Abstract
The parietal cortex has been functionally divided into various subregions; however, very little is known about how these areas relate to each other. Two such regions are the transverse occipital sulcus (TOS) scene area and inferior intraparietal sulcus (IPS). TOS exhibits similar activation patterns to the scene selective parahippocampal place area, suggesting its role in scene perception. Inferior IPS, in contrast, has been shown to participate in object individuation and selection via location. Interestingly, both regions have been localized to the same general area of the brain. If these two were actually the same brain region, it would have important implications regarding these regions' role in cognition. To explore this, we first localized TOS and inferior IPS in individual participants and examined the degree of overlap between these regions in each participant. We found that TOS showed only a minor degree of overlap with inferior IPS (∼10%). We then directly explored the role of TOS and inferior IPS in object individuation and scene perception by examining their responses to furnished rooms, empty rooms, isolated furniture, and multiple isolated objects. If TOS and inferior IPS were the same region, we would expect to see similar response patterns in both. Instead, the response of TOS was predominantly scene selective, whereas activity in inferior IPS was primarily driven by the number of objects present in the display, regardless of scene context. These results show that TOS and inferior IPS are nearby but distinct regions, with different functional roles in visual cognition.
Highlights
There were no significant differences between the amount overlap between the left and right hemispheres ( p = .45). This indicates that, Talairach coordinates from other studies have suggested that these two regions may colocalize, transverse occipital sulcus (TOS) and inferior intraparietal sulcus (IPS) are anatomically distinct regions
Inferior IPS was shown to be highly colocalized with topographic cortex, we found that over half of TOS is located outside topographic regions
TOS and inferior IPS showed functional differences in the processing of furnished rooms, empty rooms, isolated furniture, and multiple isolated objects. This set of conditions were chosen because they involved different amount of scene- and object-related processing, the two operations that have been associated with TOS and inferior IPS, respectively, in the literature
Summary
The parietal cortex has been shown to be a hub for a variety of cognitive processes, including attention (Behrmann, Geng, & Shomstein, 2004; Yantis & Serences, 2003; Corbetta & Shulman, 2002; Culham & Kanwisher, 2001; Kastner & Ungerleider, 2000; Colby & Goldberg, 1999), visual STM (Xu & Chun, 2006, 2009; Todd & Marois, 2004), numerical cognition (Hubbard, Piazza, Pinel, & Dehaene, 2005; Dehaene, Piazza, Pinel, & Cohen, 2003), motor planning (Buneo & Andersen, 2006; Culham, Cavina-Pratesi, & Singhal, 2006; Orban et al, 2006; Grefkes & Fink, 2005; Merriam & Colby, 2005; Gottlieb & Goldberg, 1999), visual object individuation and identification (Xu & Chun, 2006, 2009), and scene processing (Levy, Hasson, Harel, & Malach, 2004; Grill-Spector, 2003; Hasson, Harel, Levy, & Malach, 2003; Nakamura et al, 2000), with each of these cognitive operations being localized to specific parietal subregions These regions have mostly been studied within isolated cognitive domains (e.g., activity in putative scene processing regions are only examined in tasks involving scenes), leaving it unclear whether the same parietal region is involved in different cognitive tasks. RSC shows stronger familiarity effects than TOS and PPA (Epstein et al, 2007), is insensitive to the retinotopic extent of objects (Troiani, Stigliani, Smith, & Epstein, 2012), and lacks the eye Journal of Cognitive Neuroscience 25:10, pp. 1711–1722 doi:10.1162/jocn_a_00422
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