“Human–animal communication”的意思、由来-开放百科全书

Human–animal communication is the communication observed between humans and other animals, from non-verbal cues and vocalizations through to the use of language.

Introduction

Human–animal communication may be observed in everyday life. The interactions between pets and their owners, for example, reflect a form of spoken, while not necessarily verbal dialogue. A dog being scolded is able to grasp the message by interpreting cues such as the owner's stance, tone of voice, and body language. This communication is two-way, as owners can learn to discern the subtle differences between barks and meows, and there is a clear difference between the bark of an angry dog defending its home and the happy bark of the same animal while playing. Communication (often nonverbal) is also significant in equestrian activities such as dressage.

One scientific study has found that 30 bird species and 29 mammal species share the same pattern of pitch and speed in basic messages, so humans and those 59 species can understand each other when they express "aggression, hostility, appeasement, approachability, submission and fear.^[1]^[2]

Birds

He also, without training, said where he wanted to be taken, such as his cage or the back of a chair, and protested when taken elsewhere, or when hidden objects were not where he thought they were.^[6]

He asked a question, what color he himself was,^[6] which has been called the only question so far asked by a non-human animal.^[7]

Scientific American editor Madhusree Mukerjee described these abilities as creativity and reasoning comparable to nonhuman primates or cetaceans,^[8] while expressing concern that extensive language use resulted in feather-plucking behavior, a possible sign of stress.

Most bird species have at least six calls which humans can learn to understand, for situations including danger, distress, hunger, and the presence of food.^[9]

The greater honeyguide has a specific call to alert humans that it can lead them to honey, and also responds to a specific human call requesting such a lead, by leading humans to honeybee hives so it can eat the discarded honeycomb wax after humans collect the honey. The human call varies regionally, so the honeyguide's response is learned in each area, not instincive.^[13]

Fictional portrayals of sentient talking parrots and similar birds are common in children's fiction,^[15] such as the talking, loud-mouth parrot Iago of Disney's Aladdin.

Primates

Chimpanzees, bonobos, gorillas, and orangutans have used sign language, physical tokens, keyboards and touch screens to communicate with humans in numerous research studies. The research showed that they understood multiple signals and produced them to communicate with humans. There is some disagreement whether they can re-order them to create distinct meanings.

Baboons can learn to recognize an average of 139 4-letter English words (maximum of 308), though they were not taught any meanings to associate with the words.^[16]

Primates also have been trained to use touch screens to tell a researcher their musical preferences. In Toronto, for hundreds of songs in random order, orangutans were given one 30-second segment of a song, and then chose between repeating that segment or 30 seconds of silence.^[17] Different orangutans chose to replay from 8% to 48% of the segments, and all exhibited stress throughout the trials. There was no pattern of selections by genre, and the researchers did not look for other attributes which were shared by the orangutans' chosen segments. No comparison was available of how many 30-second segments humans would repeat in the same situation. In another experiment the orangutans did not distinguish between music played in its original order and music sliced into half-second intervals which were played in random order. Chimpanzees can hear higher frequencies than humans; if orangutans can too, and if these overtones are present in the recordings, the overtones would affect their choices.^[17]

Cetaceans

Lilly

In the 1960s, John C. Lilly sponsored English lessons for one bottlenose dolphin (Tursiops truncatus). The teacher, Margaret Howe Lovatt, lived with the dolphin for {{frac|2|1|2}} months in a house on the shore of the Virgin Islands. The house was partially flooded and allowed them to be together for meals, play, language lessons, and sleep.^[18]^[19]^[20]^[21] Lilly thought of this as a mother-child dyad, though the dolphin was 5–6 years old.^[22] Lilly said that he had heard other dolphins repeating his own English words,^[23] and believed that an intelligent animal would want to mimic the language of its captors, to communicate.^[24]^[25] The experiment ended in the third month and did not restart, because Howe found the two-room lab and constant bumping from the dolphin too constricting.^[26]

After several weeks, a concerted effort by the dolphin to imitate the instructor's speech was evident, and human-like sounds were apparent, and recorded. It was able to perform tasks such as retrieval of aurally indicated objects without fail. Later in the project the dolphin's ability to process linguistic syntax was made apparent, in that it could distinguish between commands such as "Bring the ball to the doll," and "Bring the doll to the ball."{{citation needed|date=September 2017}} This ability not only demonstrates the bottlenose dolphin's grasp of basic grammar, but also implies the dolphins' own language might include syntactical rules. The correlation between length and 'syllables' (bursts of the dolphin's sound) with the instructor's speech also went from essentially zero at the beginning of the session to almost a perfect correlation by its completion, so that when the human spoke 5 or 10 syllables, the dolphin also spoke 5 or 10 'syllables' or bursts of sound.^[27]

Two experiments of this sort are explained in detail in Lilly's book, Mind of the Dolphin. The first experiment was more of a test run to check psychological and other strains on the human and cetacean participants, determining the extent of the need for other human contact, dry clothing, time alone, and so on. Despite tensions after several weeks, Howe Lovatt agreed to the {{frac|2|1|2}} months isolated with the dolphin.

Experiments by the research team of Louis Herman, a former collaborator and student of Lilly's, demonstrated that dolphins could understand human communication in whistles and respond with the same whistles.

Whistles created a system of 2-way communication. By having separate whistles for object and action, Herman could reorder commands without fresh teaching (take hoop to ball). Successful communication was shown when Herman used new combinations, and the dolphin understood and did what he asked without further training 80-90% of the time.^[28]

In 1980, Herman had taught 6 whistles to a female bottle-nose dolphin, Kea, to refer to three objects and three actions, and the dolphin followed his instructions. He wrote, "In addition to mouthing the three familiar training objects in the presence of the mouth name, Kea correctly mouthed on their first appearance a plastic water pipe, a wooden disc, and the experimenter's open hand. The same type of immediate response generalization occurred for touch and fetch."^[29]

Richards, Wolz and Herman^[30] (1984) trained a dolphin to make distinct whistles for objects, "so that, in effect, the dolphin gave unique vocal labels to those objects."

Herman's later publications do not discuss the whistle communication. Herman started getting US Navy funding in 1985,^[31] so further expansion of the 2-way whistle language would have been in the classified United States Navy Marine Mammal Program, a black project.

Herman also studied the crossmodal perceptual ability of dolphins. Dolphins typically perceive their environment through sound waves generated in the melon of their skulls, through a process known as echolocation (similar to that seen in bats, though the mechanism of production is different). The dolphin's eyesight however is also fairly good, even by human standards, and Herman's research found that any object, even of complex and arbitrary shape, identified either by sight or sound by the dolphin, could later be correctly identified by the dolphin with the alternate sense modality with almost 100 per cent accuracy, in what is classically known in psychology and behaviorism as a match-to-sample test. The only errors noted were presumed to have been a misunderstanding of the task during the first few trials, and not an inability of the dolphin's perceptual apparatus. This capacity is strong evidence for abstract and conceptual thought in the dolphin's brain, wherein an idea of the object is stored and understood not merely by its sensory properties; such abstraction may be argued to be of the same kind as complex language, mathematics, and art, and implies a potentially very great intelligence and conceptual understanding within the brains of tursiops and possibly many other cetaceans. Accordingly, Lilly's interest later shifted to whale song and the possibility of high intelligence in the brains of large whales, and Louis Herman's research at the now misnomered [https://web.archive.org/web/20051228135245/http://www.dolphin-institute.org/ Dolphin Institute] in Honolulu, Hawaii, focuses exclusively on the Humpback whale.

Other researchers

Historical

From Roman times to modern Brazil, dolphins have been known to drive fish toward fishermen waiting on shore, and signal to the fishermen when to throw their nets, even when water is too murky for the fishermen to see the arrival of the fish. The dolphins catch unnetted fish disoriented by the net.^[40]^[41]

From about 1840-1920 orcas smacked the water off Twofold Bay in New South Wales to signal to human whalers that the orcas were herding large baleen whales nearby, so the humans would send boats to harpoon the whales, killing them faster and more assuredly than the orcas could. The orcas ate the tongues and lips, leaving the blubber and bones for the humans.^[42]^[43]

Dogs

Dogs communicating to humans

Police and private dogs can be trained to "alert" when they find certain scents, including drugs, explosives, mines, scent of a suspect, fire accelerants, bed bugs. The alert can be a specific bark or position, and can be accepted as evidence in court.^[44]

Stanley Coren identifies 56 signals which untrained dogs make and people can understand, including 10 barks, 5 growls, 8 other vocalizations, 11 tail signals, 5 ear and eye positions, 5 mouth signals and 12 body positions.^[52] Faragó et al. describe research that humans can accurately categorize barks from unseen dogs as aggressive, playful, or stressed, even if they do not own a dog.^[45] This recognizability has led to machine learning algorithms to categorize barks,^[46] and commercial products and apps such as BowLingual, [https://play.google.com/store/apps/details?id=com.zdz.TalkWithYourDog TalkWithYourDog], and TalkDog.

Humans communicating to dogs

Dogs can be trained to understand hundreds of spoken words, including Chaser (1,022 words),^[47]

They can react appropriately when a human uses verbs and nouns in new combinations, such as "fetch ball" or "paw frisbee."^[47]

Shepherds and others have developed detailed commands to tell herding dogs when to move, stop, collect or separate herd animals.^[52]^[53]

Other animal training

Humans teach animals specific responses for specific conditions or stimuli. Training may be for purposes such as companionship, detection, protection, research and entertainment. During training humans communicate their wishes with positive or negative reinforcement. After training is finished the human communicates by giving signals with words, whistles, gestures, body language, etc.^[54]

Even fish, which lack a neocortex, have been taught to distinguish and respond differently to different human faces (archerfish^[58]) or styles of music (goldfish^[59] and koi^[60]).

Molluscs, with totally different brain designs, have been taught to distinguish and respond to symbols (cuttlefish^[61] and octopus^[62]), and have been taught that food behind a clear barrier cannot be eaten (squid^[63]).

A harbor seal, Hoover learned to speak several phrases in understandable English as a pup from his human foster parent and used these in appropriate circumstances during his later life at the New England Aquarium until he died in 1985.^[64] Other talking animals have been studied, though they did not always use their phrases in meaningful contexts.

Animal communication as entertainment

Though animal communication has always been a topic of public comment and attention, for a period in history it surpassed this and became sensational popular entertainment. From the late 18th century through the mid 19th century, a succession of "learned pigs" and various other animals were displayed to the public in for-profit performances, boasting the ability to communicate with their owners (often in more than one language), write, solve math problems, and the like. One poster dated 1817 shows a group of "Java sparrows" who are advertised as knowing seven languages, including Chinese and Russian.

See also

Bibliography

References

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