胎羊的声音环境。

Sound environment of the fetal sheep.

作者信息

Gerhardt K J, Abrams R M, Oliver C C

机构信息

Department of Communication Processes and Disorders, University of Florida, Gainesville 32611.

出版信息

Am J Obstet Gynecol. 1990 Jan;162(1):282-7. doi: 10.1016/0002-9378(90)90866-6.

DOI:10.1016/0002-9378(90)90866-6

PMID:2301503

Abstract

The internal sound pressure levels within the intact amnion of pregnant ewes surgically implanted with a hydrophone was determined during conditions of quiet and during sound field exposures to broadband and octave-band noise. Measurements were made of sound pressures outside and inside the ewe, and sound attenuation through maternal tissues and fluids was calculated. Sound pressures generated by low frequencies (less than 0.25 kHz) were 2 to 5 dB greater inside than outside the ewe. Above 0.25 kHz, sound attenuation increased at a rate of 6 dB per octave. For 4.0 kHz, sound attenuation averaged 20 dB. The sound pressure recorded at different locations within the amnion with respect to the sound source varied by up to 6 dB. The internal noise floor in the absence of externally generated sounds was as low as 50 dB (spectrum level) above 0.2 kHz. Thus the fetus is developing in an environment that is rich with internal and external sounds.

摘要

在安静条件下以及在暴露于宽带和倍频程带噪声的声场中，对通过手术植入水听器的怀孕母羊完整羊膜内的内部声压水平进行了测定。测量了母羊体外和体内的声压，并计算了通过母体组织和液体的声衰减。低频（低于0.25kHz）产生的声压在母羊体内比体外高2至5dB。高于0.25kHz时，声衰减以每倍频程6dB的速率增加。对于4.0kHz，声衰减平均为20dB。相对于声源，在羊膜内不同位置记录的声压变化高达6dB。在没有外部产生的声音的情况下，内部本底噪声在高于0.2kHz时低至50dB（频谱水平）。因此，胎儿是在一个充满内部和外部声音的环境中发育的。

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胎羊的声音环境。

Sound environment of the fetal sheep.

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