The level of
intelligence in birds, as a scientific
inquiry, has not been as thoroughly researched as similar
questions regarding
primates and other mammals. However, there is a general
belief that they are more intelligent, as a class, than the
reptiles, and that many species are just as intelligent
as mammals of comparable size. Because
birds lack forelimbs with which to modify their
surroundings, it is often difficult to test for intelligence
as we would define it for mammals. Traditionally, biological
science has maintained that most actions performed by birds
that may indicate intelligence are merely ingrained
instinctual behaviours and that birds are unable to learn.
One argument against the supposed intelligent capabilities
of bird species is that birds have a relatively small
cerebral cortex, which is the part of the brain considered to be the main area of intelligence in
other animals
[1]. However, it seems that birds use a different part
of their brain, the medio-rostral neostriatum/hyperstriatum
ventrale, as the
seat of their intelligence, and the brain-to body size ratio
of psitticines and corvines is actually comparable to that
of higher primates.
[2]Studies with captive birds have given us insight
into which birds are the most intelligent. While
parrots have the distinction of being able to mimic
human speech, studies with the
African Grey Parrot have shown that some are able to
associate words with their meanings and form simple
sentences. Along with parrots, the crows, ravens, and jays
(family
Corvidae) are perhaps the most intelligent of birds. Not
surprisingly, research has shown that these species tend to
have the largest hyperstriata. Dr. Harvey J. Karten, a
neuroscientist at
UCSD who has studied the physiology of birds, discovered
that the lower part of avian brains are similar to ours.
Indications of intelligence in
bird species
Vision
Birds rely heavily on their eyes for flying and
navigation. The brains of many birds must be able to handle
tasks differently from other animals. All flying birds must
possess a fine level of motor control for in-flight
maneuvering and landing.
Most small birds are prey animals. Detecting the movement
of predators in their environment is critical. Their eyes
are positioned on the sides of their heads to make this
easier. They have
monocular vision.
Other predatory species like
owls are built differently. Their eyes are positioned in
the front of their heads so that they can calculate and
maneuver a successful strike on a moving target. Owls eyes
are so large proportionally, they cannot move them
independently. They are stationary inside the skull. That's
why they can rotate their heads nearly 360 degrees.
A
bird of prey searching for a small
rodent from high above the ground must be able to
process a huge amount of complex visual information. It
helps that they can see in a different color spectrum than
humans. According to a video series distributed by PBS.org
called "The Life Of Birds" by David Attenborough, new
research shows that hawks, for example, can easily see the
urine in the grass found around mouse habitats because it
glows fluorescently for them. Seeing in a different color
spectrum also helps individual birds determine the sex of
other members of their species. Light reflects differently
off the feathers of males and females. Perceiving this from
a distance is obviously an advantage for a bird who is
defending his territory.
Social behaviour
Some scientists argue that the more social animals are,
the more intelligent they seem to be. The human race itself
is an example of evidence that would support this
conjecture. Both parrots and corvids have shown tendencies
towards organized social behaviour. Many corvid species
separate into small family groups or "clans" for activities
like nesting and territorial defense. The birds will then
congregate in massive flocks made up of several different
species for migratory purposes. When the migration period is
over, they will return to their original family groups.
Scientists report that such behaviours indicate
intelligence, as they would require the birds to not only
recognize and remember their former companions, but also to
interpret subtle changes in temperament and appearance.
Some birds use teamwork while hunting. Predatory birds
hunting in pairs have been observed using a "bait and
switch" technique, whereby one bird will distract the prey
while the other swoops in for the kill.
Use of tools
This
New Caledonian postage stamp depicts a crow
using a simple stick tool.
Like
primates, many bird species have taught themselves to
use tools.
-
New Caledonian Crows have been observed in the wild
to use stick tools with their beaks to extract insects
from logs. While young birds in the wild normally learn
this technique from elders, a laboratory crow named
"Betty" improvised a hooked tool from a wire with no
prior experience
[3]. The
woodpecker finch also uses simple stick tools to
assist it in obtaining food.
- In captivity, a young
cactus finch learned to imitate this behaviour by
watching a woodpecker finch in an adjacent cage.
-
British documentarian David Attenborough, in his
mini-series The Life of Birds, captured an innovation
the crows in urban Japan had developed. They dropped hard-shelled nuts
onto crosswalks. Once they were cracked by cars that ran
over them, they were retrieved while the cars were
stopped at a red light.
-
Striated Herons (Butorides striatus) use bait
to catch fish.
Language
While birds have no form of spoken language, they do
communicate with their flockmates through song, calls, and
body language. Studies have shown that the intricate
territorial songs of some birds must be learned at an early
age, and that the memory of the song will serve the bird for
the rest of its life. Some bird species are able to
communicate in a variety of dialects. For example, the New
Zealand saddleback will learn the different song "dialects"
of clans of its own species, much as human beings might
learn diverse regional dialects. When a territory-owning
male of the species dies, a young male will immediately take
his place, singing to prospective mates in the dialect
appropriate to the territory he is in.
Recent studies indicate that they may also have an
ability to understand grammatical structures.
A controversial study conducted by Ryan B. Reynolds has
suggested budgerigars are able to form simple, meaningful
sentences. The evidence consists so far of only audio files,
but they have yet to be either proven or disproven.
[1].
[edit]
Migration
A flock of swans migrating
Scientists who have studied the mechanisms of
bird migration over long distances have shown that while
a bird may be
instinctively able, and biologically equipped, to make a
first flight on its own, adults are less prone to wander
off-course than first-year fledglings. The birds were able
to learn from experience or remember landmarks for the
benefit of future flights.
When a group of birds fly together, they often form a
V shape. This creates a
slipstream between the birds, making an area of reduced
pressure in the middle of the formation. This reduces
air-resistance, enabling the flock to travel up to 75%
faster than they would individually. The first bird
encounters the majority of the air-resistance; as a
consequence, the lead bird changes repeatedly as the flock
travels. If a bird falls out of formation, two other birds
generally leave with that bird to help it return to the
flock with a similar formation.
Moreover, birds observe and integrate subtle visual clues
to aid in their navigation, including the movement of the
sun, visual landmarks, cloud movements, wind direction, and
the earth's own magnetic field. Individual birds use
different sources of information to navigate and may switch
from one source to another while in flight.
Conceptual skills
Some birds, notably
pigeons, have demonstrated the ability to conceptualize.
In one study, conducted at Harvard in 1964, it was shown
that pigeons have a general concept of "human," which
includes male humans and female humans, individual body
parts, and the human body from the back, from below, and
from above. When shown photographs of all of the above, the
pigeons recognized the photos as "human." They also
recognized photographs of human beings in "disguise" (i.e, a
human in the nude, wearing strange clothes, or shown out of
proportion).
Another study conducted with pigeons showed that the
birds were able to distinguish between the artworks of
different artists. For example, they could tell the
difference between a
Picasso and a Monet.
Other interesting behaviors
showing higher intelligence
In an article published in 1995 by the National
Geographic magazine, the macaw project at Tambopata Research
Center in the rain forest of Peru studied what the wild
birds eat. Since most food items are available only
seasonally, researchers discovered that during the dry
season, birds are forced to eat seeds that are poisonous. To
medicate themselves, hundreds of birds of many species of
parrots and macaws congregate at a nearby riverbank at the
world's largest known avian
clay lick. The clay that they consume helps bind the
toxins and prevent sickness in the birds.
[4]
Cormorants used by Chinese fisherman are often rewarded
with fish on every seventh fish that they catch. The
cormorants learn this pattern and are able to keep count and
predict their reward and will wait for it if the fisherman
fails to keep count.
Hummingbirds feeding on bushes with flowers are able to
remember the spatial distribution of flowers that have
nectar and ones that do not and will not revisit bad ones.
Many frugivorous birds have seasonal foraging patterns
based on the flowering and fruiting seasons and the
locations of fruiting trees in a forest.
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