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The Senses. Super Snout In The News. Sensory Receptors. Changes environmental stimuli into nerve impulses. Generalized Sensory Pathway. Impulses are conducted to sensory areas of the cerebral cortex. Sensing the Internal Environment. Neurons send messages to homeostasis centers in the brain
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Sensory Receptors • Changes environmental stimuli into nerve impulses
Impulses are conducted to sensory areas of the cerebral cortex
Sensing the Internal Environment • Neurons send messages to homeostasis centers in the brain • Sensor types • Temperature • Carbon dioxide levels • Oxygen levels • pH • Stretch • Pain
Proprioceptors • Position receptors • Within skeletal muscle • Within tendons • In the inner ear • Sense position in space • Example: stretch receptor in muscle
Mechanoreceptors • Detect touch, movement & pressure • Example: lateral line system
Touch Receptors in Human Skin • Merkel’s discs, Meissner’s corpuscles & Pacinian corpuscles
Thermoreceptors • Sensitive to temperature change
Detecting Infrared • Heat is sensed as infrared radiation • Pit organs of some snakes
Detecting UV light • Insects have receptors to detect UV • UV light transmitted by flowers • Insects are pollinators of flowers Normal Light UV Light
Electroreceptors • Detect electric fields • Found in some fish, salamanders & platypus
Detection of Magnetic Fields • Found in variety of migratory animals • Used for orientation to return to certain areas
Chemoreception • Widespread in animal kingdom • May be found on many parts of the body • Includes senses of taste & smell
Taste • Receptor = taste buds • Detect chemicals in food • Primary tastes • Salty • Sweet • Sour • Bitter
Taste Buds • Within tongue papillae • Microvilli extend through taste pore • Nerves attached to receptor cells
Smell • Olfactory receptors • In nasal epithelium • Can distinguish several thousand odors
Photoreception • Sensing light • Different organisms sense different wavelengths • Not all eyes are image forming
Multifaceted Eyes • Each facet sees part of image • Image is summed by brain to form single image
Phototaxis • Detection of light can change behavior • Positive phototaxis • Organism moves toward light • Negative phototaxis • Organism moves away from light
Human Eye • Camera-like eye also found in cephalopods • Single lens • Receptors sensitive to various wavelengths • Light is focused onto receptors
Outer Layer of Eye • Sclera • Tough connective tissue layer • White region of the eye • Cornea • Transparent front of eye • Allows light to enter • Aqueous humor • Liquid behind cornea • Fills anterior chamber
Lens • Just behind aqueous humor • Suspended by ligaments • Ligaments attached to cilliary muscles • Cilliary muscles are able to change lens shape for focusing
Iris • Lies between cornea & lens • Colored part of eye • Controls size of opening • Opening = pupil
Choroid Layer • Dark brown membrane • Lines sclera • Contains blood vessels • Nourishes eye
Retina • Contains sensory receptors • Rods • Low levels of light • Cones • Three types • Stimulated by different wavelengths • Allows for color vision • Fovea • Central area with many cones
Optic Nerve • Creates blind spot in retina • Carries impulses to brain
Depth Perception • Possible because of two eyes in different positions • Provides two images summed by brain • Results in three dimensional quality image
Sound • Type of mechanical energy • Many different types of sound receptors • Some animals hear different wavelengths • Bats use echolocation or animal sonar
Human Hearing • Human ear has three parts • Inner ear has sound receptors
Outer Ear • Pinna • Funnels sound waves • External auditory canal • Leads to tympanic membrane
Tympanic Membrane • Eardrum • Stretches over middle ear opening • Amplifies & increases vibrations • Transfers vibrations to bones of middle ear
Bones of Middle Ear • Malleus, Incus & Stapes • Transfer vibrations to opening of Cochlea
Eustachian Tube • Connects middle ear to nasopharynx • Equalizes air pressure
Inner Ear • Membrane covers oval window • Fluid filled cochlea • Contains organ of Corti • Hair cells are receptors
Sound Perception • Different frequencies set up differing wave patterns • Loud sound increases wave magnitude
Vestibule & Semicircular Canals • Detect position and movement • Both found in inner ear
Vestibule • Senses if you are upside down • Detects effects of gravity • Includes two areas • Utricle • Saccule • Jelly filled chambers
Movement Detection in Vestibule • Otoliths – small pebbles • Movement can cause otoliths to stimulate receptor cells • Brain makes sense of sensory input
Semicircular Canals • Three fluid filled canals • Canals oriented at right angles • Contain ciliated sensory cells • Jelly like material lies above cells • Movement initiates depolarization • Complex movements analyzed by brain