1. Structure and Function
Animal Systems I
Structure and Function

2. Feeding and Digestion Filter Feeders Detritivores Carnivores
Strain their food from water
Detritivores
Feed on detritus, often obtaining extra nutrients from bacteria, algae and other microorganism nearby
Carnivores
Eat other animals
Herbivores
Eat plants or parts of plants in terrestrial and aquatic habitats
Nutritional Symbionts
Dependent on another species
Parasitic Symbionts
Live within or on a host where they feed on tissue, blood, or other body fluids
Mutualistic Symbionts
Both participants benefit

3. Processing Food Intracellular Digestion Extracellular Digestion
Digestion of food inside specialized cells that pass nutrients to other cells by diffusion
Example: sponges
Extracellular Digestion
Process in which food is broken down outside cells in a digestive system and then absorbed
Gastrovascular Cavities
Digestive cavity with a single opening
Example: cnidarians
Digestive Tracts
Tube that begins at the mouth and ends at the anus
Examples: many invertebrates and all vertebrates

4. Specializations for Different Diets
Specialized Mouthparts and Digestive Tracts
Eating Meat
Sharp teeth
Jaw adapted for up and down movements
Short digestive tracts that produce meat-digesting enzymes
Eating Plant Leaves
Adapted to rasping or grinding
Jaw adapted for side-to-side grinding movements
Long intestines or specialized pouches in the digestive tract for microbial symbionts to digest cellulose

5. Respiration Gas Exchange Gas Diffusion and Membranes
All animals must exchange O2 and CO2 with their surroundings
Gas Diffusion and Membranes
Requirements for Respiration
Large surface area with a moist, selectively permeable membrane
Structures maintain a difference in the concentration of O2 and CO2 on either side of the membrane, promoting diffusion

6. Respiration in Aquatic Animals
Diffusion
Some aquatic invertebrates (cnidarians and flatworms), some amphibians, some sea snakes
Gills
Feathery structure specialized for the exchange of gases with water
Most aquatic invertebrates, most aquatic chordates (other than reptiles and mammals)
Lungs
Place where gases are exchanged between the blood and inhaled air
Aquatic reptiles and aquatic mammals

7. Respiration in Terrestrial Animals
Respiration in Land Invertebrates
Skin
Earthworms
Mantle cavities
Land snails
Book lungs
Spiders
Trachael tubes
Insects

8. Respiration in Terrestrial Animals
Lung Structure in Vertebrates
- Lung structure varies, but process of inhaling and exhaling is the same
Amphibian, Reptilian, Mammalian Lungs
Internal surface area increases from amphibian reptile mammal
Mammals have alveoli to increase surface area for gas exchange
Air moves in and out through trachae
Some stale, oxygen-poor air is trapped in the lungs
In humans, this is about 1/3 the air inhaled in a normal breath

9. Respiration in Terrestrial Animals
Bird Lungs
Air flows mostly in 1 direction
No stale air gets trapped
System of tubes and air sacs
Highly efficient; enables birds to obtain O2 needed to power long flights at high altitude

10. Circulation Heart Open Circulatory System
Hollow, muscular organ that pumps blood around the body
Open Circulatory System
Blood is only partially contained within a system of blood vessels as it travels through the body
Has one or more hearts or heart-like organs to pump the blood
Examples: arthropods and mollusks

11. Circulation Closed Circulatory System
Blood circulates entirely within blood vessels that extend throughout the body
A heart, or heart-like organ, forces blood through the vessels
Examples: larger, more active invertebrates, including annelids, some mollusks, and all vertebrates

12. Circulation in Vertebrates
Single-Loop Circulation
Single pump forces blood around the body in one direction
Most vertebrates with gills

13. Circulation in Vertebrates
Double-Loop Circulation
First loop: oxygen poor blood from heart to lungs; returns blood to the heart
Second loop: pumps oxygen rich blood to the body; returns oxygen poor blood to the heart
Terrestrial vertebrates
Amphibians: 3 chambered heart; 2 atria, 1 ventricle
Reptiles: 3 chambered heart; 2 atria, 1 ventricle with a partial partition in the ventricle
Birds and Mammals: 4 chambered heart; 2 atria, 2 ventricles

14. Excretion The Ammonia Problem
Created by the breakdown of proteins by cells
It is poisonous!
Animals either eliminate ammonia from the body quickly or convert it into other less toxic nitrogenous compounds
Excretion
- The elimination of metabolic wastes, such as ammonia
- Small animals in aquatic environments can diffuse ammonia from the skin
- Larger animals, and smaller ones that live in dry environments, have excretory systems to process and eliminate ammonia

15. Excretion Storing Nitrogenous Wastes Maintaining Water Balance
Uric Acid
Less toxic than ammonia
sticky, white compound
Less water soluble
Insects, reptiles, birds
Urea
Highly soluble in water
Mammals and some amphibians
Maintaining Water Balance
Kidneys
organs of excretion that separate wastes and excess water from blood
Efficient but cannot excrete excess salt

16. Excretion in Aquatic Animals
Freshwater Animals
Water concentration is higher in environment than in animal’s body
Water moves into animal’s body by osmosis
Flame cells: remove excess water from body fluids in flatworms
Dilute urine: amphibians and freshwater fishes
Animal would blow up like a balloon otherwise!

17. Excretion in Aquatic Animals
Saltwater Animals
Water concentration is similar to environment
Salt concentration is higher in environment than in animal’s body
Water moves out of the animal’s body by osmosis
Kidneys produces small amounts of concentrated urine to conserve water
Animal would shrivel otherwise!

18. Excretion in Terrestrial Animals
Terrestrial Invertebrates
Nephridia
Tube-like excretory structures that filter body fluid
Annelids, mollusks
Malphigian Tubules
Structures that concentrate the uric acid and add it to digestive waste
Insects, arachnids

19. Excretion in Terrestrial Animals
Terrestrial Vertebrates
Kidneys
Ammonia  urea  urine: mammals, land amphibians
Ammonia  uric acid: reptiles, birds
Adaptations to Extreme Environments
Petrel: birds with specialized glands in their heads to excrete salt
Kangaroo rats: urine that is 25x more concentrated than their blood