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61.
背景噪声对人感知声音时间信息的影响 总被引:1,自引:0,他引:1
对声音时间信息的分辨在人和动物感知声音信息的过程中至关重要.在自然声环境中,声音信息总处于一定的噪声背景下.文章以间隔探测阈值为指标测定了人对纯音和噪声的间隔探测阈值,以及持续噪声背景对间隔探测阈值的影响.声音信号采用1000~10000 Hz的纯音信号和白噪声信号,声音强度为70 dB SPL.背景噪声为持续白噪声,强度分别为45、55、65 dB SPL.结果表明,对纯音信号,随着背景噪声强度增加,间隔探测阈值有升高的趋势.对噪声信号来说,45、55 dB SPL的背景噪声对噪声信号的间隔探测阈值无显著影响,但65 dB SPL的背景噪声使间隔探测阈值显著升高.研究结果提示,背景噪声能够在一定程度上影响人对声音时间信息的感知,影响的程度与背景噪声的强度有关. 相似文献
62.
Diane K. Stoecker Daniel E. Gustafson Jeffrey R. Merrell Megan M. D. Black Christine T. Baier 《Journal of phycology》1997,33(4):585-595
Extreme environmental conditions have been thought to limit algal growth in the upper sea-ice. In McMurdo Sound, Antarctica, chrysophyte statocysts (stomatocysts) and dinoflagellate hypnozygotes (resting cysts) overwinter in first- and second-year land-fast sea-ice exposed to temperatures of -20° C or lower. In early November, when temperatures in the upper ice are < ?8°C and brine salinities are >126 psu, dinoflagellate cysts activate and shortly thereafter excyst. During early November, chrysophyte statocysts also begin to excyst. Net daily primary production occurs in the sea-ice brine at temperatures as low as ?7.1° C, at brine salinities as high as 129 psu, and at average photon flux densities as low as 5 μmol photons.m?2.s?1. Dinoflagellate densities were >106 vegetative cells.L?1 of ice while temperatures in the upper ice were between ?6.8 and ?5.8° C and brine salinities were ~100 psu. Chrysophyte densities reached >106.L?1 of ice by early December. High densities of physiologically active clyo- and halotolerant algae can occur in the upper land-fast sea-ice under extreme conditions of temperature and salinity. 相似文献
63.
The ghost crab Ocypode stimpsoni displays waving and sound production. Sounds are produced by thumping the sand substratum with the major cheliped, and two types of sounds can be discriminated; one with a low frequency of about 12 Hz, called rapping, and another with a higher frequency (about double), called quivering. In our observations, a sequence of waving and sound emission would sometimes terminate abruptly, or appear as independent components but the component order never changed. The most frequently observed patterns were “waving with rapping and quivering”;, “waving with quivering”; and “quivering only”; quivering sounds being involved in more than 80% displays. Quivering sometimes occurred immediately after crabs emerged from the burrow, or when they returned to the entrance after discarding an excavated sand mass. The occurrence frequency of waving and sounds, the wave amplitude, and the frequency of the sound increased when other crabs approached. 相似文献
64.
65.
Dr. Eldon E. Ball 《Cell and tissue research》1981,217(2):345-359
Summary This study of the ultrastructure of the auditory sensilla of the New Zealand weta, Hemideina crassidens, is the first such study on a member of the orthopteran Superfamily Gryllacridoidea. Ultrastructure of the auditory sensilla is similar in all of the tibial mechanosensory organs, here called subgenual organ, intermediate organ and crista acoustica by analogy with comparable structures in Tettigoniidae.Distal to each sensory soma is a dendrite containing multiple ciliary rootlets that fuse into a single ciliary root. This splits into nine root processes that pass around the outside of the proximal basal body and then rejoin at the level of the distal basal body, distal to which the dendrite has a modified ciliary structure with a circlet of nine peripheral paired tubes and rods as it passes through the proximal extracellular space. It is then enclosed by a zone of scolopale cell cytoplasm before expanding into a dilatation within the distal extracellular space. In some sensilla this space is partially occluded by electron dense material which is part of the scolopale cell. Distal to the dilatation the cilium shrinks and ends surrounded by the scolopale cap.Accessory cells consist of glia enwrapping the sensory neuron in the region of its soma, the scolopale cell surrounding the ciliary portion of the dendrite, and the attachment cell surrounding the scolopale cell and scolopale cap and connected to them by desmosomes. The attachment cells are filled with microtubules in differing densities and orientations. Lamellae are present in the acellular matrix surrounding the attachment cells. Banded fibres, presumably of collagen, are also present in the matrix. 相似文献
66.
Terry T. Takahashi Clifford H. Keller 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1992,170(2):161-169
Summary In the barn owl (Tyto alba), the posterior nucleus of the ventral lateral lemniscus (VLVp) is the first site of binaural convergence in the pathway that processes interaural level difference (ILD), an important sound-localization cue. The neurons of VLVp are sensitive to ILD because of an excitatory input from the contralateral ear and an inhibitory input from the ipsilateral ear. A previously described projection from the contralateral cochlear nucleus, can account for the excitation. The present study addresses the source of the inhibitory input.We demonstrate with standard axonal transport methods that the left and right VLVps are interconnected via fibers of the commissure of Probst. We further show that the anesthetization of one VLVp renders ineffective the inhibition that is normally evoked by stimulation of the ipsilateral ear. Thus, one cochlear nucleus (driven by the ipsilateral ear) appears to provide inhibition to the ipsilateral VLVp by exciting commissurally-projecting inhibitory neurons in the contralateral VLVp.Abbreviations
ABL
average binaural level
-
CP
commissure of Probst
-
DNLL
dorsal nucleus of the lateral lemniscus
-
IC
inferior colliculus
-
ILD
interaural level difference
-
IPc
nucleus isthmi, pars parvocellularis
-
ITD
interaural time difference
-
LSO
lateral superior olive
-
MNTB
medial nucleus of the trapezoid body
-
NA
nucleus angularis
-
SL
nucleus semilunaris
-
VLVa
nucleus ventralis lemnisci lateralis, pars anterior
-
VLVp
nucleus ventralis lemnisci lateralis, pars posterior 相似文献
67.
早期声音暴露对蝙蝠中脑下丘听神经元频率调谐特性发育的影响 总被引:7,自引:0,他引:7
本实验对鼠耳蝠出生后不同时期进行纯音暴露,采用常规电生理不方法研究出生后早期声音暴露出蝙蝠中脑下丘听神经元频率调谐特性发育的影响及影响的临界期。结果表明,出生后第1,3周开始声暴露的实验组,其神经元调于暴露声频段的数量较对照组和出生后第5周开始声暴露的实验组明显增多,且音调筑构出现扭曲,神经元频率调谐曲线的Q10-dB值也较高。 相似文献
68.
Morten Buhl Jørgensen Jakob Christensen-Dalsgaard 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1997,180(5):493-502
We studied the directionality of spike rate responses of auditory nerve fibers of the grassfrog, Rana temporaria, to pure tone stimuli. All auditory fibers showed spike rate directionality. The strongest directionality was seen at low
frequencies (200 – 400 Hz), where the spike rate could change by up to nearly 200␣spikes s−1. with sound direction. At higher frequencies the directional spike rate changes were mostly below 100 spikes s−1. In equivalent dB SPL terms (calculated using the fibers' rate-intensity curves) the maximum directionalities were up to
15 dB at low frequencies and below 10 dB at higher frequencies. Two types of directional patterns were observed. At frequencies
below 500 Hz relatively strong responses were evoked by stimuli from the ipsilateral (+90o) and contralateral (−90o) directions while the weakest responses were evoked by stimuli from frontal (0o or +30o) or posterior (−135o) directions. At frequencies above 800 Hz the strongest responses were evoked by stimuli from the ipsilateral direction while
gradually weaker responses were seen as the sound direction shifted towards the contralateral side. At frequencies between
500 and 800 Hz both directional patterns were seen. The directionality was highly intensity dependent. No special adaptations
for localization of conspecific calls were found.
Accepted: 23 November 1996 相似文献
69.
Theodore H. DeWitt Jeffrey S. Levinton 《Journal of experimental marine biology and ecology》1985,92(1):97-113
In the presence of the mud snail Ilyanassa obsoleta (Say), the tubicolous amphipod Microdeutopus gryllotalpa (Costa) emigrates to snail-free sediments, as demonstrated in laboratory and field experiments. Emigration occurs predominantly in the dark when the amphipod is most active. Unlike crevices, the thickness of sediments in which the amphipod is established offers no protection from snail disturbance. Emigration is shown to be caused by the disturbance generated by the snail's plowing and burrowing across the sediment surface, and not a response to a reduction in the shared microfloral food supply. The crawling and burrowing of the smaller mud snail, Hydrobia totteni Morrison, does not disturb Microdeutopus, supporting the hypothesis that relative body sizes affects the ability of bioturbators/burrowers to disturb tube-dwellers. As the burrows of Microdeutopus extend only ≈2 cm below the sediment surface, thick mud layers do not offer any refuge from Ilyanassa. However, very small solid surfaces (≈1–2 mm in relief) to which the amphipods build tubes do provide some protection from Ilyanassa. In soft-sediment benthic communities, such small structures may provide significant refuge for small epifauna and shallow burrowing infauna escaping from small-scale, biogenic disturbance. 相似文献
70.
F. Ladich H. Y. Yan 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1998,182(6):737-746
Several anabantoid species produce broad-band sounds with high-pitched dominant frequencies (0.8–2.5 kHz), which contrast
with generally low-frequency hearing abilities in (perciform) fishes. Utilizing a recently developed auditory brainstem response
recording-technique, auditory sensitivities of the gouramis Trichopsis vittata, T. pumila, Colisa lalia, Macropodus opercularis and Trichogaster trichopterus were investigated and compared with the sound characteristics of the respective species. All five species exhibited enhanced
sound-detecting abilities and perceived tone bursts up to 5 kHz, which qualifies this group as hearing specialists. All fishes
possessed a high-frequency sensitivity maximum between 800 Hz and 1500 Hz. Lowest hearing thresholds were found in T. trichopterus (76 dB re 1 μPa at 800 Hz). Dominant frequencies of sounds correspond with the best hearing bandwidth in T. vittata (1–2 kHz) and C. lalia (0.8–1 kHz). In the smallest species, T. pumila, dominant frequencies of acoustic signals (1.5–2.5 kHz) do not match lowest thresholds, which were below 1.5 kHz. However,
of all species studied, T. pumila had best hearing sensitivity at frequencies above 2 kHz. The association between high-pitched sounds and hearing may be caused
by the suprabranchial air-breathing chamber, which, lying close to the hearing and sonic organs, enhances both sound perception
and emission at its resonant frequency.
Accepted: 26 November 1997 相似文献