Behavioral discrimination and olfactory bulb encoding of odor plume intermittency
Ankita Gumaste,
Keeley L Baker,
Michelle Izydorczak,
Aaron C True,
Ganesh Vasan,
John P Crimaldi,
Justus Verhagen
Affiliations
Ankita Gumaste
Interdepartmental Neuroscience Program, Yale University, New Haven, United States; John B. Pierce Laboratory, New Haven, United States; Department of Neuroscience, Yale School of Medicine, New Haven, United States
Keeley L Baker
John B. Pierce Laboratory, New Haven, United States; Department of Neuroscience, Yale School of Medicine, New Haven, United States
Michelle Izydorczak
John B. Pierce Laboratory, New Haven, United States
Interdepartmental Neuroscience Program, Yale University, New Haven, United States; John B. Pierce Laboratory, New Haven, United States; Department of Neuroscience, Yale School of Medicine, New Haven, United States
In order to survive, animals often need to navigate a complex odor landscape where odors can exist in airborne plumes. Several odor plume properties change with distance from the odor source, providing potential navigational cues to searching animals. Here, we focus on odor intermittency, a temporal odor plume property that measures the fraction of time odor is above a threshold at a given point within the plume and decreases with increasing distance from the odor source. We sought to determine if mice can use changes in intermittency to locate an odor source. To do so, we trained mice on an intermittency discrimination task. We establish that mice can discriminate odor plume samples of low and high intermittency and that the neural responses in the olfactory bulb can account for task performance and support intermittency encoding. Modulation of sniffing, a behavioral parameter that is highly dynamic during odor-guided navigation, affects both behavioral outcome on the intermittency discrimination task and neural representation of intermittency. Together, this work demonstrates that intermittency is an odor plume property that can inform olfactory search and more broadly supports the notion that mammalian odor-based navigation can be guided by temporal odor plume properties.