Ornithology : Ornithology Basic Characteristics, Evolution of Birds, Form and Function,
Intro/Basic Characteristics : Intro/Basic Characteristics
What are birds? : What are birds? Taxonomy
Kingdom Animalia
Phylum Chordata
Class Aves
Characteristics : Characteristics Bipedal
Feathers (diagnostic)
Insulation
Lift and thrust
Toothless bills covered with horny sheath
Wings
Ability to fly*
Characteristics (cont.) : Characteristics (cont.) Adaptations associated with flight:
Skeleton
Musculature
Physiology
Reproductive system
CNS
etc…
Adaptive Radiations (within adaptive radiations) : Adaptive Radiations (within adaptive radiations) Evolution of ecological diversity within a rapidly multiplying lineage (Schluter, 2000)
150-160 MYA
>10,000 species extant
Fraction of what has existed
Slide7 : Ur bird ancestor
Hawaiian Honeycreepers : Hawaiian Honeycreepers
Radiations within smaller groups
Radiation in body parts
A note on Avian Classification : A note on Avian Classification Imprint of Linneaus 1758
Binomial nomenclature
Upupa epops
Standard English Names (“Common Name”)
In NA, both established by AOU Genus species Kingdom
Phylum
Class
Order
From
Genus
species
Classification of three species of woodpeckers : Classification of three species of woodpeckers
Current Classification : Current Classification 29 orders
187 Families
2000+ Genera
10000+ species
Rapidly changing
Slide12 :
Interesting biogeograpy : Interesting biogeograpy Each faunal region has its characteristic birds – endemics
Biogeography (cont.) : Biogeography (cont.)
Biogeography (cont.) : Biogeography (cont.) Most bird communities or faunas are mosaics of species of various ages from various historical backgrounds
+ factors affecting species richness Local
Bird Community Regional
Bird Community Speciation Mass extinction events Habitat
selection Immigration / Invasion Stochastic extinction events Competitive exclusion Predatory exclusion From Ricklefs and Miller, 2000
Slide16 : 1998
Evolution of Birds� : Evolution of Birds
Note on Phylogenetics : Note on Phylogenetics Phylogenetics – History of the evolution of a group
Cladistics – defining groups based on shared characteristics not found in ancestors (derived)
Cladogram – “tree-like” hypothesis of the hierarchical evolutionary relationships of a group A B C D E time F OTUs
Tips
Nodes
Branches
Extinct taxa
Speciation
“Reading” the tree
Slide19 :
Based on shared, derived characteristics : Based on shared, derived characteristics
middle ear bones : middle ear bones
Diversity of Birds�100,000 species! : Diversity of Birds 100,000 species! Due to :
Phyletic evolution
Cladistic evolution (speciation)
Extinction – “termination of a lineage” a b c Time a b c a b a b c a d - Heritable variation in a population due to mutation
- Some variation leads to differential reproductive success (if expressed)
Pg 47
Shared, derived characters with anything? : Shared, derived characters with anything?
Other features? : Other features? Nucleated RBCs
Scales
Ankle in tarsal bones (not between long bones and tarsals)
Bipedal (theropods)
Yolked, polar, cleidoic egg
Females are heterogametic
etc…
Link Between Birds and Reptiles : Link Between Birds and Reptiles Lots of morphological, behavioral and physiological similarity between Reptiles and Birds.
Which reptiles???
Founding of Archaeopteryx : Founding of Archaeopteryx Lithograph Quarrymen – Jurassic limestone
Single feather impression – 1861, Bavarian Quarry
Complete skeletal impression – Few months later
2nd complete skeleton – 1877, quarry near Eichstatt, Germany
Herman von Meyer
Archaeopteryx lithographica
Slide27 :
Slide28 :
Archaeopteryx : Archaeopteryx Debates
Support of Darwinian evolution
Darwin predicted transitional fossils in 1859
‘one of the best links between two taxa’ (Feduccia, Ostrom, etc.)
Creation / Evolution debate (pg 27)
Evolution of feathers (flight or insulation first?)
Evolution of homeothermy in birds
Evolution of flight
Ground-up vs. Trees down
Slide30 : Could it fly?
The ‘historical’ evolution of flight debate : The ‘historical’ evolution of flight debate Two main hypotheses:
Ground-up (cursorial hypothesis)
Trees-down (arboreal hypothesis)
Ground-up : Ground-up Assume biped, cursorial ancestor
Has to be bipedal to use wings at all
Large legs for running muscle attachment
Bones of legs are long
Once running:
Use feathers for other things
Catch insects
Pick up minimum speed for lift: Flight
Trees-down : Trees-down Assume semi-bipedal leaping and gliding ancestor
Use of claws to scale trees, then glide to ground
Claws retained in winged appendages
Short hand wing (power), relatively long arm wing (lift)
Claw geometry (Feduccia’s study)
Large attachment sites for downstroke on humerus but no keeled sternum
Flying squirrels?
Winner? : Winner? Trees-down…maybe
Largely historical debate
More productive???
Why evolve flight?
To help escape from predators
To help catch flying or speedy prey
To help move from place to place (leaping or gliding)
Vigilence
Migration, etc…
Nomadism
To free the hindlegs for use as weapons
Slide35 :
Slide36 : Craniate phylogeny
and diversity of living species
From Bemis
http://www.bio.umass.edu/biology/bemis
1/31/06 : 1/31/06 Lab tomorrow – in the field (Briar Creek Lake)
Bring
Clothes
Binoculars
Waterproof notebook
Time to meet?
Lab Activities BWSV
Read Taking Field Notes Handout
Lecture Today
End Evolution
Start Form and Function
Feathers
Slide38 : Fig. 3.25
Slide39 :
Slide40 :
Slide41 : Fig. 3.20
Alternative Hypotheses? : Alternative Hypotheses? Overhead from Feduccia
Leading alternative hypotheses : Leading alternative hypotheses Theropod Ancestry
Pros
Lots of fossils
Some with feathers
Bone morphology
Foot with 3 digits
Embryology (birds w/5)
Sholder joint similarity
Facilitates wings held at sides
Eggs in nest structure
Cons
Theropod adapted for running (how could flyer and runner share ancestry?
Feathers? (Old argument)
Theropod fossils – yes
Used for insulation
Exapted for flight.
Thecodont Ancestry
Pros
Tree dwellers
Glider forms
In the trees
“More parsimonious argument that flight feathers evolved from gliding stabilizers rather than insulation”
Cons
Fossil Evidence is missing
Form and Function : Form and Function
Feathers : Feathers Most conspicuous integumental derivative
Keratin
Function
Flight
Heat Conservation
Reduced convective and evaporative heat loss
Increased insulation
Feather Development : Feather Development Development triggered by an interaction b/w epidermis and dermal mesenchyme
Formation of dermal papilla (placode)
Mitotic divisions in a collar zone of the stratum germinativum near the base of the papilla form a crown of barbs
Covered by a horny sheath of epidermis
Lizard scales Scaleless hen Bird scales
Feather Development : Feather Development As development proceeds:
Differential cell division on one side of the papilla
Timing of expression of two proteins: Shh & Bmp2
These cells form a shaft away from the body
carrying the barbs that are formed in the collar
The base of the feather recedes into the skin
Accompanied by layers of epithelial cells
Feather follicle
Degeneration of epidermal sheath
Feather morphogenesis : Feather morphogenesis Movie
Morphology of a Feather : Morphology of a Feather
Morphology of a feather (cont) : Morphology of a feather (cont)
Morphology of a feather (cont) : Morphology of a feather (cont) Major Types:
Contour
Insul., Flight
Vanes symmetrical
Vanes asymmetrical
Semiplumes and
Rachis > barbs
Down
Rachis < barbs
Insul.
Adult down
Natal down (lost)
Powder down
Grooming
waterproofing
Bristles
Little or no vane
Filoplume
Monitor pennaceous feathors
Attached to sensory corpuscles Plumulaceous Pennaceous
Contour feathers : Contour feathers Wings
Contour feathers : Contour feathers Tail
Semiplume : Semiplume ostrich
Down : Down natal adult powder
Filoplume : Filoplume
Bristles : Bristles Whip-poor-will
Cross-section of feather follicle : Cross-section of feather follicle Barb ridges of epithelial
Surrounding dermal core of connective tissue
Space of the follicle
Epithelial tissue of follicle
Associated musculature
Melanins : Melanins
Carotenoids : Carotenoids
Porphyrins : Porphyrins
Structural colors : Structural colors