populat...
1. Acoustic monitoring can be an efficient, cheap, non-invasive alternative to physical trapping of ...
Obtaining accurate information on the distribution, density, and abundance of animals is an importan...
Density estimation is a fundamental requirement for proper management and impact assessment of cetac...
1. Spatial capture‐recapture (SCR) models are commonly used to estimate animal population density fr...
Monitoring abundance and population trends of small odontocetes is notoriously difficult and labor i...
Passive acoustic monitoring of marine mammals is common, and it is now possible to estimate absolute...
Passive acoustic monitoring is a non-invasive tool for automated wildlife monitoring. This technique...
Underwater gliders can provide an alternative cost-effective platform for passive acoustic monitorin...
<p>Marine mammals exploit the efficiency of sound propagation in the marine environment for essentia...
Dolphin populations are often considered an indicator of ocean health, yet they have historically be...
Author Posting. © Acoustical Society of America, 2009. This article is posted here by permission of...
Reliable estimation of the size or density of wild animal populations is very important for effectiv...
Monitoring on the basis of sound recordings, or passive acoustic monitoring, can complement or serve...
Some animal species are hard to see but easy to hear. Standard visual methods for estimating populat...
Some animal species are hard to see but easy to hear. Standard visual methods for estimating populat...
1. Acoustic monitoring can be an efficient, cheap, non-invasive alternative to physical trapping of ...
Obtaining accurate information on the distribution, density, and abundance of animals is an importan...
Density estimation is a fundamental requirement for proper management and impact assessment of cetac...
1. Spatial capture‐recapture (SCR) models are commonly used to estimate animal population density fr...
Monitoring abundance and population trends of small odontocetes is notoriously difficult and labor i...
Passive acoustic monitoring of marine mammals is common, and it is now possible to estimate absolute...
Passive acoustic monitoring is a non-invasive tool for automated wildlife monitoring. This technique...
Underwater gliders can provide an alternative cost-effective platform for passive acoustic monitorin...
<p>Marine mammals exploit the efficiency of sound propagation in the marine environment for essentia...
Dolphin populations are often considered an indicator of ocean health, yet they have historically be...
Author Posting. © Acoustical Society of America, 2009. This article is posted here by permission of...