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Changes in Electroencephalogram Approximate Entropy Reflect Auditory Processing and Functional Complexity in Frogs 被引量:4
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作者 Yansu LIU Yanzhu FAN +4 位作者 Fei XUE Xizi YUE Steven E.BRAUTH Yezhong TANG Guangzhan FANG 《Asian Herpetological Research》 SCIE CSCD 2016年第3期180-190,共11页
Brain systems engage in what are generally considered to be among the most complex forms of information processing. In the present study, we investigated the functional complexity of anuran auditory processing using t... Brain systems engage in what are generally considered to be among the most complex forms of information processing. In the present study, we investigated the functional complexity of anuran auditory processing using the approximate entropy(Ap En) protocol for electroencephalogram(EEG) recordings from the forebrain and midbrain while male and female music frogs(Babina daunchina) listened to acoustic stimuli whose biological significance varied. The stimuli used were synthesized white noise(reflecting a novel signal), conspecific male advertisement calls with either high or low sexual attractiveness(reflecting sexual selection) and silence(reflecting a baseline). The results showed that 1) Ap En evoked by conspecific calls exceeded Ap En evoked by synthesized white noise in the left mesencephalon indicating this structure plays a critical role in processing acoustic signals with biological significance; 2) Ap En in the mesencephalon was significantly higher than for the telencephalon, consistent with the fact that the anuran midbrain contains a large well-organized auditory nucleus(torus semicircularis) while the forebrain does not; 3) for females Ap En in the mesencephalon was significantly different than that of males, suggesting that males and females process biological stimuli related to mate choice differently. 展开更多
关键词 complexity reflecting auditory evoked sexual silence calls advertisement engage approximate
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