Animal Attraction: The Many Forms of Monogamy in the Animal Kingdom
A Valentine's Day special on the science of monogamy
February 13, 2013
Ever have a relationship that qualified as "faithless love"? If so, you're in good company: Almost all adults in the animal kingdom have also experienced, if not a faithless love, then at least a faithless pairing.
Faithless pairings are so common in the animal kingdom because only a handful of animal species practice true monogamy--defined as pair bonding between a male and female, which exclusively mate with one another, raise offspring together and spend time together.
The pair bonds of some monogamous species may last for the long term, even perhaps for a lifetime. Those of other species may last for only the short term, perhaps for only a single mating season.
Who's your daddy?
All expressions of true monogamy--whether characterized by short-term or long-term pairings--have long been considered to be a rarity in the animal kingdom. Nevertheless, since the advent, in the 1990s, of DNA fingerprinting--which is similar to paternity tests used in the courts--scientists have discovered that true monogamy is even rarer than previously believed.
As it turns out, many species that were once considered to be truly monogamous really practice what is known as social monogamy. This form of monogamy is defined as pair bonding between a male and female, which mate with one another, raise offspring together and spend time together, but may nevertheless occasionally mate outside of their pair bond.
Scientists call such outside matings "extra pair copulations."
DNA fingerprinting has revealed that even swans--those icons of love and fidelity--may participate in extra pair copulations, probably during quick, furtive trysts. What's more, about five to six percent of pair bonded swans ultimately "divorce" for unknown reasons.
Looking the other way
The frequency of extra pair copulations among socially monogamous species begs the question: Why would any socially monogamous species tolerate promiscuity?
No one knows for sure. But one theory is that females may tend to pair bond with males that are particularly good providers and offer potential stability, but are lured into extra-pair copulations by males that offer "something else" not provided by their pair bonded partner.
That "something else" may be superior genes, as reflected in the male's physical features, such as his weight or resistance to disease, or his control of particular resources, such as a large territory.
On the other side of the pair bond, males may seek extra-pair copulations in order to increase their chances for reproductive success--even if it turns out that their pair bonded partner is sterile or genetically unfit in some way; through promiscuity, a male may fertilize multiple females, and thereby avoid putting all of his genes in one basket.
How rare is rare?
Some statistics on the frequency of monogamy in the animal kingdom:
- Not a single mammal species has, thus far, been definitively shown to be truly monogamous. (Nevertheless, individual pairs of mammals may be truly monogamous.) Scientists now estimate that only about three to five percent of the approximately 4,000+ mammal species on Earth practice any form of monogamy.
- Before the advent of DNA fingerprinting, scientists believed that about 90 percent of bird species were truly monogamous. But paternity testing suggests that the reverse is true: Scientists now believe that about 90 percent of bird species are socially monogamous, and that true monogamy among birds is the exception rather than the rule.
- Some insects, including cockroaches, are monogamous.
- Any form of monogamy among fish and amphibians is exceedingly rare.
Because of the paradigm-shifting revelations produced by DNA fingerprinting, many scientists are now reluctant to classify any species as truly monogamous until it has undergone rigorous DNA fingerprinting.
Possible reasons for monogamy
The ultimate purpose of life for each individual animal on Earth is to reproduce, and each individual that reproduces successfully helps perpetuate its species. Building on these facts, some scientists believe that monogamy evolved in species whose members are more likely to achieve reproductive success through pair bonding than through promiscuity.
Such species may include those whose populations are relatively small and dispersed: in such cases, the male's investments in monogamous pair bonding may yield more offspring than would his investments in repeatedly searching for hard-to-find females.
Another theory: Monogamy may have evolved in some species in order to support their special caretaking needs. Consider, for example, emperor penguins.
Until an emperor chick becomes independent of its parents, it must be protected in its colony from the harsh Antarctic elements and from predators by one parent, while the other parent travels back and forth to distant seas to feed itself and gather food for the chick--dual responsibilities that a single mother could not possibly fulfill on her own.
Therefore, monogamy may have evolved in emperors in order to support the intense parental cooperation needed by emperor chicks. This theory is supported by the fact that once emperor chicks become independent of their parents and thereby outgrow their need for cooperative parental caregiving, the overwhelming majority of emperor parents (about 85 percent) permanently part ways. (Adult emperors practice serial monogamy, and usually form a new pair bond every breeding season.)
Also, some scientists believe that monogamy may have evolved in some species because their young can be cared for by both of their parents. Such species include bird species whose young survive on food brought to them by both of their parents, which are equally equipped for the task. Because the monogamy of such species supports fatherly caregiving, and thereby promotes reproductive success, the evolution of such species apparently favored some form of monogamy, as the theory goes.
By contrast, baby mammals must be fed via breast-feeding--a need that obviously can only be fulfilled by females. So, almost by definition, the males of most mammal species are generally unequipped to help feed their young. Therefore, such species would not necessarily benefit from a social structure that supports fatherly caregiving, and so their evolution would not necessarily have favored monogamy, as the theory goes.
However, theories about the evolution of monogamy that are based on its support for fatherly caregiving are countered by the fact that the males of some monogamous species do not typically help care for their young--even though the reverse is apparently true: All species in which males typically help care for their young are monogamous, as far as we know.
The joy of monogamy
While environmental factors may influence the evolution of monogamy, so too may genetic factors. Some possible genetic influences on monogamy have been discovered through recent research on prairie voles, which form lifelong social attachments. Specifically, this research identified special hormone receptors located in the reward centers of the brains of male prairie voles. Such special receptors may give the voles a sense of pleasure from monogamy and taking care of young, and thereby help promote these behaviors.
This research also involved transferring the special hormone receptors of prairie voles to other vole species that are promiscuous and do not form social attachments. The result: The promiscuous voles became monogamous, like prairie voles.
What's more, the prairie voles' special receptors are very similar to receptors found in the brains of humans and bonobos. Bonobos, or pygmy chimpanzees, display empathy and maintain strong social bonds. By contrast, these receptors are not present in the brains of common chimpanzees, which are less empathetic and more aggressive.
These results suggest that the special hormone receptors may influence species-to-species differences in social structure. In addition, individual variation in these special receptors among human males may help explain some of the individual variation among men in their attitudes towards commitment, monogamy and marriage.
Probably because varied and complex combinations of genetic and environmental factors influence the reproductive behavior of each species, virtually every species that practices true monogamy or social monogamy expresses their monogamy in a unique way. (See slide show.)
Learn more about the biology of love and other animal emotions in an online chat featuring NSF program director Diane Witt.
NSF press release on research on monogamy in voles: http://www.nsf.gov/news/news_summ.jsp?org=NSF&cntn_id=104238&
Online chat about the science of love and other emotions in the animal kingdom featuring NSF program manager Diane Witt: http://news.sciencemag.org/sciencenow/2012/02/live-chat-the-science-of-love.html