Biologists call the dedicated animal behavior altruism. In nature, altruism quite often. As an example, scientists lead the meerkats. When a group of meerkats is looking for food, one selfless creature occupies a Supervisory position to warn relatives about the dangers, in the case of approaching predators. At the same time, he remains a meerkat without food. But why do animals do that? In the end, the theory of evolution of Charles Darwin’s story of natural selection, which is based on “survival of the fittest”. So why in nature there is self-sacrifice?
Among meerkats widespread altruistic behavior
Machines for the survival of genes
For years, scientists could not find an explanation for altruism. Charles Darwin did not hide that he was concerned by the behavior of ants and bees. The fact that among these insects there are working individuals who do not reproduce, and instead help raise the offspring of the Queen. This problem remained unresolved for many years after the death of Darwin. The first explanation for selfless behavior in 1976, suggested in his book “the Selfish gene” evolutionary biologist and science popularizer Richard Dawkins.
In the photo the author of the book “the Selfish gene” by British evolutionary biologist Richard Dawkins
The scientist conducted a thought experiment, suggesting that altruistic behavior can be explained by a specific type of gene. More specifically, the book Dawkins dedicated a special view of evolution — from the point of view of the biologist, all living beings on the planet are the “machinery” necessary for the survival of genes. In other words, evolution is not just about survival of the fittest organisms. Evolution by Dawkins’s survival of the fittest gene through natural selection that favours genes, able to duplicate itself in the next generation.
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Altruistic behavior in ants and bees may develop if the gene for altruism working individual helps another copy of that gene in another organism, for example in the body of the Queen and her offspring. Thus, the altruistic gene ensures its performance in the next generation, even if the body in which it is located, will not produce their own offspring.
The selfish gene theory of Dawkins decided the question of the behavior of ants and bees, over which the thought of Darwin, but raised another one. As one gene can detect the presence of the same gene in the body of another individual? The genome of siblings consists of about 50% genes and 25% of the genes from the father and 25% from the mother. So if the altruistic gene “causes” a man to help his kinsman, he “knows” that there is a 50% probability, so it helps to replicate itself. Thus evolved altruism in many species. However, there is another way.
The experiment of the “green beard”
To emphasize how a gene for altruism can develop in the body, helping the relatives, Dawkins proposed a thought experiment called the “green beard”. Let’s imagine a gene with three important characteristics. First, the presence of this gene in the body needs to testify a certain signal. For example, a green beard. Second, the gene needs to give the opportunity to recognize such a signal from others. Finally, the gene should be able to “guide” the altruistic behavior of one individual to one who has a green beard.
In the photo worker ant-altruist
Most people, including Dawkins, considered the idea of a green beard as fantasy, not as a description of any real genes found in nature. The main reasons for this is the low probability that one gene can possess all three properties.
Despite the seeming irreality, in recent years in biology have seen a real breakthrough in the study of the green beard. Such mammals as we are, behaviour is mostly controlled by the brain, so it’s hard to imagine a gene that makes us altruistic, which also control the perceived signal, e.g. a green beard. But the germs and single-celled organisms is different.
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In particular, in the last decade to study the social evolution of the steel under the microscope to shed light on the amazing social behavior of bacteria, fungi, algae and other unicellular organisms. One of the clearest examples is It is an amoeba, a unicellular organism that responds to the lack of food, forming a group of thousands of other amoebae. At this point, some organisms to altruistically sacrifice themselves, forming a solid stalk, which helps other amoebas to disperse and find new food source.
It looks like an amoeba It is
In such a situation, single-cell gene can actually behave as in the experiment a green beard. A gene that is located on the cell surface are able to bind to its copies on other cells and exclude cells that do not match with the group. This allows the gene to ensure that the amoeba that formed the wall will not die in vain, because all the cells she helps will have copies of the gene of altruism.
How a gene for altruism is widespread in nature?
The study of genes of altruism or green the beard is still in its infancy. Today, scientists cannot accurately say whether they are common and important in nature. Obvious is the fact that the relationship of organisms occupies a special place in the evolution of altruism. Helping close relatives to reproduce or to raise their offspring, you thereby ensure the survival of their own genes. So a gene can ensure that it helps to replicate itself.
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The behavior of birds and mammals also says that their social life revolves around relatives. However, marine invertebrates and single-celled organisms, things are a little different.