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1. Beyond intersubjectivity in olfactory psychophysics I: Troubles with the Subject

   https://doi.org/10.1177/0306312720915645  

   Alač, Morana (May 2020, Social Studies of Science)

   This article provides an experience-oriented relational account that goes beyond a human control of the world. Rather than working with the notion of intersubjectivity (commonly evoked in sensory STS, and still conserving the subject/object opposition), the article reports on how the sense of smell affords a rethinking of our relationship with the world. It does so by challenging the assumption of olfactory ineffability as it turns to a place whose inhabitants speak about smell as a part of their everyday affairs: a laboratory of olfactory psychophysics. There, we attend to a multimodal, embodied language that participates in preparing, running and analyzing scientific experiments. While Western languages are short on specialized vocabulary for expressing olfactory qualities and it feels difficult to talk about smell, laboratory events manifest smell language in its enmeshing with the sensory realm and the world. Noticing these ties destabilizes the idea of agential subject, highlighting instead our pre-intentional sensibility, in its connection with the world. A sister article on ‘troubles with the Object’ (Alač, 2020) continues to argue that the notion of intersubjectivity is overly narrow, highlighting our immersion in the world (rather than assuming our dominance of it). 

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2. Spatial information from the odour environment in mammalian olfaction

   https://doi.org/10.1007/s00441-020-03395-3  

   Marin, Alina Cristina; Schaefer, Andreas T; Ackels, Tobias (January 2021, Cell and Tissue Research)

   null (Ed.)

   Abstract The sense of smell is an essential modality for many species, in particular nocturnal and crepuscular mammals, to gather information about their environment. Olfactory cues provide information over a large range of distances, allowing behaviours ranging from simple detection and recognition of objects, to tracking trails and navigating using odour plumes from afar. In this review, we discuss the features of the natural olfactory environment and provide a brief overview of how odour information can be sampled and might be represented and processed by the mammalian olfactory system. Finally, we discuss recent behavioural approaches that address how mammals extract spatial information from the environment in three different contexts: odour trail tracking, odour plume tracking and, more general, olfactory-guided navigation. Recent technological developments have seen the spatiotemporal aspect of mammalian olfaction gain significant attention, and we discuss both the promising aspects of rapidly developing paradigms and stimulus control technologies as well as their limitations. We conclude that, while still in its beginnings, research on the odour environment offers an entry point into understanding the mechanisms how mammals extract information about space. 

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3. Birds and Their Extraordinary Sense of Smell

   https://doi.org/10.3389/frym.2024.1332305  

   Li, Renee; Mantha, Nivritti; Ojiro, Ichie; Matsunami, Hiroaki; Driver, Robert (September 2024, Frontiers for Young Minds)

   Smell is one of the five senses we use to experience the world. It allows humans and other animals to find their food, avoid danger, and even recognize family members. Animals detect smells with olfactory receptors, special proteins that sit on the surface of the nose cells. These interact with odor molecules (small particles that have a smell) and send signals to the brain so the animal can perceive the smell. We know mammals have hundreds of olfactory receptors and can detect tens of thousands of smells, but what about birds? For decades, many people thought that birds did not use smell in their daily lives, but recent studies have shown that birds respond to smell. We show that many birds have a large number of olfactory receptors similar to mammals, strengthening the case for smell playing an important role in the life of birds. 

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4. Mapping the Microstructure and Striae of the Human Olfactory Tract with Diffusion MRI

   https://doi.org/10.1523/JNEUROSCI.1552-21.2021  

   Echevarria-Cooper, Shiloh L.; Zhou, Guangyu; Zelano, Christina; Pestilli, Franco; Parrish, Todd B.; Kahnt, Thorsten (January 2022, The Journal of Neuroscience)

   The human sense of smell plays an important role in appetite and food intake, detecting environmental threats, social interactions, and memory processing. However, little is known about the neural circuity supporting its function. The olfactory tracts project from the olfactory bulb along the base of the frontal cortex, branching into several striae to meet diverse cortical regions. Historically, using diffusion magnetic resonance imaging (dMRI) to reconstruct the human olfactory tracts has been prevented by susceptibility and motion artifacts. Here, we used a dMRI method with readout segmentation of long variable echo-trains (RESOLVE) to minimize image distortions and characterize the human olfactory tracts in vivo . We collected high-resolution dMRI data from 25 healthy human participants (12 male and 13 female) and performed probabilistic tractography using constrained spherical deconvolution (CSD). At the individual subject level, we identified the lateral, medial, and intermediate striae with their respective cortical connections to the piriform cortex and amygdala (AMY), olfactory tubercle (OT), and anterior olfactory nucleus (AON). We combined individual results across subjects to create a normalized, probabilistic atlas of the olfactory tracts. We then investigated the relationship between olfactory perceptual scores and measures of white matter integrity, including mean diffusivity (MD). Importantly, we found that olfactory tract MD negatively correlated with odor discrimination performance. In summary, our results provide a detailed characterization of the connectivity of the human olfactory tracts and demonstrate an association between their structural integrity and olfactory perceptual function. SIGNIFICANCE STATEMENT This study provides the first detailed in vivo description of the cortical connectivity of the three olfactory tract striae in the human brain, using diffusion magnetic resonance imaging (dMRI). Additionally, we show that tract microstructure correlates with performance on an odor discrimination task, suggesting a link between the structural integrity of the olfactory tracts and odor perception. Lastly, we generated a normalized probabilistic atlas of the olfactory tracts that may be used in future research to study its integrity in health and disease. 

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5. A family of olfactory receptors uniquely expanded in marsupial and monotreme genomes are expressed by a T cell subset also unique to marsupials and monotremes

   https://doi.org/10.1016/j.dci.2024.105149  

   Sampson, Jordan M; Morrissey, Kimberly A; Douek, Daniel C; Miller, Robert D (February 2024, Developmental & Comparative Immunology)

   Olfactory receptors (OR), expressed on olfactory neurons, mediate the sense of smell. Recently, OR have also been shown to be expressed in non-olfactory tissues, including cells of the immune system. An analysis of single-cell transcriptomes of splenocytes of the gray short-tailed opossum (Monodelphis domestica) found OR are expressed on a subset of T cells, the γμ T cells, that are unique to marsupials and monotremes. A majority of opossum γμ T cells transcriptomes contain OR family 14 transcripts, specifically, from the OR14C subfamily. Amongst the mammals, the OR14 gene family is expanded in the genomes of marsupials and monotremes, and rarer or absent in placental mammals. In summary, here we demonstrate the intriguing correlation that a family of OR genes, abundant in the genomes of marsupials and monotremes, are ectopically expressed in a particular subset of T cells unique to the marsupials and monotremes. 

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