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@ARTICLE{Riemer:140193,
      author       = {Riemer, Martin and Shine, Jonathan P and Wolbers, Thomas},
      title        = {{O}n the (a)symmetry between the perception of time and
                      space in large-scale environments.},
      journal      = {Hippocampus},
      volume       = {28},
      number       = {8},
      issn         = {1050-9631},
      address      = {New York, NY [u.a.]},
      publisher    = {Wiley},
      reportid     = {DZNE-2020-06515},
      pages        = {539-548},
      year         = {2018},
      abstract     = {Cross-dimensional interference between spatial and temporal
                      processing is well documented in humans, but the direction
                      of these interactions remains unclear. The theory of
                      metaphoric structuring states that space is the dominant
                      concept influencing time perception, whereas time has little
                      effect upon the perception of space. In contrast, theories
                      proposing a common neuronal mechanism representing
                      magnitudes argue for a symmetric interaction between space
                      and time perception. Here, we investigated space-time
                      interactions in realistic, large-scale virtual environments.
                      Our results demonstrate a symmetric relationship between the
                      perception of temporal intervals in the supra-second range
                      and room size (experiment 1), but an asymmetric relationship
                      between the perception of travel time and traveled distance
                      (experiment 2). While the perception of time was influenced
                      by the size of virtual rooms and by the distance traveled
                      within these rooms, time itself affected only the perception
                      of room size, but had no influence on the perception of
                      traveled distance. These results are discussed in the
                      context of recent evidence from rodent studies suggesting
                      that subsets of hippocampal place and entorhinal grid cells
                      can simultaneously code for space and time, providing a
                      potential neuronal basis for the interactions between these
                      domains.},
      keywords     = {Adult / Environment / Female / Functional Laterality:
                      physiology / Humans / Judgment: physiology / Male / Photic
                      Stimulation / Psychomotor Performance / Space Perception:
                      physiology / Time Perception: physiology / User-Computer
                      Interface / Young Adult},
      cin          = {AG Wolbers},
      ddc          = {610},
      cid          = {I:(DE-2719)1310002},
      pnm          = {344 - Clinical and Health Care Research (POF3-344)},
      pid          = {G:(DE-HGF)POF3-344},
      typ          = {PUB:(DE-HGF)16},
      pubmed       = {pmid:29684246},
      doi          = {10.1002/hipo.22954},
      url          = {https://pub.dzne.de/record/140193},
}