1. Beautiful Birds!

2. Classification Kingdom Animalia Phylum Chordata Subphylum Vertebrata
Class Aves
27 Orders

3. Evolution Evolved from dinosaurs (theropods).
Best known link between dinosaurs & birds is the fossil Archaeopteryx - had traits of both:
large skull w/ teeth, non-hollow bones, forelimbs w/ claws, scaly legs, long tail (reptile/dinosaur), feathers & furcula (birds).

4. Archaeopteryx

5. Evolutionary Success of Birds
Flight - escape, exploitation of new niches, dispersal, long-distance migration.
Endothermy - “warm bloodedness”.
Parental care of offspring.

6. Characteristics of Birds
Body mostly covered in feathers.
Bones thin & hollow, skeleton rigid in places.
Most species use forelimbs for flight.
Bipedal, w/ clawed toes.
Toothless, horny beak composed of keratin.
Keeled sternum.
Furcula - fused clavicles, a.k.a. “wishbone”
Endothermic - body temp. generated & regulated internally.
4-chambered heart, keeping oxygenated blood separate helps with energy needs.
Amniote eggs in hard, calcium-based shell.
Eggs incubated by parents in nest.

7. Skeleton Bones thin & hollow, strengthen by bony struts inside.
Fewer bones than other vertebrates
Keeled sternum – large surface area for attachment of flight muscles
Furculum – “Wishbone” – fused clavicles, supports shoulder joints
Lightweight beak made of keratin
Skeleton

8. Feathers Modified scales provide lift, aerodynamic shape, insulation.
Shaft separates feather into 2 vanes.
Each vane composed of many barbs.
Barbs have many barbules.
Hooks attach adjacent barbules to each other so feather keeps its shape.

9. Types of Feathers
Down feathers - fluffy, no vanes or hooks on barbules.
Contour feathers - provide streamlines shape, coloration, & extra insulation.
Flight feathers - specialized contour feathers on wings & tail.

10. Feather Maintenance
Preening - using beak to straighten feathers & rub w/ oil from preen gland.
Molt - summer molt replaces worn flight feathers prior to migration. Some species have spring molt prior to courtship.

12. Fish-eating beak: long, slim, strong, and pointed to reach into the water and to grasp slippery creatures
Insect-catching beak: small beak that can open wide to grab insects in flight
Seed-eating beak: arched into the shape of a cone; stout and sharp to crack seeds
Insect- and Fruit-eating beak: narrow and pointed to grab insects or reach for fruits, and slightly arched to crack seeds; larger than an insect-catching beak but shorter than a fish- eating beak; sleeker and longer than a seed-eating beak
Straining beak: wide and shallow; comb-like strainers on edges filter out bits of food in the water
Chisel beak: sturdy and sharply pointed to chisel into wood; accompanied by an extremely long, barb-tipped tongue to pull insects and insect eggs out of tunnels in bark or wood
Preying beak: stout, sharp, and sharply hooked to tear into the flesh of animals
Probing beak: thin and long to reach insects and other small animals buried in mud or sand

13. Beaks

14. Digestive System Quick & efficient
Crop – temporary food storage, moistens food.
Proventriculus (stomach) – digestion begins
Gizzard – muscular – grinds food, increases surface area of food. Uses gravel bird has ingested.
Duodenum – receives bile from liver & enzymes from pancreas.
Intestine – nutrient absorption.
Cloaca – undigested food exits.
Digestive System

15. Feet Usually covered with scales.
Specialized to fit lifestyle of bird - often matched with a particular type of beak.
Grasping - stout toes w/ sharp talons.
Wading - long, slender toes distribute weight over lg. area.
Swimming - broad, flattened toes or webbing in between.
Climbing - 2 toes forward, 2 back for grasping vertical surface.
Perching - small, delicate toes for grasping twigs.
Feet

16. Respiratory System Lungs + 9 air sacs
Inhales, some air goes to lungs, most to posterior air sacs
Exhales, air from posterior air sacs moves into lung.
Bird gets fresh O2 both times.

17. Excretory System Kidneys filter uric acid from blood.
Concentrated uric acid moves via ureters to cloaca (no bladder), exits with undigested food.
No bladder (saves weight), so birds eliminate often.
Excretory System

18. Reproductive System
Weight-saving – eggs laid as they are formed, not held in body.
Internal fertilization (advantages?)
Shell gland within oviduct surrounds egg with calcium carbonate shell.
Shares opening (cloaca) with digestive and excretory systems.

19. The Amniote Egg Adaptation to life on land
Miniature self-contained “aquatic environment” prevents water loss.
Amnion – surrounds embryo amniotic fluid (salts & electrolytes).
Yolk sac – encloses yolk, food source rich in proteins & lipids (fats).
Allantois – stores nitrogenous waste products until egg hatches.
Chorion – lines outer shell, encloses embyro & other membranes
Chorion allows for gas exchange with environment.
Albumen – Water & protein – suspends & protects the embryo.

20. Bird Identification Field marks by sight: Overall size
Beak size & shape
Foot characteristics
Leg length
Overall color, isolated patches
Stripes/streaks/bars on various areas (head, breast, wings, tail)

21. Bird Identification Behavior Posture
Movement – walking, perching, and/or flight
Nest site/type
Habitat
Geographic area
Feeding habits
Songs and calls
Bird Identification