Abstract
Casting behavior (zigzagging across an odor stream) is common in air/liquid-borne odor tracking in open fields; however, terrestrial odor localization often involves path selection in a familiar environment. To study this, we trained rats to run toward an odor source in a multi-choice olfactory arena with near-laminar airflow. We find that rather than casting, rats run directly toward an odor port, and if this is incorrect, they serially sample other sources. This behavior is consistent and accurate in the presence of perturbations, such as novel odors, background odor, unilateral nostril stitching, and turbulence. We developed a model that predicts that this run-and-scan tracking of air-borne odors is faster than casting, provided there are a small number of targets at known locations. Thus, the combination of best-guess target selection with fallback serial sampling provides a rapid and robust strategy for finding odor sources in familiar surroundings.
Footnotes
↵1 The authors declare no competing financial interests.
↵3 This work was supported by NCBS/TIFR and DBT, India, (BT/01/CEIB/09/III/03), UGC/ISF [F. No. 6-18 / 2014 (IC)]. We thank Raghav Rajan, James P. Clement, Sonal Kedia, and Adil G. Khan for comments on the paper; Aditya Gilra and K. Parthasarathy for help with design and analysis; and Sanjay Sane for discussions.
This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International, which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed.
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