Species-typical behavior
The ethological concept of species-typical behavior is based on the premise that certain behavioral similarities are shared by almost all members of a species. Some of these behaviors are unique to certain species, but to be 'species-typical,' they do not have to be unique—they simply have to be characteristic of that species. To understand the importance of species-typical behavior, think about an animal that looks exactly like a dog, but meows, refuses to play fetch, and climbs trees. It's not surprising that humans would find this animal confusing; we expect an animal that looks a certain way to act a certain way, and we associate those behaviors with that animal.
Neuroscience
Species-typical behaviors are almost always a product of nervous systems, meaning that they're created and influenced by species' genetic code and social and natural environment; this implies that they are strongly influenced by evolution. The phenomenon of the breast crawl is a classic example of this: the vast majority of human newborns, when placed on a reclined mother's abdomen, will find and begin to suckle on one of the mother's breasts without any assistance.Brain structures
Such species-typical behaviors can be tied to certain structures of the brain. To prove this point, Murphy, MacLean, and Hamilton gave hamsters brain lesions at birth, which destroy certain brain structures. They discovered that, while hamsters still expressed species-typical behavior without a brain structure called a neocortex, they lost much of their species-typical play and maternal behaviors when deprived of brain structures called midline limbic convolutions. Likewise, if squirrel monkeys lose the medial segment of a brain structure called the globus pallidus, their ability to engage in certain sexual behavior is either eliminated or impaired.Lesions aren't the only way to discover the role of a structure in species-typical behavior; scientists also use stimulation. In a 1957 experiment, physiologist Walter Hess used an electrode to stimulate a certain part of a resting cat's brainstem; immediately after the stimulation, the cat stood up and arched its back with erect hair—a species-typical behavior in which cats engage when frightened. The behavior lasted as long as the stimulation lasted, and ended as soon as the stimulation ended. Later experiments revealed that even if the same part of the brain is stimulated with the same amount of energy for the same period of time, the intensity of the elicited behavior changes depending on the context. In 1973, behavioral physiologist Erich von Holst attached an electrode to one part of a chicken's brainstem, and recorded the data. When briefly stimulated without any unusual environmental factors, the chicken was restless. When briefly stimulated in the presence of a human fist, the chicken reacted with a slightly threatening posture, and in the presence of a weasel, the chicken took a very threatening pose, with feathers bristling. In short, the brainstem elicits species-typical behavior that is appropriate to the surrounding environment.
Hormones and chemicals
Oftentimes the presence or density of certain chemical receptors on cranial structures like the brainstem determine their importance in one species-typical behavior or another. Consider voles. prairie voles are monogamous; they also have a high density of oxytocin receptors in a brain structure called the nucleus accumbens. Non-monogamous meadow voles, on the other hand, do not. Likewise, monogamous pine voles have a high-density of OTRs; non-monogamous meadow voles do not.The way in which hormones alter these receptors is an important behavioral regulator. Consider the ways in which gonads affect OTRs in different rodents. In female rats, gonadal estrogen increases the level of OTR binding and, when the ovarian cycle maximizes the amount of estrogen in the bloodstream, causes OTRs to appear in ventrolateral regions of the structure called the ventromedial nucleus. This, in turn, increases the likelihood that a female rat will engage in certain species-typical sexual activity by increasing her sexual receptivity. But the effect of this regulatory mechanism differs between species; though a gonadectomy would decrease sexual receptivity in the female rat, these things would have the opposite impacts on female mice.
Instinct and experience
While some species-typical behavior is learned from parents, it's also sometimes the product of a fixed action pattern, also known as an innate releasing mechanism. In these instances, a neural network is 'programmed' to create a hard-wired, instinctive behavior in response to an external stimulus. When a blind child hears news that makes her happy, she's likely to smile in response; she never had to be taught to smile, and she never learned this behavior by seeing others do it. Similarly, when kittens are shown a picture of a cat in a threatening posture, most of them arch their backs, bear their teeth, and sometimes even hiss, even though they've never seen another cat do this. Many IRMs can be explained by the theory of evolution—if an adaptive behavior helps a species survive long enough to be fruitful and multiply, the genes that coded for those brain circuits are more likely to be passed on. A heavily studied example of a fixed action pattern is the feeding behavior of the Helisoma trivolvis, a type of snail. A study has shown that the intricate connections within the buccal ganglia form a central system whereby sensory information stimulates feeding in the helisoma. More specifically, a unique system of communication between three classes of neurons in the buccal ganglia are responsible for forming the neural network that influences feeding.A species-typical behavior can be altered by experience, as shown by experiments on Aplysia californica, a sea snail. When its gills are stimulated in a novel manner, it withdraws them into its shell for the sake of protection. This is a species-typical behavior. But after a stimuli that was once novel has been applied repeatedly to the gills, aplysia no longer withdraws them. It has gone through habituation, a process by which the response to a stimulus becomes weaker with more exposure. This occurs because of changes in the nervous system. Neurons communicate with one another at synapses, which consist of the tip of the communicating cell, the tip of the receiving cell, and the space in between the two. When the presynaptic membrane is stimulated by the influx of calcium ions, it releases a chemical called a neurotransmitter, which travels over the synaptic cleft in order to bind to the postsynaptic membrane and thereby stimulate the receiving cell. During habituation, fewer calcium ions are brought into the presynaptic membrane, meaning less neurotransmitter is released, meaning that the stimulation of the receiving cell is not as strong, meaning that the action that it is supposed to stimulate will be weaker. Likewise, the number of synapses related to a certain behavior decreases as a creature habituates, also resulting in weaker reactions. And the structure of the synapse itself can be altered in any number of ways that weaken communication. It is because of these processes that the species-typical behavior of aplysia was altered.
Types
Emotional
These behaviors facilitate interaction between members of the same species and are central to a species' connection to the surrounding world. Think about this from your perspective. Humans are able to feel the same sorts of complex emotions that most other humans feel, and these emotions often elicit certain behaviors.- Remorse, a feeling of regret after having said or done something believed to be wrong, often in violation of individual or social standards of morality or ethics. People incapable of feeling remorse are often labeled as having antisocial personality disorder. To qualify the inability to feel or express remorse as a disorder underlines the degree to which it is species-typical. The behavioral manifestations of individuals who feel remorse range from person to person, but many individuals in a state of remorse show signs of sadness and disinhibition. They may decide to withdrawal from once pleasurable activities and social interactions. An individual may become more or less likely to tell others about an action that causes remorse. Some people believe that dogs are capable of feeling remorse after being scolded by an owner for engaging in a certain activity.
- Pride, a feeling of satisfied accomplishment, and/or hubris and self-importance. Proud people tend to show a small smile, tilt their heads back, and even place their hands on their hips and improve posture. They also regularly choose to share their accomplishments with others.
- Embarrassment, a state of internal discomfort following a thought or action. Behavioral manifestations of embarrassment are similar to those of remorse. They often include the desire to retreat from socially intense situations where other people may remember an embarrassing incident. When alone, too, an embarrassed individual may try to avoid recollection of the incident due to feelings of shame it causes. Embarrassed individuals may also show signs of blushing due to embarrassment.
Feeding
- Rodents share common species-typical feeding behaviors (also known as order-typical, since all these creatures are members of the same order, rodentia. For example, certain types of beavers, squirrels, rats, guinea pigs, hamsters, and prairie dogs all locate food by sniffing for it, grasp for food with their mouths, sit on their hindquarters to eat, and grasp/manipulate the food with their hands. But they each also have more unique feeding behaviors. For example, beavers do grasp for food with their mouths, but sometimes they use a single paw instead. And many of the rodents manipulate the food with their digits in unique ways.
- A woodpecker consumes insects that can frequently be found inside trees. To access these insects, it uses a jack-hammer like motion to drill into tree wood with its beak. It then reaches in and grabs the insects with its beak.
- A heron eats aquatic creatures. In order to catch them, it lurks in the water, waits until it senses an animal in the water nearby, and then strikes with its beak.
Learning/conditioning
- White-crowned sparrows are particularly adept at learning songs between the ages of fifteen and fifty days.
- A marsh wren can learn to sing over 150 bird songs, while the white-crowned sparrow can only learn a single song. Thus, the number of songs that can be sung varies between species of birds, due to relative limitations in their cognitive processing abilities.
- As the above bullet point suggests, birds have species-specific preferences for certain songs that are rooted in their genes. If a young bird is not exposed to birdsong very early in its life, but is then suddenly exposed to a variety of different bird songs, including the one typical of its species, it tends to show a preference for that one.
Reproduction
- The female fruit bat performs fellatio on a male fruit bat during copulation to increase overall copulation time. Although fellatio is a common human foreplay activity, it is less common among non-human animal species. At this point, it is unclear exactly what neurological forces motivate fruit bats to engage in fellatio during sex, although scientific researchers present hypotheses.
- Infanticide is practiced by male hippopotami, most likely in order to improve their chances of reproductive success. They tend to commit infanticide within 50 days of post parturition, especially when water sources are scarce and dominance hierarchies are challenged.
Sensory/motor activity
- Because mantis shrimp can visually sense and process ultraviolet light, they react to it, while animals like dogs do not.
- Mayflies are able to perceive certain patterns of light polarization which suggest to them that they are above water. In response, they release their eggs, since mayfly naiads are biologically developed to live and grow in water.
- Dogs have a scratch reflex, meaning that they reflexively scratch an irritated skin region without direction from the brain. A limb is extended to the irritated part of the body; because this is a spinal reflex, a dog will do this even if spinal connection to the brain is severed.
- A rat tends to groom itself using the same procedure in the same order: it sits up, licks its paws, wipes its nose and then its face with its paws, and then licks the fur on its body.
Social activity
- A panda often expresses aggressiveness by lowering its head and directing its gaze at the target of its aggression. This behavior may have developed due to the nature of the creatures that pandas tend to try to threaten—because they feel threatened by this form of intimidation, pandas regularly engage.
- Cats, ponies, lions, baboons, and many other non-human species partake in social grooming to maintain the hygiene of another individual. Social grooming among animals can be seen as a form of conflict resolution that also builds trust among other animals who live nearby. Research has shown that grooming influences the endocrine system—it appears to be relaxing to those who participate due to the release of beta-endorphin. In addition, an increase in maternal grooming has been shown to increase the number of glucocorticoid receptors in the brains of newborn rats.