Neural Correlates of Induced Motion Perception in the Human Brain

The ability to detect motion is one of the most important properties of our visual system and the visual systems of nearly every other species. Motion perception is not just important for detecting the movement of objects—both for catching prey and for avoiding predators—but it is also important for providing information about the 3-D structure of the world, for maintaining balance, determining our direction of heading, segregating the scene and breaking camouflage, and judging time-to-contact with other objects in the world. ‘Motion perception’ describes the spatio-temporal process of motion perception and the perceptual effects that tell us something about the characteristics of the motion system: apparent motion, the motion after-effect, and induced motion.

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Neural Correlates of Temporal Presentness in the Precuneus: A Cross-linguistic fMRI Study based on Speech Stimuli

Cerebral Cortex ◽

10.1093/cercor/bhaa307 ◽

2020 ◽

Author(s):

Long Tang ◽

Toshimitsu Takahashi ◽

Tamami Shimada ◽

Masayuki Komachi ◽

Noriko Imanishi ◽

...

Keyword(s):

Human Brain ◽

Time Perception ◽

Native Speakers ◽

Temporal Discrimination ◽

Neural Correlates ◽

Speech Stimuli ◽

The Past ◽

Fmri Study ◽

Verb Tense ◽

Japanese English

Abstract The position of any event in time could be in the present, past, or future. This temporal discrimination is vitally important in our daily conversations, but it remains elusive how the human brain distinguishes among the past, present, and future. To address this issue, we searched for neural correlates of presentness, pastness, and futurity, each of which is automatically evoked when we hear sentences such as “it is raining now,” “it rained yesterday,” or “it will rain tomorrow.” Here, we show that sentences that evoked “presentness” activated the bilateral precuneus more strongly than those that evoked “pastness” or “futurity.” Interestingly, this contrast was shared across native speakers of Japanese, English, and Chinese languages, which vary considerably in their verb tense systems. The results suggest that the precuneus serves as a key region that provides the origin (that is, the Now) of our time perception irrespective of differences in tense systems across languages.

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“Grammar box” in the brain

Behavioral and Brain Sciences ◽

10.1017/s0140525x03270151 ◽

2003 ◽

Vol 26 (6) ◽

pp. 672-673

Author(s):

Valéria Csépe

Keyword(s):

Human Brain ◽

Brain Activity ◽

Neural Correlates ◽

Modular Architecture ◽

Activity Data ◽

The Brain ◽

Semantic Domains

Brain activity data prove the existence of qualitatively different structures in the brain. However, the question is whether the human brain acts as linguists assume in their models. The modular architecture of grammar that has been claimed by many linguists raises some empirical questions. One of the main questions is whether the threefold abstract partition of language (into syntactic, phonological, and semantic domains) has distinct neural correlates.

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