Imagine a game of survival that pits a troop of capuchin monkeys against you and your work colleagues. Both teams would be parachuted into a remote African forest, without any equipment: no matches, knives, shoes, fish hooks, clothes, antibiotics, pots, ropes or weapons. After one year, the team with the most surviving members would be declared the victor. Which team would you bet on?
You might assume that the humans, given our superior intelligence, are the team to beat. However, do you or your colleagues know how to make bows and arrows, nets, water containers and shelters? Do you know which plants are toxic? Can you start a fire without matches? Can you make fish hooks or natural glues? Do you know how to protect yourself from big cats and snakes at night? The answer to most, if not all, of these questions is probably “No,” meaning that your team would likely lose to a bunch of monkeys — probably pretty badly.
This raises an obvious question. If we cannot survive as hunter-gatherers in Africa, the continent where our species evolved, how did humans achieve such immense success relative to other animals and spread to nearly all of the earth’s major ecosystems?
Here is a key piece of the answer: We are a cultural species. Our unique psychological capacities allow us to learn from one another over generations, facilitating a cumulative cultural evolutionary process that produces increasingly complex and sophisticated technologies, languages, bodies of knowledge, conceptual toolkits and adaptive heuristics. The power of this process arises not from raw individual intelligence, but from the reinterpretation of the serendipitous insights and mistakes that our intelligence produces.
This means that the rate of innovation will depend, at least in part, on the size and interconnectedness of the pool of minds contributing to the cultural evolutionary process. All other things being equal, larger and more socially interconnected groups would produce a greater number of fancier tools, technologies and techniques, even if their individual members are less inventive than those comprising a smaller, more isolated group.
This finding is supported by both tightly controlled laboratory experiments and historical case studies. About 10,000 years ago, for example, rising oceans transformed Tasmania from an Australian peninsula into an island. On the mainland, technological progress continued unimpeded, but in Tasmania, groups of hunter-gatherers began to lose or failed to develop a wide range of useful technologies: bone tools, fitted cold-weather clothing, spear-throwers and durable boats. When the Dutch arrived in the 17th century, Tasmanians had the simplest technology ever encountered by European explorers.
To understand humans’ social nature, it is crucial to understand how culture has driven our genetic evolution in ways that shape not only our physiology and anatomy, but also our social psychology, motivations, inclinations and perceptions. From this long process, in which surviving and thriving meant acquiring and adhering to the local social rules, we emerged as potent social learners.
The foundation of our ability to form cooperative communities, organizations and societies arises not from innate cooperative tendencies, but from the specifics of the social norms that we learn, internalize and enforce on others. While our innate motivations do play a role, they are harnessed, extended and suppressed by social norms, which form the institutional skeleton that allows our innate inclinations to operate.
This novel view of human nature and society generates some important insights.
First, as a cultural species, humans acquire ideas, beliefs, values and social norms from others in their communities, using cues of prestige, success, sex, dialect and ethnicity. We pay particular attention — especially under conditions of uncertainty, time pressure and stress — to domains involving food, danger and norm violations. Changing people’s behavior begins with an understanding of our cultural nature, not our rationality.
Second, we gradually internalize the social norms that we acquire through a culture-driven process of self-domestication. These internalized norms become the motivations that guide our actions. This means that people’s preferences, desires and motivations are not fixed, and thus that well-designed programs or policies can change what is automatic, intuitive and obvious.
Third, the most potent social norms harness aspects of our evolved psychology. Social norms for fairness toward foreigners, for example, are much harder to sustain and diffuse than those that demand that mothers care for their children.
Fourth, our ability to innovate depends on the size of our collective brain, which depends on the ability of social norms to encourage people to generate, share and recombine novel ideas and practices.
Fifth, there is a fundamental link between institutions and psychology. Because different societies have different norms, institutions, languages and technologies, they also have different ways of reasoning, mental heuristics, motivations and emotional reactions. The imposition of imported institutions often creates psychological and social mismatches that tend to lead to poor outcomes.
Finally, humans lack a certain degree of rationality, making us terrible at designing effective institutions and organizations — at least for now. I am hopeful that as we obtain deeper insights into human nature and cultural evolution, this can be improved. Until then, we should take a page from cultural evolution’s playbook and design systems that use variation and selection to make institutions compete. That way, we can dump the losers and keep the winners.
By examining the rich interaction and coevolution of psychology, culture, biology, history and genetics, we have the possibility to gain important insights into human psychology. This scientific road has rarely been traveled. It promises an exciting journey into unexplored intellectual territory, as we seek to understand the peculiarity of our species.
Joseph Henrich is professor of human evolutionary biology at Harvard University.
Copyright: Project Syndicate
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