Hybrid species like the ‘coywolf’ could hold clues about human evolutionary history
The offspring of two horses will be a horse, and the offspring of two donkeys will be a donkey. But the offspring of a horse and a donkey will be a mule. And most mules are infertile, so mules are not a species.
For decades, this was the basic logic used to define a biological species. It is a population of animals that can successfully reproduce. But that definition is shifting. There are hybrid animals that produce fertile offspring, and grow into larger populations, but are not necessarily their own species.
Coyote/wolf hybrids are among them. These canine hybrids live across a large swathe of northeastern North America, and they have DNA from coyotes, wolves and even domestic dogs. Media coverage has sometimes sensationalized the risk associated with ‘coywolves’ in urban and suburban neighbourhoods, but these animals are not new. Coyote/wolf hybrids were first identified in the early 20th century, and they can successfully reproduce over generations. So why would they be considered a canine hybrid and not a separate species?
“There is not one ‘coywolf,’ there are various pockets of hybrids of coyotes and wolves in different parts of the continent,” explains Lauren Schroeder, an assistant professor of paleoanthropology at U of T Mississauga.
In an article published in the Journal of Morphology, students and collaborators of the Schroeder Lab identified several traits in coyote/wolf hybrids that are also found in other mammal hybrids. The research team on the project included recent UTM master’s of anthropology graduate Natasa Zdjelar, current PhD students Lavania Nagendran and Christopher Kendall, and Rebecca Rogers Ackermann of the University of Cape Town in South Africa.
They examined more than 400 eastern coyote skulls held in the collection of the State Museum of New York in Albany. Many of these animals had extra teeth and dental crowding. They also had significant anomalies in the sutures of their skull – the shallow grooves in the cranial bones that are flexible at a mammal’s time of birth to facilitate delivery, but fuse as it matures.
“These traits are caused mostly by the mismatch in size between the two species – a wolf is a lot larger than a coyote,” says Schroeder.
But factors such as genetic mutations could also cause some traits observed in hybrid animals, and Schroeder’s research program is part of a wider effort to identify the signatures of hybrid animals across different species.
“We wanted to know whether the eastern coyote exhibits similar anomalies that are found in other mammalian hybrids, such as baboons, wildebeests, and mice,” says Schroeder.
A deeper understanding of the traits that are associated with species hybridization would enrich our understanding of the fossil record and could have significant implications for how paleoanthropologists interpret human evolutionary history.
“Hybridization happened in humans as well, but we do not really know the extent to which it happened in the very distant past, or if it was something that only occurred more recently,” says Schroeder.
“With coyotes and wolves, you have multiple species that are reproducing and producing viable offspring. They are succeeding in North America. In the human model, you also have multiple species on the landscape. Different groups of hominins, like Neanderthals, humans and Denisovans did reproduce, hybridize, and were successful,” she says. “It is a more complex concept of what makes a biological species. Different populations reproducing together, and producing hybrid offspring. Some are viable and succeed, while others do not.”