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  • Sound production
  • Springer  (4)
  • Annual Reviews  (1)
  • Springer International Publishing  (1)
  • Nature Publishing Group
  • 2020-2024  (1)
  • 2005-2009  (1)
  • 1990-1994  (3)
  • 1980-1984  (1)
  • 1960-1964
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  • Springer  (4)
  • Annual Reviews  (1)
  • Springer International Publishing  (1)
  • Nature Publishing Group
  • Springer Nature  (1)
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  • 1
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    Exploring Animal Behavior Through Sound: Volume 1 (2023)
    Springer Nature | Springer International Publishing
    Details
    Publication Date: 2024-04-05
    Description: This open-access book empowers its readers to explore the acoustic world of animals. By listening to the sounds of nature, we can study animal behavior, distribution, and demographics; their habitat characteristics and needs; and the effects of noise. Sound recording is an efficient and affordable tool, independent of daylight and weather; and recorders may be left in place for many months at a time, continuously collecting data on animals and their environment. This book builds the skills and knowledge necessary to collect and interpret acoustic data from terrestrial and marine environments. Beginning with a history of sound recording, the chapters provide an overview of off-the-shelf recording equipment and analysis tools (including automated signal detectors and statistical methods); audiometric methods; acoustic terminology, quantities, and units; sound propagation in air and under water; soundscapes of terrestrial and marine habitats; animal acoustic and vibrational communication; echolocation; and the effects of noise. This book will be useful to students and researchers of animal ecology who wish to add acoustics to their toolbox, as well as to environmental managers in industry and government.
    Keywords: Animal Communication ; Bioacoustics ; Echolocation ; Hearing ; Sound production ; Vocalization ; Biotremology ; Syrinx ; Anthropogenic noise ; Mate choice ; Stridulation ; thema EDItEUR::P Mathematics and Science::PS Biology, life sciences::PSV Zoology and animal sciences ; thema EDItEUR::P Mathematics and Science::PH Physics::PHD Classical mechanics::PHDS Wave mechanics (vibration and acoustics) ; thema EDItEUR::P Mathematics and Science::PS Biology, life sciences::PSA Life sciences: general issues::PSAF Ecological science, the Biosphere ; thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TT Other technologies and applied sciences::TTA Acoustic and sound engineering ; thema EDItEUR::P Mathematics and Science::PS Biology, life sciences::PSV Zoology and animal sciences ; thema EDItEUR::P Mathematics and Science::PH Physics::PHD Classical mechanics::PHDS Wave mechanics (vibration and acoustics) ; thema EDItEUR::P Mathematics and Science::PS Biology, life sciences::PSA Life sciences: general issues::PSAF Ecological science, the Biosphere ; thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TT Other technologies and applied sciences::TTA Acoustic and sound engineering
    Language: English
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    E-BOOK
  • 2
    Electronic Resource
    Electronic Resource
    Sound production associated with feeding behaviour of the tsetse, Glossina M. morsitans (1983)
    Springer
    Entomologia experimentalis et applicata 34 (1983), S. 1-8 
    Details
    ISSN: 1570-7458
    Keywords: Glossina ; Tsetse ; Feeding ; behaviour ; Sound production ; Sound frequency ; Sound intensity
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology
    Description / Table of Contents: Résumé L'étude a porté sur les sons produits pendant les comportements préalimentaire, alimentaire et postalimentaire de la mouche Tsétsé, Glossina morsitans morsitans. Les mâles et les femelles vierges chantent très rarement avant l'alimentation, mais les femelles fécondées chantent dans plus de 20% des cas avant de prendre un repas. La production de sons pendant la prise de nourriture était négligeable pour les trois catégories. Les sons postalimentaires étaient plus fréquents, les femelles fécondées chantant plus que les femelles vierges et l'ensemble des femelles plus que les mâles. La durée des sons postalimentaires ne différait pas suivant les sexes. Dans chaque catégorie, les sons postalimentaires ne changaient pas significativement avec l'âge. Il y a eu, cependant, des différences significatives dans les caractéristiques de la production de son postalimentaire lorsque les mâles étaient comparés aux femelles pendant une période de 8 semaines. Les oscillogrammes de ces sons différaient suivant le sexe et variaient de temps en temps. Les sons comportaient des fréquences jusqu' à 50 kHz, à l'exception des sons préalimentaires des mâles qui ne contenaient pas d'ultrasons. Les fréquences les plus dominantes étaient concentrées entre 1,5–2,5 kHz. Des pics étaient observés entre 0,5–0,8 kHz et autour de 5 kHz et 9 kHz. Les sons préalimentaires étaient plus faibles que les sons postalimentaires. On en suggère que les sons associés au comportement alimentaire jouent un rôle en attirant les mouches affamées vers un hôte convenable et que la plus grande partie de l'information acoustique est portée par les composantes à basse fréquence qui ont une intensité plus élevée (30–40 dB) que les fréquences ultrasoniques (10 dB).
    Notes: Summary Sounds produced during prefeeding, feeding and postfeeding behaviour of the tsetse, Glossina m. morsitans Westw. were investigated. Males and virgin ♀ ♀ very seldom sang before feeding but mated ♀ ♀ sang in more than 20% of the cases before taking a meal. Sound production during engorgement was negligible among all 3 groups. Postfeeding sounds were the most commonly produced, mated ♀ ♀ singing significantly more than virgin ♀ ♀ and both these groups more than ♂ ♂. The mean duration of the postfeeding sounds did not differ between the sexes. Within each group, postfeeding sound production did not significantly change with age. There were, however, significant differences in the patterns of postfeeding sound production when ♂ ♂ were compared to ♀ ♀ over a period of 8 weeks. Oscillograms of these sounds indicated that the songs differed between the sexes and also varied from time to time. The sounds were composed of frequencies up to 50 kHz with the exception of the ♂ prefeeding sounds which did not contain any ultrasonic components. The most dominant frequency was centered between 1.5–2.5 kHz. Peaks were also observed between 0.5–0.8 kHz and around 5 kHz and 9 kHz. Prefeeding songs were of a weaker intensity than postfeeding songs. It is suggested that the sounds associated with feeding behaviour play a role in attracting hungry flies to suitable hosts and that, the low frequency components having higher intensities (30–40 dB) than the ultrasonic frequencies (10 dB) carry the most important part of the acoustic information.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00300892
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  • 3
    Electronic Resource
    Electronic Resource
    Sound production evoked by electrical stimulation of the forebrain in the oyster toadfish (1994)
    Springer
    Journal of comparative physiology 174 (1994), S. 173-185 
    Details
    ISSN: 1432-1351
    Keywords: Electrical stimulation of the brain ; Fish ; Forebrain ; Preoptic area ; Sound production ; Sexual behavior
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Abstract In mammals, birds and amphibians the neural pathways controlling sound production descend from higher centers in the forebrain, whereas in fishes only brainstem and spinal centers have been explicitly implicated in sound production. We now report that electrical stimulation of the forebrain of the oyster toadfish (Opsanus tau) readily evokes both the agonistic grunt and the courtship boatwhistle. Boatwhistles are more realistic than ones previously evoked from lower centers. Positive stimulation sites are localized in the preoptic area (nucleus preopticus parvocellularis anterior) and the supracommissural nucleus of the ventral telencephalon, a likely homologue of the amygdala. Both sites contain gonadal steroid-concentrating neurons and play a central role in fish courtship behavior. Evoked sounds form a continuum from knock grunts, burst grunts, transition boatwhistles to complete boatwhistles; sound pressure level (SPL), fundamental frequency and duration increase consistently within the continuum. For all sound types, SPLs exhibit the smallest variation (coefficients of variation of 2.7 to 5.7%), fundamental frequency is intermediate (5 to 13%) and durations vary most widely (18 to 60%). Boatwhistles, with the smallest variation and greatest amplitude, are likely generated by a maximal output of the CNS and sonic muscles. Grunt SPLs however, vary over a range of 26 dB for all fish and by as much as 18 dB in an individual, suggesting recruitment of variable numbers of motor units despite electrical coupling within the sonic motor nucleus.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00193784
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  • 4
    Electronic Resource
    Electronic Resource
    Sound radiation in a cicada: the role of different structures (1994)
    Springer
    Journal of comparative physiology 175 (1994), S. 349-361 
    Details
    ISSN: 1432-1351
    Keywords: Cicada ; Tympanistalna gastrica ; Sound production ; Radiation ; Calling song ; Brain stimulation
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology , Medicine
    Notes: Abstract Sound radiation was studied in males of Tympanistalna gastrica St»l during a spontaneous song with the characteristics of the conspecific calling song, which was elicited as an after effect of brain stimulation. The song contains two different kinds of sound pulses: 1) loud clicks and 2) soft pulses, presenting different spectra. The timbals, abdomen, tympana, folded membranes and opercula were tested as potential radiators of the song. The experiments included: 1) probe microphone measurements of the spectra of loud clicks and soft pulses in several positions around the animal and close to the body surface; 2) measurements of the spectra before and after covering with vaseline different structures that might be relevant to the radiation of the song, and manipulations of the size and shape of the abdominal and thoracic portions of the tracheal air sac; 3) laser vibrometry measurements in different parts of the body, both during singing and external sound stimulation. The data obtained demonstrate that several structures contribute differently to the radiation of clicks and soft pulses: 1) The timbals are the main radiators at frequencies around the dominant spectral peak, 10–11 kHz in clicks and 12–13 kHz in soft pulses; 2) The tympana are important in radiation of frequencies below and above the timbal peak, especially during the generation of soft pulses; 3) The abdomen is more activated during the generation of clicks, and is more important in the radiation of low frequencies around 5 kHz. Manipulations of the body cavities showed that neither the thoracic nor the abdominal portions of the air sac are critical for the song tuning. The large abdominal cavity do not seem to work as a Helmholtz resonator. We found no evidence that resonances inside this cavity should play an important role in enhancing sound radiation in T. gastrica.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00192994
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  • 5
    Electronic Resource
    Electronic Resource
    Spawning site selection by spotted seatrout,Cynoscion nebulosus, and black drum,Pogonias cromis, in Louisiana (1993)
    Springer
    Environmental biology of fishes 36 (1993), S. 257-272 
    Details
    ISSN: 1573-5133
    Keywords: Drumming aggregations ; Environmental requirements ; Habitat ; Hydrophone ; Sciaenidae ; Sound production
    Source: Springer Online Journal Archives 1860-2000
    Topics: Biology
    Notes: Synopsis Spawning site selection by spotted seatrout and black drum was studied by locating drumming aggregations through the use of a hydrophone. From March 1987 to October 1990, 315 sound observations were made to identify and characterize spawning seasons and environmental requirements of both species in the Barataria, Caminada, and eastern Timbalier Bay systems of Louisiana. The sounds produced by the spawning aggregations were identified and verified against known recordings. Spawning was verified on several occasions by capturing and rearing zygotes (eggs) into identifiable larvae. Spotted seatrout formed drumming aggregations from late May to early October at salinities ranging from 7.0 to 25.8 ppt and temperatures from 24.5 to 33.5° C. Black drum formed drumming aggregations between January and April in salinities from 10.0 to 27.0 ppt and temperatures from 15.0 to 24.0°C. Large drumming aggregations of spotted seatrout were located from 1800 to 2400h and from 1800 to 2200h for black drum. Spotted seatrout aggregation size was highly correlated with water temperature and for black drum with dissolved oxygen concentrations. Spawning sites for both species were frequently located in deep moving water between barrier islands as well as in channels in open water where water depth ranged from 3 to 50 m. Spawning site selection depended on a particular range of environmental conditions and spawning locations varied seasonally and yearly depending upon hydrological variation.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00001722
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  • 6
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    Design and function of superfast muscles : new insights into the physiology of skeletal muscle (2005)
    Annual Reviews
    Details
    Publication Date: 2022-05-25
    Description: First published online as a Review in Advance on October 24, 2005. (Some corrections may occur before final publication online and in print)
    Description: Author Posting. © Annual Reviews, 2005. This article is posted here by permission of Annual Reviews for personal use, not for redistribution. The definitive version was published in Annual Review of Physiology 68 (2006): 22.1-22.29, doi:10.1146/annurev.physiol.68.040104.105418.
    Description: Superfast muscles of vertebrates power sound production. The fastest, the swimbladder muscle of toadfish, generates mechanical power at frequencies in excess of 200 Hz. To operate at these frequencies, the speed of relaxation has had to increase approximately 50-fold. This increase is accomplished by modifications of three kinetic traits: (a) a fast calcium transient due to extremely high concentration of sarcoplasmic reticulum (SR)-Ca2+ pumps and parvalbumin, (b) fast off-rate of Ca2+ from troponin C due to an alteration in troponin, and (c) fast cross-bridge detachment rate constant (g, 50 times faster than that in rabbit fast-twitch muscle) due to an alteration in myosin. Although these three modifications permit swimbladder muscle to generate mechanical work at high frequencies (where locomotor muscles cannot), it comes with a cost: The high g causes a large reduction in attached force-generating cross-bridges, making the swimbladder incapable of powering low-frequency locomotory movements. Hence the locomotory and sound-producing muscles have mutually exclusive designs.
    Description: This work was made possible by support from NIH grants AR38404 and AR46125 as well as the University of Pennsylvania Research Foundation.
    Keywords: Parvalbumin ; Ca2+ release ; Ca2+ uptake ; Cross-bridges ; Adaptation ; Sound production ; Whitman Center
    Repository Name: Woods Hole Open Access Server
    Type: Article
    Format: 567086 bytes
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