Cortical signatures of auditory looming bias show cue-specific adaptation between newborns and young adults

Karolina Ignatiadis, Diane Baier, Roberto Barumerli, István Sziller, Brigitta Tóth, Robert Baumgartner
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Abstract

Adaptive biases in favor of approaching, or “looming”, sounds have been found across ages and species, thereby implicating the potential of their evolutionary origin and universal basis. The human auditory system is well-developed at birth, yet spatial hearing abilities further develop with age. To disentangle the speculated inborn, evolutionary component of the auditory looming bias from its learned counterpart, we collected high-density electroencephalographic data across human adults and newborns. As distance-motion cues we manipulated either the sound’s intensity or spectral shape, which is pinna-induced and thus prenatally inaccessible. Through cortical source localisation we demonstrated the emergence of the bias in both age groups at the level of Heschl’s gyrus. Adults exhibited the bias in both attentive and inattentive states; yet differences in amplitude and latency appeared based on attention and cue type. Contrary to the adults, in newborns the bias was elicited only through manipulations of intensity and not spectral cues. We conclude that the looming bias comprises innate components while flexibly incorporating the spatial cues acquired through lifelong exposure. The auditory looming bias, which makes approaching sounds more cognitively salient than receding sounds, was evoked in both newborns and adults using intensity cues. However, only adults responded to spectral cues.

Abstract Image

听觉隐约偏差的皮层特征显示了新生儿和青壮年对特定线索的适应性
在不同年龄段和不同物种中都发现了有利于接近或 "隐约出现 "声音的适应性偏差,从而暗示了其进化起源和普遍基础的可能性。人类的听觉系统在出生时就很发达,但空间听觉能力会随着年龄的增长而进一步发展。为了将听觉隐约偏差的先天进化成分与后天学习成分区分开来,我们收集了人类成年人和新生儿的高密度脑电图数据。作为距离-运动线索,我们对声音的强度或频谱形状进行了处理,而声音的强度或频谱形状是由耳廓引起的,因此在出生前无法获得。通过皮层声源定位,我们证明了两个年龄组的婴儿都在赫氏回水平出现了偏听现象。成人在注意力集中和注意力不集中的状态下都会出现偏差;但根据注意力和线索类型的不同,偏差的幅度和潜伏期也有所不同。与成人相反,在新生儿中,只有通过对强度而非光谱线索的操作才能引起偏差。我们得出的结论是,"窥视偏差 "由先天成分组成,同时灵活地结合了通过终生接触获得的空间线索。新生儿和成人都能通过强度线索唤起听觉 "隐现偏差",这种偏差会使接近的声音比后退的声音在认知上更突出。然而,只有成年人对频谱线索做出了反应。
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