What do you typically think of when you hear ‘monogamy’? If
you’re thinking wedding bells, rings, soul mates for life, etc., you might be
thinking of the human ideals of a marital monogamous relationship. Monogamy in human relationships is often
considered socially acceptable, and the potential financial and emotional
security might be desired…but let’s put aside the fluffy wedding thoughts for a
moment and get to what a monogamous relationship means at its core: having one
partner at any one set period of time.
[1]
Now let’s add a second layer to human monogamy: social
monogamy. This is where two individuals live
together and share resources or children.
So, if you’re living with a partner in an apartment and sharing a salary
to support and raise a family, chances are that you’re in a socially monogamous
relationship until you break up…even if you're actually spending some nights with someone else. Yes, that someone else.
.jpg)
[2]
OK, OK, now consider social monogamy in the non-human, animal
context. In a journal article by Lukas
and Clutton-Brock, social monogamy is defined as:
“a single breeding female and a single breeding male shar[ing] a common range or territory and associat[ing] with each other for more than one breeding season.”
Wow. That’s a mouthful. But basically, imagine a long-term living
situation between a female and male for the multiple times that offspring could
be born. So instead of living under an
apartment room, buying groceries for food, and staying with your partner for
multiple pregnancies…imagine mammals living out in the wild,
hunting/searching/foraging for food, and mating for multiple breeding
seasons. Animals that are more likely
to be socially monogamous are primates and birds. However, social monogamy is uncommon in some orders,
such as Artiodactyla (hoofed animals like pigs and camels), and completely
absent in orders like Cetacea (think whales).
When social monogamy is absent, animals will have a new mate every
breeding season.
 |
| Animals in the Artiodactyla order [3] |
 |
| The Cetacea order typically consists of whales [4] |
 |
| Dik-diks do not exhibit characteristics of paternal care [5] |
 |
| Lukas and Clutton-Brock's model of how social monogamy transitions from a population's ancestors [6] |
Now the big question: under what conditions is social
monogamy present? Lukas and Clutton-Brock believe that social monogamy
developed from ancestrally solitary females who lived at low population
densities in a territory. Competition
for these females would be high, and while these females are solitary, roaming
males who happen upon these females may find that it is more effective to stay
with one mate and protect their offspring rather than guard multiple female
mates. Although social monogamy is
correlated with low population density of females, territory size between socially
monogamous and solitary females does not differ that much, possibly due to
overlapping home ranges between the two kinds.
When Lukas and Clutton-Brock compared Primates and Carnivora orders with
Rodentia and Artiodactyla (an herbivorous order) they concluded that social
monogamy may also have developed from relying on a low-abundance food with
high nutrient quality. For instance, in
91% of socially monogamous primates, fruit is the most important part of the
diet, as opposed to 28% of solitary primates.
Foods that are not as nutritionally valuable as fruit (such as gum,
bark, and fungi) are also present in more solitary species of animals. Overall, we can see that females and food
source play a large role as to whether mammals are socially monogamous.
That’s the story of social monogamy in mammals, but there’s
another evolutionary wrench thrown in.
Humans are closely related to apes, but it is known today that all
African apes are polygynous. This
suggests that our common ancestor was most likely polygynous, but we somehow
became a monogamous species. Human monogamy
could have developed because of the additional need for paternal care (which
would contradict the idea that paternal care is always a secondary adaptation). Dietary changes that decrease the number of
females in a population may also have prevented males from protecting more than
one female partner. That, however, is a
story for another day. In the meantime,
enjoy being part of a socially monogamous species…or watch the video below and
ask yourself whether mammals could really be monogamous at all times.
[7]
Journal Article:
Lukas, D., and T. H. Clutton-Brock. “The Evolution of Social
Monogamy in Mammals.” Science 341, no. 6145 (August 2, 2013): 526–30.
doi:10.1126/science.1238677.
Media credits:
[1]: Photo by Ryan G. Smith. https://flic.kr/p/aCZUne
[2]: Public domain image. http://commons.wikimedia.org/wiki/File%3AFamily_drinking_juice_(1).jpg
.jpg){kind=link}
[3]: "Artiodactyla" by Lorenz Oken - Natural History Prints. Licensed under Public domain via Wikimedia Commons http://commons.wikimedia.org/wiki/File:Artiodactyla.jpg#mediaviewer/File:Artiodactyla.jpg
[4]: Public domain image. http://commons.wikimedia.org/wiki/File:Humpback_whale_noaa.jpg
[5]: Public domain image. http://commons.wikimedia.org/wiki/File%3AKirk's_Dik-dik_in_Samburu.jpg
[6]: Photo from Lukas & Clutton-Brock's paper: http://www.sciencemag.org/content/341/6145/526.full.pdf
[7]: Video by MinuteEarth. http://www.youtube.com/watch?v=bxQdLhOQf5c
Thanks for this awesome blog post Beverly! The topic of social monogamy is really interesting. I would have thought that social monogamy evolved as a consequence of paternal care increasing offspring fitness. But this article challenged that assumption and proposed that social monogamy came before paternal care in most evolutionary histories.
ReplyDeleteI wonder what other behaviors are secondary adaptations after social monogamy? How do monogamous animals keep the same levels of genetic diversity in their populations? The fun video suggested that monogamous animals sometimes separate and cheat on each other which allows for more diverse offspring, and there could be other strategies that animals have developed to stay genetically diverse.
Thank you for reading and commenting, Maddy~ I tried looking for behaviors that are secondary adaptations after social monogamy, but I didn't find any specific ones. However, it has been suggested that monogamous animals exhibit less sexual dimorphism--meaning that there is less of a body size difference between males and females. Body sizes might be less necessary in monogamous animals, since there is less competition every breeding season for another mate. If you'd like to read more about how size relates with sexual dimorphism, you could read Weckerly's research article "Sexual-Size Dimorphism: Influence of Mass and Mating Systems in the Most Dimorphic Mammals" (http://www.jstor.org/stable/1382840)
DeleteMonogamous animals might be socially monogamous, but not sexually monogamous. So yes, some little uhh...side-activities *coughextrapairpaternityinbirdscough* might be occurring.
This was a great post! You're an amazing writer. I find the whole discussion really fascinating. You mention that frugivorous primates are highly social monogamous--which is interesting because I think the opposite is true in birds. Many frugivorous birds (manakins, for example) are polygynous, even mating in leks in which a single male may mate with dozens of females. It's just interesting that there is that difference between taxa.
ReplyDeleteBy the way, slightly off topic, regarding human monogamy: I read a theory by a primatologist, Frans De Waal, who argued that human monogamy was a prime reason that humans were more successful than chimpanzees. The argument was that in socially monogamous systems, male could work together, leaving the rest of the group to hunt or forage or build something, while still being reasonably confident that their mates wouldn't be stolen by someone else. Thus, we were able to work together in larger and larger groups, eventually teaming up to conquer incredible tasks that other apes couldn't. I just thought that was an interesting little theory. I'm curious how sociality and social monogamy fit together in other species?
Hi Stephen~ Thank you for reading and commenting~
DeleteI don't think you went very off-topic--it's quite related, actually. Lukas and Clutton-Brock wrote and suggested in another paper "Cooperative breeding and monogamy in mammalian societies" that monogamous mating systems is highly correlated with cooperative breeding. Basically, animals will help to protect and feed offspring not of their own. Lukas and Clutton-Brock also say that extra-pair paternity is lower in animals that partake in cooperative rearing.
If you would like to read more, here's the link: http://rspb.royalsocietypublishing.org/content/279/1736/2151.full
This post is very interesting and does pose the interesting question with respect to whether or not human are 'designed' to be monogamous. There are reasons for why humans should not be (sperm production and optimal fitness strategies) and many reasons for why they should not be (nurturing and caretaking). I'm curious to know how much our evolutionary history, especially given this comparison to polygamous apes, can tell us about why humans have taken on monogamy (or why apes have taken on polygamy). Also I thought polygyny is narrow form of polygamy only applicable to humans because it refers explicitly to marriage. Some elucidation on the difference between the two terms would be useful.
ReplyDeleteThank you for your insight, Kennedy! The term "polygyny" can be used to describe mating systems of non-human animals. "Polygamy" is a catch-all term for describing more than two people in a marriage--however, it isn't gender or sex specific. "Polygyny" and "polyandry" are more sex specific. "Polygyny" is where a male can have more than one female mate ("gyn" refers to female) at a time; "polyandry" is where a female can have more than one male mate ("and" refers to male) at a time.
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