Add to ORKGinsects hear the ultrasonic echolocation calls of hunting insectivorous bats in time to allow them to escape predation (Hoy and Robert, 1996; Miller and Surlykke, 2001) and the ears of moths are amongst the most neurologically simple, containing up to four auditory receptors. The most intensively studied of these are the two-celled ears of owlet moths (Noctuidae) (for reviews, see Roeder, 1967, 1974
An evolutionary war is being played out between the bat, which uses ultrasonic calls to locate insec...
Predation pressure is a powerful agent of natural selection and is responsible for the evolution of ...
Moths of several families, notably the Noctuidae, Arctiidae and Geometridae, have tympanic organs se...
Lepidoptera evolved tympanic ears in response to echolocating bats. Comparative studies have shown t...
The simple auditory system of noctuoid moths has long been a model for anti-predator studies in neur...
Many night-flying insects evolved ultrasound sensitive ears in response to acoustic predation by ech...
SummaryMany night-flying insects evolved ultrasound sensitive ears in response to acoustic predation...
Pyraloidea, have simple ears that are sensitive to ultrasound. Most moths are silent, and their acou...
This study empirically tests the prediction that the echolocation calls of gleaning insectivorous ba...
This study empirically tests the prediction that the echolocation calls of gleaning insectivorous ba...
Insects can sense a broad range of acoustic signals transmitted through air, water, or solids. Sound...
An evolutionary war is being played out between the bat, which uses ultrasonic calls to locate insec...
A comparative analysis of the responses of the tympanic organs of cutworm moths to single and paired...
1. Auditory sensitivities and ultrasound avoidance behaviour of two exclusively diurnal moths were e...
Abstract. Greater wax moths (Galleria mellonella L., Pyraloidea) use ultrasound sensitive ears to de...
An evolutionary war is being played out between the bat, which uses ultrasonic calls to locate insec...
Predation pressure is a powerful agent of natural selection and is responsible for the evolution of ...
Moths of several families, notably the Noctuidae, Arctiidae and Geometridae, have tympanic organs se...
Lepidoptera evolved tympanic ears in response to echolocating bats. Comparative studies have shown t...
The simple auditory system of noctuoid moths has long been a model for anti-predator studies in neur...
Many night-flying insects evolved ultrasound sensitive ears in response to acoustic predation by ech...
SummaryMany night-flying insects evolved ultrasound sensitive ears in response to acoustic predation...
Pyraloidea, have simple ears that are sensitive to ultrasound. Most moths are silent, and their acou...
This study empirically tests the prediction that the echolocation calls of gleaning insectivorous ba...
This study empirically tests the prediction that the echolocation calls of gleaning insectivorous ba...
Insects can sense a broad range of acoustic signals transmitted through air, water, or solids. Sound...
An evolutionary war is being played out between the bat, which uses ultrasonic calls to locate insec...
A comparative analysis of the responses of the tympanic organs of cutworm moths to single and paired...
1. Auditory sensitivities and ultrasound avoidance behaviour of two exclusively diurnal moths were e...
Abstract. Greater wax moths (Galleria mellonella L., Pyraloidea) use ultrasound sensitive ears to de...
An evolutionary war is being played out between the bat, which uses ultrasonic calls to locate insec...
Predation pressure is a powerful agent of natural selection and is responsible for the evolution of ...
Moths of several families, notably the Noctuidae, Arctiidae and Geometridae, have tympanic organs se...