Humans have always had a complicated relationship with other predators. Grizzly bears, crocodiles, great white sharks -- these are among our planet's most awe-inspiring creatures. Still, we'd never want these deadly animals in our backyards. But new scientific evidence suggests that we need them far more than we realised.
Picture: Travelbag Ltd
Whatever your personal feelings about Earth's most powerful beasts may be, there's no denying their critical importance to our planet. Mountain lions are doing more than just keeping deer in check. Their footprints ripple through ecosystems, shaping everything from the number and types of plants and animals that live there, to which diseases will break out.
Snow leopard bearing its teeth. Picture: Wikimedia
To understand why Earth's top predators matter (and why they're vulnerable), we need to start at the bottom. All ecosystems have a fixed energy budget, dictated by the number of primary producers -- plants on the land, photosynthetic microbes in the ocean. If we imagine the food chain to be staircase, as we travel to higher steps -- ecologists call these "trophic levels" -- the available energy declines, roughly by a factor of ten for each step up. That means, in an ecosystem with one plant, herbivore and carnivore, the plants will collectively contain 100 times more energy in their biomass than the carnivores.
It's lonely at the top, as illustrated by this simple trophic pyramid. Picture: Wikimedia
This energy constraint is the fundamental reason top predators are so rare. Many food webs consist of half a dozen or more trophic levels, and by the time you get to the top, there's simply not that much energy left. What's more, top predators are typically energy-hoarders: They're large, and need to eat lots of calories in order to hunt. The Siberian tiger -- the world's largest cat -- weighs over 300kg and can pack away 27kg of meat in a single meal.
It's their naturally small populations that also leave these predators vulnerable. Indeed, since prehistoric times, humans have had a hand in driving massive predators extinct, including sabre-toothed cats and giant reptiles. More recently, habitat destruction and poaching have pushed many key predators, including the Siberian tiger, the great white shark and the Ethiopian wolf, to the brink of extinction. And when predators disappear, ecosystems start to unravel.
When an ecosystem loses a key species, it triggers what ecologists call a trophic cascade -- a butterfly effect that spirals down the food chain. A well-documented case study for this phenomenon is the grey wolf, once among the world's most widely distributed mammals. Historically, grey wolves roamed the entire northern half of the Americas, but by the mid 20th century, aggressive hunting campaigns had all but eliminated wolves from the lower 48 US states.
Prior to their extirpation, North American grey wolves were a key predator of deer, elk, moose, bison and caribou, as well as numerous smaller mammals. Following the wolves disappearance, the abundance of deer skyrocketed, with some populations climbing to six times their historical size. Unchecked, deer are like lawn mowers, stripping bark off of trees and decimating understory plants. This, in turn, can diminish the amount of carbon a forest stores, impact plant diversity, and weaken the forest's resilience to future disturbances. As reported last year in Science, the recent reintroduction of wolves to Yellowstone National Park has allowed some of the most deer-decimated stands of forest to heal, increasing their carbon sequestration potential.
Wolves also manage Canadian forests by managing herbivores -- in this case, moose. As voracious tree munchers, an unchecked population of moose can eat through enough leaves to literally stunt a forest, reducing its ability to take up and store carbon. A study published last year in the journal Ecosystems concluded that restoring grey wolves to their historical population size could, in theory, increase the amount of carbon sequestered in the Canadian boreal by an amount roughly equivalent to Canada's annual human-made carbon emissions.
Wolves provide other crucial services as well, such as quelling the spread of infectious disease. In recent decades, Lyme disease, a tickborne illness found across North America, has been on the upswing, with some areas seeing a 1000 per cent rise in disease incidence. A 2012 study which appeared in the Proceedings of the National Academies of Sciences demonstrated how the spread of Lyme disease is the result of a complex trophic cascade beginning at the top of the food chain. Since the disappearance of grey wolves, coyotes have, in many places, been elevated to top-predator status. Coyotes prey on smaller carnivores including foxes, which in turn hunt small, herbivorous mammals -- the primary carriers of disease-ridden ticks. More coyotes means fewer foxes, causing populations of Lyme disease-carrying rodents to boom.
It's clear from ecological studies that wolves do far more than just keep the deer in check -- they're the lynchpin holding together the very fabric of their world. But when it comes to top predators, there are many other fascinating case studies, some hailing from parts of the planet we're much less familiar with.
In the remote Southern Ocean that encircles Antarctica, sperm whales reign supreme. The largest toothed predator on the planet, a sperm whale can reach lengths of up to 16m and plunge to depths of 2250m to hunt giant squid. But more than just powerful hunters, sperm whales are a critical sources of fertiliser. Or, at least, their excrement is.
After consuming prey at depth, sperm whales return to the surface to spew out iron-rich plumes of defecant. These so-called "poo-namis" are like Miracle Grow for phytoplankton, the photosynthetic microbes that collectively account for 50 per cent of the carbon drawn out of our atmosphere every year. A study published in the Proceedings of the Royal Society B found that these sperm whale shit-storms are responsible for roughly 180,000 tonnes of carbon sequestration in the deep ocean every year. Before industrial whaling dramatically shrank sperm whale populations, that carbon sink could have been up to 10 times greater.
Of course, it would be unfair to talk about critical ocean predators without mentioning sharks. To get the scoop on Earth's most iconic toothy fish, I spoke with University of Miami marine ecologist David Shiffman, a shark advocate who also writes at Southern Fried Science. Sharks, it turns out, can also wear many different hats in an ecosystem. For instance, in addition to being skilled hunters, some sharks are professional fear-mongers.
"The most common way people think of sharks influencing the food web is by eating other animals," Shiffman told me. "But a lot of research has shown that the bigger way sharks make an impact is by influencing the behaviour of their prey." Basically, they convince creatures in the rest of the ocean to stay the hell away.
Tiger shark and juvenile in the Bahamas. Picture: Wikimedia
That the mere presence of sharks can dictate where other organisms spend their time is a relatively new discovery, one whose implications ecologists are still grappling with. The phenomena has been well documented in Shark Bay, Australia; that region is home to one of our planet's largest populations tiger sharks, an apex predator that can grow to be 5m long and weigh up to 635kg.
"The presence of tiger sharks can influence the behaviour of dolphins, sea turtles, fish, even birds," Shiffman said. "And if the areas that herbivores forage are dictated by sharks, this can influence the whole food web." Indeed, ongoing studies at the Shark Bay Ecosystem Research Project are showing how shark avoidance can indirectly impact the structure of the marine seagrass beds, which form the physical architecture of the ecosystem.
An Uncertain Future
The Siberian tiger is among the most threatened of Earth's large cats. Picture: Ross Elliot / Flickr
There are plenty of other predators with well-documented ecological impacts, aside from the handful I've discussed here. But more common still are the predators whose roles we don't understand, because we haven't taken the time to study them. Unfortunately, many of these species are disappearing just as we begin to appreciate the myriad ways in which they shepherd their environments.
Of the 31 largest mammals in the order Carnivora -- a list which includes wolves, giant cats, bears and hyenas -- 61 per cent are listed as threatened by the International Union for the Conservation of Nature. Seventy seven per cent are in decline. Writing in Science on how the disappearance of top carnivores may affect ecosystems worldwide, a group of environmental scientists state that "we should expect surprises, because we have only just begun to understand the influences of these animals on the fabric of nature."
Included among those surprise impacts is how the loss of Earth's top carnivores may affect us. Earth's largest predators have inspired our stories, mythologies and artwork since the dawn of culture. Losing them is more than a loss to the environment -- it's a loss to humanity.