Add to ORKGThis article explains that microchiropteran bats have evolved a system of echolocation based on ultrasound. Bats' echolocation calls can be rendered audible to humans using ultrasonic detectors. The principles of ultrasonic detection ore explained and the opportunities for fieldwork highlighted. Guidelines are offered on the best times and pieces to study flying bats and safety considerations. Species identification and roost location tips are given, and techniques for investigating aspects of ecology and behaviour ore outlined. The Appendix provides information on bat detector manufacturers and sources of advice on bats
Evolution has enabled the bat to echolocate with ease and efficiency, to the extent that the bats ca...
SummaryEcholocators use echoes of sounds they produce, clicks or calls, to detect objects. Usually, ...
We review how time-expanded recordings and direct sampling of sound can be used to identify some bat...
Aim. The aim of this work was to briefly summarize the current understanding of the phenomenon of ec...
The microbat has developed advanced echolocating ability compared to the megabats or old-world fruit...
Aim. The aim of this work was to briefly summarize the current understanding of the phenomenon of ec...
Bats as nocturnal flying mammals have developed echolocation, an efficient means of navigating in th...
Bats are found all around the world and study of bats is important as they are the part of the ecosy...
Ultrasound detectors have revolutionized the study of bats, as they allow for cost-effective gatheri...
I conducted two separate field studies to evaluate the effectiveness of Anabat II ultasonic detector...
Bats are plague controllers and effective pollinators for many plant species, and thus, an important...
The recording and analysis of echolocation calls are fundamental methods used to study bat distribut...
The recording and analysis of echolocation calls are fundamental methods used to study bat distribut...
The recording and analysis of echolocation calls are fundamental methods used to study bat distribut...
Echolocation allows bats to occupy diverse nocturnal niches. Bats almost always use echolocation, ev...
Evolution has enabled the bat to echolocate with ease and efficiency, to the extent that the bats ca...
SummaryEcholocators use echoes of sounds they produce, clicks or calls, to detect objects. Usually, ...
We review how time-expanded recordings and direct sampling of sound can be used to identify some bat...
Aim. The aim of this work was to briefly summarize the current understanding of the phenomenon of ec...
The microbat has developed advanced echolocating ability compared to the megabats or old-world fruit...
Aim. The aim of this work was to briefly summarize the current understanding of the phenomenon of ec...
Bats as nocturnal flying mammals have developed echolocation, an efficient means of navigating in th...
Bats are found all around the world and study of bats is important as they are the part of the ecosy...
Ultrasound detectors have revolutionized the study of bats, as they allow for cost-effective gatheri...
I conducted two separate field studies to evaluate the effectiveness of Anabat II ultasonic detector...
Bats are plague controllers and effective pollinators for many plant species, and thus, an important...
The recording and analysis of echolocation calls are fundamental methods used to study bat distribut...
The recording and analysis of echolocation calls are fundamental methods used to study bat distribut...
The recording and analysis of echolocation calls are fundamental methods used to study bat distribut...
Echolocation allows bats to occupy diverse nocturnal niches. Bats almost always use echolocation, ev...
Evolution has enabled the bat to echolocate with ease and efficiency, to the extent that the bats ca...
SummaryEcholocators use echoes of sounds they produce, clicks or calls, to detect objects. Usually, ...
We review how time-expanded recordings and direct sampling of sound can be used to identify some bat...