Libraries, super­mar­kets, classrooms…the world is full of places that look very sim­i­lar, and yet our brains always seem to keep track of where we are. In a new study pub­lished in the Jour­nal of Neu­ro­science, researchers at Prince­ton Uni­ver­sity and Ohio State Uni­ver­sity have uncov­ered one way in which the brain does this.

Similar-looking places can be dis­tin­guished from each other because of dif­fer­ences in what we expe­ri­ence when nav­i­gat­ing to them. As we head toward a des­ti­na­tion, our brains cat­a­logue details such as other nearby build­ings, the look of the door­way, even the peo­ple nearby.

The researchers dis­cov­ered that the parahip­pocam­pal cor­tex, a part of the visual sys­tem that ana­lyzes the cur­rent scene in front of us, also incor­po­rates the details lead­ing up to the scene, or its “tem­po­ral con­text.” As a result, even when two scenes look iden­ti­cal, we cre­ate dif­fer­ent mem­ory traces for them when their tem­po­ral con­texts are dif­fer­ent. Ulti­mately, this can help our brains to keep track of where we are in the world.

Learn more about Nicholas Turk-Browne’s research at Prince­ton University.

Jour­nal Cita­tion: Turk-Browne NB, Simon MG, Seder­berg PB. Scene rep­re­sen­ta­tions in parahip­pocam­pal cor­tex depend on tem­po­ral con­text.  J Neu­rosci. 2012 May 23;32(21):7202–7.