How Nature Defies Math in Keeping Ecosystems Stable

Paradoxically, the abundance of tight interactions among living species usually leads to disasters in ecological models. New analyses hint at how nature seemingly defies the math. Veronique Greenwood, writing for Quantamagazine: Behind the beautiful facade of a rainforest, a savanna or a placid lake is a world teeming with contests and partnerships. Species are competing for space, consuming one another for resources, taking advantage of one another's talents, and brokering trades of nutrients. But there's something funny about this picture. When ecologists try to model ecosystems using math, they tend to find that the more interactions there are among species, the more unstable the system. For a simple ecosystem model to be stable, all the interactions among its species must be in perfect harmony. Maintaining that balancing act gets much harder, however, as the number of coupled species and the strengths of their interactions rise: Any disturbance or imbalance for one couple ripples outward and sows chaos throughout the network.

Bring in mutualisms, relationships in which species contribute directly to each other's survival, and things can really fly off the handle. Pairs of organisms that live off each other sometimes do so well in the mathematical simulations -- thriving exponentially in extreme cases, in what Robert May, the theoretical ecology pioneer, once called "an orgy of mutual benefaction" -- that everything else can go extinct. It seems unlikely that real ecosystems are quite this flimsy. In a new paper in Nature Communications, a pair of theoretical ecologists at the University of Illinois explored more precisely how the give-and-take in mutualism affects ecosystem stability and how, under the right conditions, it might contribute to it. Their result joins previous work in suggesting how real-world communities manage to be more resilient than the models imply.

Only The Stable Ones Are Still Around

[Bender0x7D1]

All of the unstable ecosystems have failed, and their participants extinct or changed. That's the crazy part of hundreds of millions or billions of years of adaptation and evolution and environmental change - there are probably trillions of ecosystems that became unstable and collapsed - they just happened long before scientists showed up to track things.

Which isn't to say that collapses can't happen again (or that ecosystems don't fail on a daily basis) but the ones still around have whatever "secret sauce" nature requires for those groups to survive and even thrive. So far...

So...incomplete models?

[grasshoppa]

Is there anything news worthy about the notion that our models might be incomplete?

Re:So...incomplete models?

[Entrope]

"Remember that all models are wrong; the practical question is how wrong do they have to be to not be useful." - George E. P. Box

We have to decide WHICH math to use

[Applehu+Akbar]

Math does not describe the universe we inhabit, but all possible universes. We have to search to find which mathematical system accurately describe what we see around us.

I'm sure there is a mathematics that properly describes ecosystems. When we one day find it, the practical implications will be enormous. It will explain why all those activist predictions of species collapse and environmental disaster in response to this or that specified kind of external pressure keep failing to happen. It could tell us more about where else in the universe life could exist. If it uncovers negative climate feedbacks we never know were occurring, it will finally lead to accurate climate models.

Domestication as mutualism

[clawsoon]

Bring in mutualisms, relationships in which species contribute directly to each other's survival, and things can really fly off the handle. Pairs of organisms that live off each other sometimes do so well in the mathematical simulations -- thriving exponentially in extreme cases

This immediately makes me think of humans and the species we have domesticated. It's not just humans who are thriving exponentially and driving thousands of other species to extinction. It's humans plus wheat, rice, cows, pigs, and a handful of other species. Millions of square miles of the most productive land in the world have been taken over by us and our mutualists. The group of us seem like the perfect example of what they've found in their simulations.

Crap headlines

[mhkohne]

I hate headlines like this. Nature didn't defy anything. Nature pointed out that the model being used wasn't anything like up to the challenge.
This is, frankly, perfectly normal.
The only people who are surprised are the headline writers who apparently can't remember the last x thousand times that something was thought to be understood turned out not to be.