by Hiroki Oishi, Vladimir K. Berezovskii, Margaret S. Livingstone, Kevin S. Weiner, Michael J. Arcaro Neural activity depends on energy metabolism, yet the extent to which regional variation in cortical metabolic architecture reflects the functional and perceptual demands of visual processing remains unclear. In the primate visual system, retinotopic eccentricity, the topographic mapping of visual space relative to gaze, provides a large-scale organizational axis along which spatial resolution and selectivity for behaviorally relevant visual categories vary systematically. Here, we tested whether cortical metabolic architecture reflects this axis by aligning in vivo fMRI maps of eccentricity and visual category selectivity with ex vivo cytochrome oxidase (CO) histology, a marker of oxidative metabolism, in macaque visual cortex. We found that the middle lateral (ML) face-selective region, which is biased toward central vision, exhibited higher CO intensity than the lateral place patch