| File | Title | Manuscript Id |
|---|
| Chapter 36 Introduction | morris2e_ch36_1.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_1_dlap.xml | 563c30a2757a2e2539000000 |
| 36.1 Animal Sensory Systems
| morris2e_ch36_2.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_2_dlap.xml | 563c30a2757a2e2539000000 |
| Specialized sensory receptors detect diverse stimuli.
| morris2e_ch36_3.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_3_dlap.xml | 563c30a2757a2e2539000000 |
| Chemoreceptors are universally present in animals.
| morris2e_ch36_4.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_4_dlap.xml | 563c30a2757a2e2539000000 |
| Mechanoreceptors are a second general class of ancient sensory receptors.
| morris2e_ch36_5.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_5_dlap.xml | 563c30a2757a2e2539000000 |
| Electromagnetic receptors sense light, thermoreceptors sense temperature, and nociceptors sense pain.
| morris2e_ch36_6.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_6_dlap.xml | 563c30a2757a2e2539000000 |
| Stimuli are transmitted by changes in the firing rate of action potentials.
| morris2e_ch36_7.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_7_dlap.xml | 563c30a2757a2e2539000000 |
| 36.2 Smell and Taste
| morris2e_ch36_8.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_8_dlap.xml | 563c30a2757a2e2539000000 |
| Smell and taste depend on chemoreception of molecules carried in the environment and in food.
| morris2e_ch36_9.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_9_dlap.xml | 563c30a2757a2e2539000000 |
| 36.3 Gravity, Movement, and Sound
| morris2e_ch36_10.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_10_dlap.xml | 563c30a2757a2e2539000000 |
| Hair cells sense gravity and motion.
| morris2e_ch36_11.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_11_dlap.xml | 563c30a2757a2e2539000000 |
| Hair cells detect the physical vibrations of sound.
| morris2e_ch36_12.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_12_dlap.xml | 563c30a2757a2e2539000000 |
| Case 7: How have sensory systems evolved in predators and prey?
| morris2e_ch36_13.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_13_dlap.xml | 563c30a2757a2e2539000000 |
| 36.4 Vision
| morris2e_ch36_14.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_14_dlap.xml | 563c30a2757a2e2539000000 |
| Animals see the world through different types of eyes.
| morris2e_ch36_15.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_15_dlap.xml | 563c30a2757a2e2539000000 |
| The structure and function of the vertebrate eye underlie image processing.
| morris2e_ch36_16.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_16_dlap.xml | 563c30a2757a2e2539000000 |
| Vertebrate photoreceptors are unusual because they hyperpolarize in response to light.
| morris2e_ch36_17.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_17_dlap.xml | 563c30a2757a2e2539000000 |
| Color vision detects different wavelengths of light.
| morris2e_ch36_18.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_18_dlap.xml | 563c30a2757a2e2539000000 |
| Local sensory processing of light determines basic features of shape and movement.
| morris2e_ch36_19.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_19_dlap.xml | 563c30a2757a2e2539000000 |
| 36.5 Brain Organization and Function
| morris2e_ch36_20.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_20_dlap.xml | 563c30a2757a2e2539000000 |
| The brain processes and integrates information received from different sensory systems.
| morris2e_ch36_21.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_21_dlap.xml | 563c30a2757a2e2539000000 |
| The brain is divided into lobes with specialized functions.
| morris2e_ch36_22.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_22_dlap.xml | 563c30a2757a2e2539000000 |
| Information is topographically mapped into the vertebrate cerebral cortex.
| morris2e_ch36_23.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_23_dlap.xml | 563c30a2757a2e2539000000 |
| 36.6 Memory and Cognition
| morris2e_ch36_24.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_24_dlap.xml | 563c30a2757a2e2539000000 |
| The brain serves an important role in memory and learning.
| morris2e_ch36_25.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_25_dlap.xml | 563c30a2757a2e2539000000 |
| Cognition involves brain information processing and decision making.
| morris2e_ch36_26.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_26_dlap.xml | 563c30a2757a2e2539000000 |
| Chapter 36 Summary | morris2e_ch36_27.html | 563c30a2757a2e2539000000 |
| DLAP questions | morris2e_ch36_27_dlap.xml | 563c30a2757a2e2539000000 |