This means to "talk" by smell. Many animals do this.
Insects have olfactory sensors on their antennae. These sensors help them detect chemicals in the environment, such as pheromones or food sources, which are important for their survival and communication with other insects.
Auditory communication is the use of sound to convey information between individuals, such as through speech or animal vocalizations. Olfactory communication is the use of scents or odors to convey information, often used by animals to communicate territory, reproductive status, or identify individuals. Both forms of communication play important roles in social interactions and can provide valuable information.
Olfactory imagery refers to the use of descriptive language to evoke the sense of smell in writing or communication. It allows the reader or listener to imagine scents or odors based on the words used, enhancing the overall sensory experience.
A smell impulse begins in olfactory receptor cells located in the olfactory epithelium in the nasal cavity. These receptor cells detect specific odorants and send signals to the brain via the olfactory nerve.
The olfactory area is found in the nasal cavity.A rather simplistic answer by the previous respondent, it is in-fact found in the medial aspect of the temporal lobe.
Insects have olfactory sensors on their antennae. These sensors help them detect chemicals in the environment, such as pheromones or food sources, which are important for their survival and communication with other insects.
Auditory communication is the use of sound to convey information between individuals, such as through speech or animal vocalizations. Olfactory communication is the use of scents or odors to convey information, often used by animals to communicate territory, reproductive status, or identify individuals. Both forms of communication play important roles in social interactions and can provide valuable information.
Rats have larger olfactory bulbs relative to their brain size compared to humans. This is because rats heavily rely on their sense of smell for navigation, communication, and food detection in their environment.
in the olfactory bulb
The Olfactory nerve. CN1 Cranial Nerve I, or the first cranial nerve called the Olfactory nerve.
Axons from the olfactory nerve project to the olfactory bulb in the brain. The olfactory bulb processes and relays information about smells to other areas of the brain, such as the olfactory cortex, where scent perception occurs.
Olfactory nerve to the brain's olfactory bulb, where they are processed and interpreted as specific smells. The olfactory nerve is responsible for carrying information about odors from the nose to the brain.
Olfactory imagery refers to the use of descriptive language to evoke the sense of smell in writing or communication. It allows the reader or listener to imagine scents or odors based on the words used, enhancing the overall sensory experience.
The mechanism of the olfactory system can be divided into a peripheral one, sensing an external stimulus and encoding it as an electric signal in neurons, and a central one, where all signals are integrated and processed in the central nervous system. The peripheral olfactory system receptors are connected to bipolar olfactory receptor neurons in the olfactory epithelium. Fot the central olfactory system, axons from the olfactory sensory neurons converge in the olfactory bulb.
Olfactory makes you smell stuff
Olfactory receptors are located in the nasal cavity, specifically in the olfactory epithelium. This specialized tissue lines the upper part of the nasal cavity and contains millions of olfactory receptor cells that are responsible for detecting smells.
The olfactory nerve, responsible for the sense of smell, ends in the olfactory bulb located in the brain, specifically in the olfactory cortex. This is where the nerve impulses triggered by odors are processed and interpreted.