Olfactory coding in the turbulent realm
Long-distance olfactory search behaviors depend on odor detection dynamics. Due to turbulence, olfactory signals travel as bursts of variable concentration and spacing and are characterized by long-tail distributions of odor/no-odor events, challenging the computing capacities of olfactory systems. How animals encode complex olfactory scenes to track the plume far from the source remains unclear. Here we focus on the coding of the plume temporal dynamics in moths. We compare responses of olfactory receptor neurons (ORNs) and antennal lobe projection neurons (PNs) to sequences of pheromone stimuli either with white-noise patterns or with realistic turbulent temporal structures simulating a large range of distances (8 to 64 m) from the odor source. For the first time, we analyze what information is extracted by the olfactory system at large distances from the source. Neuronal responses are analyzed using linear–nonlinear models fitted with white-noise stimuli and used for predicting responses to turbulent stimuli. We found that neuronal firing rate is less correlated with the dynamic odor time course when distance to the source increases because of improper coding during long odor and no-odor events that characterize large distances. Rapid adaptation during long puffs does not preclude however the detection of puff transitions in PNs. Individual PNs but not individual ORNs encode the onset and offset of odor puffs for any temporal structure of stimuli. A higher spontaneous firing rate coupled to an inhibition phase at the end of PN responses contributes to this coding property. This allows PNs to decode the temporal structure of the odor plume at any distance to the source, an essential piece of information moths can use in their tracking behavior.
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| Subjects: | L50 - Physiologie et biochimie animales, système nerveux périphérique, phéromone, turbulence, odeur, modèle de simulation, http://aims.fao.org/aos/agrovoc/c_87901b5e, http://aims.fao.org/aos/agrovoc/c_5778, http://aims.fao.org/aos/agrovoc/c_3a6b87a7, http://aims.fao.org/aos/agrovoc/c_14344, http://aims.fao.org/aos/agrovoc/c_24242, |
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dig-cirad-fr-5871612024-12-19T12:33:09Z http://agritrop.cirad.fr/587161/ http://agritrop.cirad.fr/587161/ Olfactory coding in the turbulent realm. Jacob Vincent, Monsempès Christelle, Rospars Jean-Pierre, Masson Jean-Baptiste, Lucas Philippe. 2017. PLoS Computational Biology, 13 (12):e1005870, 26 p.https://doi.org/10.1371/journal.pcbi.1005870 <https://doi.org/10.1371/journal.pcbi.1005870> Olfactory coding in the turbulent realm Jacob, Vincent Monsempès, Christelle Rospars, Jean-Pierre Masson, Jean-Baptiste Lucas, Philippe eng 2017 PLOS PLoS Computational Biology L50 - Physiologie et biochimie animales système nerveux périphérique phéromone turbulence odeur modèle de simulation http://aims.fao.org/aos/agrovoc/c_87901b5e http://aims.fao.org/aos/agrovoc/c_5778 http://aims.fao.org/aos/agrovoc/c_3a6b87a7 http://aims.fao.org/aos/agrovoc/c_14344 http://aims.fao.org/aos/agrovoc/c_24242 Long-distance olfactory search behaviors depend on odor detection dynamics. Due to turbulence, olfactory signals travel as bursts of variable concentration and spacing and are characterized by long-tail distributions of odor/no-odor events, challenging the computing capacities of olfactory systems. How animals encode complex olfactory scenes to track the plume far from the source remains unclear. Here we focus on the coding of the plume temporal dynamics in moths. We compare responses of olfactory receptor neurons (ORNs) and antennal lobe projection neurons (PNs) to sequences of pheromone stimuli either with white-noise patterns or with realistic turbulent temporal structures simulating a large range of distances (8 to 64 m) from the odor source. For the first time, we analyze what information is extracted by the olfactory system at large distances from the source. Neuronal responses are analyzed using linear–nonlinear models fitted with white-noise stimuli and used for predicting responses to turbulent stimuli. We found that neuronal firing rate is less correlated with the dynamic odor time course when distance to the source increases because of improper coding during long odor and no-odor events that characterize large distances. Rapid adaptation during long puffs does not preclude however the detection of puff transitions in PNs. Individual PNs but not individual ORNs encode the onset and offset of odor puffs for any temporal structure of stimuli. A higher spontaneous firing rate coupled to an inhibition phase at the end of PN responses contributes to this coding property. This allows PNs to decode the temporal structure of the odor plume at any distance to the source, an essential piece of information moths can use in their tracking behavior. article info:eu-repo/semantics/article Journal Article info:eu-repo/semantics/publishedVersion http://agritrop.cirad.fr/587161/1/2017_JacobMonsempesRosparsMassonLucas.pdf text Cirad license info:eu-repo/semantics/openAccess https://agritrop.cirad.fr/mention_legale.html https://doi.org/10.1371/journal.pcbi.1005870 10.1371/journal.pcbi.1005870 info:eu-repo/semantics/altIdentifier/doi/10.1371/journal.pcbi.1005870 info:eu-repo/semantics/altIdentifier/purl/https://doi.org/10.1371/journal.pcbi.1005870 |
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L50 - Physiologie et biochimie animales système nerveux périphérique phéromone turbulence odeur modèle de simulation http://aims.fao.org/aos/agrovoc/c_87901b5e http://aims.fao.org/aos/agrovoc/c_5778 http://aims.fao.org/aos/agrovoc/c_3a6b87a7 http://aims.fao.org/aos/agrovoc/c_14344 http://aims.fao.org/aos/agrovoc/c_24242 L50 - Physiologie et biochimie animales système nerveux périphérique phéromone turbulence odeur modèle de simulation http://aims.fao.org/aos/agrovoc/c_87901b5e http://aims.fao.org/aos/agrovoc/c_5778 http://aims.fao.org/aos/agrovoc/c_3a6b87a7 http://aims.fao.org/aos/agrovoc/c_14344 http://aims.fao.org/aos/agrovoc/c_24242 |
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L50 - Physiologie et biochimie animales système nerveux périphérique phéromone turbulence odeur modèle de simulation http://aims.fao.org/aos/agrovoc/c_87901b5e http://aims.fao.org/aos/agrovoc/c_5778 http://aims.fao.org/aos/agrovoc/c_3a6b87a7 http://aims.fao.org/aos/agrovoc/c_14344 http://aims.fao.org/aos/agrovoc/c_24242 L50 - Physiologie et biochimie animales système nerveux périphérique phéromone turbulence odeur modèle de simulation http://aims.fao.org/aos/agrovoc/c_87901b5e http://aims.fao.org/aos/agrovoc/c_5778 http://aims.fao.org/aos/agrovoc/c_3a6b87a7 http://aims.fao.org/aos/agrovoc/c_14344 http://aims.fao.org/aos/agrovoc/c_24242 Jacob, Vincent Monsempès, Christelle Rospars, Jean-Pierre Masson, Jean-Baptiste Lucas, Philippe Olfactory coding in the turbulent realm |
| description |
Long-distance olfactory search behaviors depend on odor detection dynamics. Due to turbulence, olfactory signals travel as bursts of variable concentration and spacing and are characterized by long-tail distributions of odor/no-odor events, challenging the computing capacities of olfactory systems. How animals encode complex olfactory scenes to track the plume far from the source remains unclear. Here we focus on the coding of the plume temporal dynamics in moths. We compare responses of olfactory receptor neurons (ORNs) and antennal lobe projection neurons (PNs) to sequences of pheromone stimuli either with white-noise patterns or with realistic turbulent temporal structures simulating a large range of distances (8 to 64 m) from the odor source. For the first time, we analyze what information is extracted by the olfactory system at large distances from the source. Neuronal responses are analyzed using linear–nonlinear models fitted with white-noise stimuli and used for predicting responses to turbulent stimuli. We found that neuronal firing rate is less correlated with the dynamic odor time course when distance to the source increases because of improper coding during long odor and no-odor events that characterize large distances. Rapid adaptation during long puffs does not preclude however the detection of puff transitions in PNs. Individual PNs but not individual ORNs encode the onset and offset of odor puffs for any temporal structure of stimuli. A higher spontaneous firing rate coupled to an inhibition phase at the end of PN responses contributes to this coding property. This allows PNs to decode the temporal structure of the odor plume at any distance to the source, an essential piece of information moths can use in their tracking behavior. |
| format |
article |
| topic_facet |
L50 - Physiologie et biochimie animales système nerveux périphérique phéromone turbulence odeur modèle de simulation http://aims.fao.org/aos/agrovoc/c_87901b5e http://aims.fao.org/aos/agrovoc/c_5778 http://aims.fao.org/aos/agrovoc/c_3a6b87a7 http://aims.fao.org/aos/agrovoc/c_14344 http://aims.fao.org/aos/agrovoc/c_24242 |
| author |
Jacob, Vincent Monsempès, Christelle Rospars, Jean-Pierre Masson, Jean-Baptiste Lucas, Philippe |
| author_facet |
Jacob, Vincent Monsempès, Christelle Rospars, Jean-Pierre Masson, Jean-Baptiste Lucas, Philippe |
| author_sort |
Jacob, Vincent |
| title |
Olfactory coding in the turbulent realm |
| title_short |
Olfactory coding in the turbulent realm |
| title_full |
Olfactory coding in the turbulent realm |
| title_fullStr |
Olfactory coding in the turbulent realm |
| title_full_unstemmed |
Olfactory coding in the turbulent realm |
| title_sort |
olfactory coding in the turbulent realm |
| publisher |
PLOS |
| url |
http://agritrop.cirad.fr/587161/ http://agritrop.cirad.fr/587161/1/2017_JacobMonsempesRosparsMassonLucas.pdf |
| work_keys_str_mv |
AT jacobvincent olfactorycodingintheturbulentrealm AT monsempeschristelle olfactorycodingintheturbulentrealm AT rosparsjeanpierre olfactorycodingintheturbulentrealm AT massonjeanbaptiste olfactorycodingintheturbulentrealm AT lucasphilippe olfactorycodingintheturbulentrealm |
| _version_ |
1819043654475448320 |