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In this episode, we explore the science behind the sniff—what actually happens when dogs engage with scent. Drawing from recent research on canine olfactory physiology and neuroscience, we unpack how sniffing differs from passive smelling, how dogs adjust their sniffing patterns based on context, and what happens in their brain and body as they search, discriminate, and react to smells. We also explore lateralisation, heart rate dynamics, and the cognitive and emotional consequences of the canine nose at work.Key topics* Sniffing as a cognitive and physiological process* Neural pathways linking olfaction to emotion* Lateralised nostril use and hemispheric processing* Cardiac and cortical correlates of high-frequency sniffing* Differences between ground and air sniffing* The role of efficient sniffing in scent detection and learningLong-read articleStudy overviewThis episode draws on The Art of the Sniff, a synthesis of current literature on canine olfactory mechanisms, including sniffing patterns, olfactory neuroanatomy, physiological correlates of olfaction, and the emotional significance of scent. The reviewed material spans research on dogs and rats, highlighting shared mechanisms and species-specific nuances in how scent is processed, interpreted, and acted upon. The article situates sniffing not merely as a sensory act, but as a gateway into the dog’s cognitive and affective world.Sniffing is not just smelling: the anatomy of active olfactionDogs sniff at frequencies between 4–7 Hz—up to 200 times per minute. This rapid, sharp inhalation creates turbulence in the nasal cavity, enhancing the delivery of odour molecules to the olfactory epithelium (Berg et al., 2024). Approximately 12–13% of each breath is diverted via an upper flow path directly to the olfactory region, where molecules accumulate and are exposed for longer—crucial for signal detection.Unlike humans, dogs inhale from the front and exhale to the side, and each nostril samples air separately. This bilateral sampling enables precise localisation of odours in space, a critical function during tracking or detection tasks. Passive smelling, by contrast, is a lower-resolution, unconscious process that lacks the directional, cognitive engagement of sniffing.The sniffing brain: from olfactory bulb to emotion circuitsSniffing activates distinct areas of the dog’s brain compared to passive odour detection. Functional imaging studies show that the piriform cortex and medial/posterior orbitofrontal gyri are active during active sniffing—even when no odour is present. In contrast, passive smelling primarily engages lateral/anterior orbitofrontal areas, suggesting sniffing is not just a sensory act but a preparatory and attentional one.The olfactory bulb connects directly to emotional and memory-related areas including the amygdala, frontal cortex, and hippocampus. This olfactory–limbic connection explains why scent can trigger strong emotions or memories in dogs, and why familiar human scents activate the caudate nucleus, a reward-related region (Berns et al., 2015).High-frequency sniffing: what the heart and brain revealStudies in rats show that high-frequency (HF) sniffing—above 6 Hz—is not just linked to odour sampling but reflects a shift in overall arousal and motivational state. During HF sniffing, heart rate increases and the motor cortex shows elevated theta/delta ratios—typically associated with attentiveness and engagement. These physiological markers occur even when the animal is stationary, suggesting that sniffing, not movement, is driving the response.While direct canine equivalents are less studied, canine olfaction is similarly tied to heart rate and HRV (heart rate variability), particularly during emotionally charged or cognitively demanding tasks. This suggests that sniffing may serve as a marker for heightened internal engagement.The emotional nose: scent as feelingDogs process emotionally charged odours differently depending on context. They tend to initiate sniffing with the right nostril, particularly for novel or arousing scents. If the odour proves non-threatening or familiar, they may switch to the left nostril. This lateralised behaviour implies hemispheric specialisation in the processing of emotional valence: right hemisphere for vigilance and arousal, left for positive or familiar signals.Olfactory input doesn’t just inform behaviour—it modulates affect. Sniffing and scent work have been shown to increase optimistic judgement in dogs, likely through dopaminergic reward pathways. Human emotional odours also influence dogs: the scent of human fear produces longer sniff durations and more alert behaviour than happiness scents, suggesting interspecies chemosignalling plays a role in emotional contagion.Ground vs air sniffing: strategies and structureDogs shift between ground sniffing and air sniffing depending on the nature of the task. Ground sniffing involves following settled odour ...