Ornithology
Template:EventLinksBox Ornithology is an event for the 2021 season concerning the science and study of birds. The competition includes both identification of birds and questions about bird characteristics (anatomy, diet, range, etc). Any of the species on the Official Bird List may be tested on during the competition. However, some states may use a modified bird list.
Ornithology rotates with Forestry, Entomology, Invasive Species, and Herpetology every 2 years for both Division B and Division C. It was an event for 2010 and 2011, rotating out for Forestry in 2012. However, the event returned for the 2020 and 2021 seasons.
Overview of the Event
This event may take the form of timed stations or slides, quizzing competitors over the study of birds. Identification and scientific knowledge are equally important in this event, and questions on either may show up on a test. All birds on a test should be either on a state-specific list posted prior to the competition or the 2020 Official Bird List. Identification questions can be to any level indicated on the Official Bird List, and competitors should study the call of any bird marked with a musical note.
Stations (or PowerPoint slides) may include:
- Live/preserved specimens
- Skeletal material
- Recordings of songs
- Slides or pictures of specimens
Each team may bring one published field guide, one 2" or smaller three-ring binder with notes in any form, and the two page Official Bird List. The bird list does not need to be attached to the binder. Both the field guide and three ring binder can contain tabs, sheet protectors, lamination and tabs.
Questions about the birds may be about any of the following topics:
- Life History
- Distribution
- Anatomy
- Physiology
- Reproduction
- Habitat characteristics
- Ecology
- Behavior
- Habitat
- Symbiotic relationships
- Trophic level
- Adaptive anatomy
- Bill size and shape
- Migration
- Distribution
- Occurrence (common, rare, endangered, etc.)
- Diet
- Behavior
- Conservation
- Biogeography
Glossary
Word | Definition |
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Altricial | When a hatchling is completely dependent on its parents. |
Bird Topography | The external anatomy of birds; anatomical features that can be observed on the outside of a bird's body. |
Contour Feather | Any of the outermost feathers of a bird, forming the visible body contour and plumage. |
Down | A layer of fine feathers found under the tougher exterior feathers. |
External Anatomy | See Bird Topography |
Feather (n) | Any of the light horny epidermal outgrowths that form the external covering of the body of birds and that consist of a shaft bearing on each side a series of barbs which bear barbules which in turn bear barbicels commonly ending in hooked hamuli and interlocking with the barbules of an adjacent barb to link the barbs into a continuous vane. |
Feather (v) | To grow feathers. |
Feather Tract | See pterylae |
Horns | Paired contour feathers arising from head. |
Lower Mandible | The lower part of the bill. |
Plumulaceous | Downy; bearing down. |
Precocial | Hatching fully developed, ready for activity, not completely dependent on parents. |
Pterylae | Areas of the skin from which feathers grow. |
Upper Mandible | The upper part of the bill. |
General Information
Birds are bipedal, warm-blooded vertebrates that make up the class Aves. They are distinguished from other organisms by feathers which cover their body, bills, and often complex songs and calls. All extant (non-extinct) birds have forearms adapted for flight known as wings, though some species have evolved to the point where their wings are vestigial and no longer used for flight. Birds also have highly specialized respiratory and digestive systems, also adapted to assist with flight. Their respiratory systems are highly efficient, and are one of the most complex respiratory systems of known animal groups.
Birds reproduce by laying eggs, unique for their hard shell made mostly of calcium carbonate. These eggs are laid in a nest, which differs highly from species to species. Some birds construct elaborate, highly specialized nests, while others simply dig out a spot in the ground. The amount of eggs in a clutch can vary wildly from species to species, as well as the time that it takes eggs to incubate.
There are around 10,000 known species of birds, which are found all over the earth, and on every continent. Birds occupy a large range of habitats, making them the most numerous tetrapod vertebrates. While many birds share common characteristics, they are a highly diverse group of animals and their behavior can be very distinct.
Bird Anatomy and Physiology
Topography
Topography refers to the external anatomy of a bird. These are traits that would be easy to identify in a picture, such as the beak, breast and wing. Knowing the parts of a bird can help distinguish differences between species - while two birds may look very similar, one may have a trait that another does not. For example, all members of the family Anatidae have a hard plate known as a nail at the tip of their beak. This nail serves a different purpose depending on the species, but its presence indicates what family an organism is a part of. Investigating a bird's topography can also give hints about the bird's habitat and diet, as most birds are highly adapted to their surroundings. A bird with a small, pointed beak may eat primarily insects, but a bird with a long, narrow beak may drink nectar or probe into the ground for food.
Physiology
Respiration
A bird's respiratory system is one of the most efficient found in vertebrates. This is mainly because of their ability to fly, which creates a need for more oxygen.
Air sacks are structures unique to birds, which take up 20% of a bird's internal body space. Air sacks store air, keeping a fixed volume in the lungs. There are two types of air sacks: anterior and posterior. Sometimes, air sacks rest inside the semi-hollow bones of birds. In addition, a bird's lungs take up half of the space that mammal's lungs do, yet weight does not decrease.
When a bird takes a breath, air passes through the trachea either into the bird's lungs and then the anterior air sacks or directly into the posterior air sacks. Air in the anterior air sacks go directly through the trachea and back out of the nostrils, while air in the posterior air sacks go through the lungs, and then through the trachea as the bird exhales.
One important adaption birds have made is that new oxygen and old, waste gasses are never mixed during respiration. Also, old air is almost completely replaced by new air when a bird takes a breath.
Circulation
Like many mammals (including humans), birds have a four-chambered heart. However, a bird's heart can be almost twice the size of a mammal's, and much more efficient, for the same reason as the circulatory system. Powerful flyers and divers have the largest heart relative to their body size.
Skeleton
A bird's skeleton is, in many ways, well-adapted for flight. The major bones of a bird's skeleton have a hollow interior with crisscrossing "struts" to provide support. Some bones contain air sacks which are used by the respiratory system. Bird skeletons generally follow a specific format, with the exception of extreme specialization.
The image above shows the bones in the average bird's wing, with the left side being the tip of the wing and the right side being where it connects to the bird's body. Notice how similar it is to a human arm. There are two major sections to the arm. The upper arm is made up of the humerus, while the lower arm consists of the radius and the ulna. Birds have 2 wrist bones (carpals). However, instead of having 5 metacarpals (hand bones), they have one bone called the carpometacarpus. This limits the mobility of the manus, but it is better adapted for flight. Birds have 3 digits and 4 finger bones (phalanges, singular phalanx). The middle and largest digit has to phalanges.
Birds' legs are slightly more complicated. What most people think of as the knees of a bird are actually the ankles, as the knees (and the upper legs (femur)) are mostly hidden by feathers. Birds have a fuse and extended foot bone (tarsometatarsus) which most people think of as the lower leg, and which give birds three sections to the leg instead of 2. The bone in the actual lower leg is the tibiotarsus, a fusion of part of the tarsus with the tibia. Birds have (at most) four toes, although some birds have less (e.g. the ostrich, which only has two toes. Refer to the image at the right for leg anatomy, and the image below for toe variations.
- Anisodactyl feet have three toes forward and one backward. It's the most common toe configuration, and is used by songbirds and perching birds.
- Zygodactyl feet have two toes forward and two toes backward. It's used by climbers such as woodpeckers because it enables a stronger grip on branches.
- Heterodactyl feet are similar to zygodactyl ones except the second toe is reversed. It's only found on trogons.
- Syndactyl feet have the third and fourth toe partially fused together. It's characteristic of Kingfishers.
- Pamprodactyl feet have all four toes facing front. Swifts may use this configuration to get a better grip when hanging on the sides of chimneys or caves.
Feathers and Plumage
Birds are the only modern animals that have feathers. Feathers are made of beta-keratin, which also makes up the scales on bird's legs.
Contour feather - Any of the outermost feathers of a bird, forming the visible body contour and plumage. A contour feather consists of a middle shaft and a vane on both sides of the shaft. The calamus, or quill, is the base of the shaft, while the rachis supports the vanes.
The vane of a contour feather is mainly made up of barbs, which consist of rami (s. ramus) sticking out vertically from the rachis. Each ramus contains barbules, which in turn have interlocking barbicels. This gives the vane of a contour feather a tight, smooth surface.
Flight feathers - These feathers are only found on the wings and the tail. They are large, stiff, and aerodynamic, which is helpful in flight. There are three main types of flight feathers: primaries, secondaries, and tertiaries. In addition, feathers called coverts cover the bases of the flight feathers.
Down feather - A feather that has plumulaceous barbs. It is mostly used for insulation. Down feathers do not have a rachis; barbs are attached directly to the quill.
Semiplumes - Feathers with a long rachis and plumulaceous barbs. Like down feathers, semiplumes mainly provide insulation.
Filoplumes - Small feathers with a long rachis, but only a few barbs at the top. Filoplumes are attached to nerve endings at the base, letting them send information to the brain about the placement of contour feathers.
Bristles - Stiff feathers with some barbs found at the base. Bristles are almost always found on the face of birds. Bristles have many possible applications, including protection from insects and dust, and acting as a "net" to aid in catching insects.
Species of Birds
This section contains information about individual orders, families and species. The birds are in the same order as they are on the Official Bird List. One order of birds was removed completely from the Official Bird List in 2020 - Trogoniformes. Images of each bird, as well as comments on their identification, can be found on the complete bird list.
- Anseriformes
- Galliformes
- Gaviiformes
- Podicipediformes
- Procellariiformes
- Pelecaniformes
- Suliformes
- Ciconiiformes
- Falconiformes
- Accipitriformes
- Cathartiformes
- Gruiformes
- Charadriiformes
- Columbiformes
- Cuculiformes
- Strigiformes
- Caprimulgiformes
- Apodiformes
- Coraciiformes
- Piciformes
- Passeriformes
Bird Calls
Order | Family | Species | Common Name | Link |
---|---|---|---|---|
Anseriformes | Anatidae | Cygnus buccinators | Trumpeter Swan | Call |
Anseriformes | Anatidae | Anas platyrhynchos | Mallard | Call |
Galliformes | Phasianidae | Bonasa umbellus | Ruffed Grouse | Call |
Galliformes | Odontophoridae | Colinus virginianus | Northern Bobwhite | Call |
Gaviiformes | Gaviidae | Gavia immer | Common Loon | Call |
Ciconiiformes | Ardeidae | Botaurus lentiginosus | American Bittern | Call |
Falconiformes | Accipitridae | Haliaeetus leucocephalus | Bald Eagle | Call |
Falconiformes | Accipitridae | Buteo jamaicensis | Red-tailed Hawk | Call |
Gruiformes | Rallidae | Porzana carolina | Sora | Call |
Gruiformes | Gruidae | Grus americana | Whooping Crane | Call |
Charadriiformes | Charadriidae | Charadrius vociferus | Killdeer | Call |
Charadriiformes | Laridae | Leucophaeus atricilla | Laughing gull | Call |
Columbiformes | Columbidae | Zenaida macroura | Mourning Dove | Call |
Cuculiformes | Cuculidae | Coccyzus erythropthalmus | Black-billed Cuckoo | Call |
Strigiformes | Strigidae | Bubo virginianus | Great Horned Owl | Call |
Strigiformes | Strigidae | Strix varia | Barred Owl | Call |
Caprimulgiformes | Caprimulgidae | Caprimulgus carolinensis | Chuck-will’s-widow | Call |
Apodiformes | Trochilidae | Archilochus colubris | Ruby-throated Hummingbird | Call |
Coraciiformes | Alcedinidae | Megaceryle alcyon | Belted Kingfisher | Call |
Piciformes | Picidae | Colaptes auratus | Northern Flicker | Call |
Passeriformes | Tyrannidae | Myiarchus crinitus | Great Crested Flycatcher | Call |
Passeriformes | Corvidae | Cyanocitta cristata | Blue Jay | Call |
Passeriformes | Corvidae | Corvus brachyrhynchos | American Crow | Call |
Passeriformes | Paridae | Poecile atricapillus | Black-capped Chickadee | Call |
Passeriformes | Paridae | Baeolophus bicolor | Tufted Titmouse | Call |
Passeriformes | Sittidae | Sitta canadensis | Red-breasted Nuthatch | Call |
Passeriformes | Troglodytidae | Thryothorus ludovicianus | Carolina Wren | Call |
Passeriformes | Turdidae | Hylocichla mustelina | Wood Thrush | Call |
Passeriformes | Turdidae | Turdus migratorius | American Robin | Call |
Passeriformes | Mimidae | Mimus polyglottos | Northern Mockingbird | Call |
Passeriformes | Parulidae | Geothlypis trichas | Common Yellowthroat | Call |
Passeriformes | Emberizidae | Pipilo maculatus | Spotted Towhee | Call |
Passeriformes | Cardinalidae | Cardinalis cardinalis | Northern Cardinal | Call |
Passeriformes | Icteridae | Agelaius phoeniceus | Red-winged Blackbird | Call |
Passeriformes | Icteridae | Sturnella neglecta | Western Meadowlark | Call |
Passeriformes | Icteridae | Icterus galbula | Baltimore Oriole | Call |
Former Calls
Competitors were formerly required to know these calls, but as of 2020 these calls are not on the Official Bird List.
Former Calls
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Field Guides
Teams may bring one commercial field guide (no other books) to assist at competition. Each box below contains information on a specific field guide, aiding in the choice of which one is right for competition. A field guide is a personalized choice, and different competitors have different needs. There is no "one size fits all" book that is best for competition - a balance should be achieved between identification and information. A guide optimized for identification may have detailed photos of each bird, such as the Sibley Guide to Birds. A guide optimized for information may not have as many pictures, but might have a paragraph or two relating to habitat, reproduction, etc. like the National Geographic field guide. The layout and size of a field guide are also important factors - a well organized guide can make identification much easier. However tabs, labels, and practice can assist with accessing information regardless of the layout of the guide. Guides should also contain most if not all of the birds on the national list. If a bird is missing, then it could be a disadvantage if a question about it comes up on a test. Obtaining two contrasting field guides to compare could also be a useful strategy in order to determine which one is the most helpful in a specific situation.
Remember that a field guide is an important decision, but it can also be supplemented with other materials. Competitors may write in or tab their field guide, adding information as needed. The field guide is also not the only resource available - each team may have one 2" or smaller three-ring binder. A choice in field guide depends largely on personal preference, strengths and weaknesses.
Peterson Field Guide to Birds of North America
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The Sibley Guide to Birds
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Smithsonian Field Guide to the Birds of North America
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National Geographic Field Guide to the Birds of North America
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Kaufman Field Guide to Birds of North America
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Additional Field Guides
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Other books
While only commercial field guides may be brought to competition, other books can be used to study. Each book below has a link to its Amazon page.
- The Sibley Guide to Bird Life & Behavior As the companion guide to The Sibley Guide to Birds, this book is very helpful and easy to study from. The book is split into two sections: the first provides information about general ornithology, while the second includes more specific info about each family of bird. Both sections are very easy to read and understand. Strongly recommended.
This is a college level textbook that contains lots of information about many topics in ornithology. It gets to be very in-depth and contains much more information than what you actually need in the competition, but it is a great resource for accurate information.
Sample Questions and Answers
What is the difference between precocial and altricial young?
Answer
Precocial youung are born with open eyes and down. They are capable of leaving the nest within 2 days of hatching. Altricial young are born with closed eyes and no down. They rely on parents for survival. All passerines are altricial.
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What is the purpose of lobed feet?
Answer
They allow birds to walk across marshes by increasing surface area, but provides more toe maneuverability than webbing. Coots and Grebes have lobed feet.
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Describe three abilities that are unique to hummingbirds.
Answer
Hummingbirds drink nectar, can hover and fly backwards, and their tiny legs and feet make them incapable of walking.
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