Peak Oil is You
Donate Bitcoins ;-) or Paypal :-)
Page added on November 28, 2012
Are We Heading Toward Peak Fertilizer?
You’ve heard of peak oil—the idea that the globe’s easy-to-get-to petroleum reserves are largely cashed, and most of what’s left is the hard stuff, buried in deep-sea deposits or tar sands. But what about peak phosphorus and potassium? These elements form two-thirds of the holy agricultural triumvirate of nitrogen, phosphorus, and potassium (also known as NPK, from their respective markers in the periodic table). These nutrients, which are essential for plants to grow, are extracted from soil every time we harvest crops, and have to be replaced if farmland is to remain productive.
For most of agricultural history, successful farming has been about figuring out how to recycle these elements (although no one had identified them until the 19th century). That meant returning food waste, animal waste, and in some cases, human waste to the soil. Early in the 20th century, we learned to mass produce N, P, and K—giving rise to the modern concept of fertilizer, and what’s now known as industrial agriculture.
The N in NPK, nitrogen, can literally be synthesized from thin air, through a process developed in the early 20th century by the German chemist Fritz Haber. Our reliance on synthetic nitrogen fertilizer (as its known) carries its own vast array of problems—not least of which that making it requires an enormous amount of fossil energy. (I examined the dilemmas of synthetic N in a 2011 series at Grist.) But phosphorous and potassium cannot be synthesized—they’re found in significant amounts only in a few large deposits scattered across the planet, in the form, respectively, of phosphate rock and potash. After less than a century of industrial ag, we’re starting to burn through them. In a column in the November 14 Nature, the legendary investor Jeremy Grantham lays out why that’s a problem:
These two elements cannot be made, cannot be substituted, are necessary to grow all life forms, and are mined and depleted. It’s a scary set of statements. Former Soviet states and Canada have more than 70% of the potash. Morocco has 85% of all high-grade phosphates. It is the most important quasi-monopoly in economic history.
What happens when these fertilizers run out is a question I can’t get satisfactorily answered and, believe me, I have tried. There seems to be only one conclusion: their use must be drastically reduced in the next 20-40 years or we will begin to starve.
Why listen to this guy? Grantham, cofounder and chief strategist for the Boston firm Grantham Mayo Van Otterloo, has avoided or at least foreseen every bubble from the Japanese equity/real estate craze of the ’80s right up to our own real estate mania of the 2000s. Back in fall 2007, with the S&P 500 near all-time highs and months before the Bear Stearns nosedive, Grantham was publicly foretelling financial gloom and doom.
Grantham is also known for his real talk on climate change. The Nature piece I quoted focuses on that topic, and advises scientists to “be arrested (if necessary),” in order to inspire policy action on the climate crisis. And in a characteristically blunt November letter to his firm’s investors, Grantham argued that “we should not unnecessarily ruin a pleasant and currently very serviceable planet just to maximize the short-term profits of energy companies and others.” That’s more clearly stated than you’ll get from any high-profile Democratic pol—and this from a financial titan, no less.
So, given his record of prescience and gift for getting to the heart of the matter, we should probably listen to Grantham when he says that our agricultural system is lurching toward collapse.
Of the two key fertilizers Grantham warns about, phosphorous is the more urgent. As Grantham notes, our friendly neighbor Canada sits on a vast potash stash. But phosphate rock is largely concentrated in Morocco—and not just anywhere in Morocco. It’s in the country’s Western Sahara region, on highly disputed land. In a superb 2011 piece in Yale Environment 360, the environmental writer Fred Pearce explained:
The Western Sahara is an occupied territory. In 1976, when Spanish colonialists left, its neighbor Morocco invaded, and has held it ever since. Most observers believe the vast phosphate deposits were the major reason that Morocco took an interest. Whatever the truth, the Polisario Front, a rebel movement the UN recognizes as the rightful representatives of the territory, would like it back.
Given that a savvy investor like Grantham calls Morocco’s phosphate holdings “the most important quasi-monopoly in economic history,” you can bet that the Polisario Front isn’t going to let the Moroccan government control it without a fight. In other words, a scarce mineral key to the future of industrial agriculture is concentrated on geopolitical fraught territory. As Pearce puts it, “If the people of Western Sahara ever resume their war to get their country back—or if the Arab Spring spreads and Morocco goes the way of Libya—then we may be adding phosphate fertilizer to the list of finite resources, such as water and land, that are constraining world food supplies sooner than we think.”
Yet something tells me that peak phosphorous will continue to be an obscure topic. I’ve been writing about it since 2008 (see here, here, here, and here). Foreign Policy ran a major piece on it in 2010; 2011 brought Pearce’s article as well as a profile of Grantham in no less a forum than the New York Times Magazine, in which he talked up peak phosphorus at length. Even after all of that, I can think of few crucial issues as far from the center of public conversation than the phosphorus shortage. We’ve haven’t really begun to face the problem of climate change; our reliance on mined phosphorus doesn’t register at all. It’s easy to ignore crises whose most dire consequences loom decades away.
But the next time someone facilely insists that the “future of farms is industrial,” ask what the plan is regarding phosphorous. Developing an agriculture that’s ready for a phosphorous shortage means a massive focus on recycling the nutrients we take from the soil back into the soil—in other words, composting, not on a backyard level but rather on a society-wide scale. It also requires policies that give farmers incentives to build up organic matter in soil, so it holds in nutrients instead of letting them leach away (another massive problem stemming from our reliance on abundant NPK). Both of these solutions, of course, are specialties of organic agriculture.
9 Comments on "Are We Heading Toward Peak Fertilizer?"
econ101 on Wed, 28th Nov 2012 11:31 pm
In answer to your question, no, we are not headed toward peak agriculture. This article you wrote is a propaganda piece rebutted over and over in other more reliable news sources.
BillT on Thu, 29th Nov 2012 12:37 am
econ101…we actually passed peak fertilizer some decades ago when we decided to make nitrogen from natural gas. As natural gas disappears ( and all the hype on the petroleum sites is just that, hype ) so will fertilizers.
Oil is also going to remove much from the market, including fertilizers, most off-season food, most plastics, most tires for vehicles, etc. And, most of your Western lifestyle. That is, IF the climate change does not take us out first.
DMyers on Thu, 29th Nov 2012 4:13 am
Whether it be fertilizer, oil, water, or topsoil, we are in terminal overshoot. There isn’t enough for what we need. Send the Pink Panther to Morocco. Mission Phosphate Buy Time.
poaecdotcom on Thu, 29th Nov 2012 5:16 am
I cannot envisage an argument that peak oil does NOT implicitly imply peak agriculture……
There may be a lag (less than a decade) but those graphs will look very much the same well its all said and done.
GregT on Thu, 29th Nov 2012 5:17 am
We have been in overshoot ever since we started building societies and infastructure that rely on one key finite resource.
Just like feeding sugar to bacteria in a petri dish. When the sugar disappears, so do the bacteria.
SOS on Thu, 29th Nov 2012 7:08 pm
There was an article here, within the past few weeks, that in no uncertain terms refuted what this author is saying. continuing to believe and expand on these alarmist and unfounded views is counterproductive for the collective you. collectively it might be more efficient to burn the libraries? That might have quicker results than this denial of fact/fan flames of alarm deal going on here.
Chuck on Thu, 29th Nov 2012 8:16 pm
I think that predicting peak fertilizer will lead to mass starvation is overblown. The fact is, Phosphorous does not disappear. The current cycle of fertilizer mining, to fields, to crops, to feed-lots to peoples stomach’s to waste-water treatment facilities is the current reality, but that is changing. The science already existing to create a system for a complete cycle of healthy soils to crops to “processing facilities” to food, energy, biomass and fertilizer. It is not yet economical as long as the “cheap-stuff” is ubiquitous. As soon as the current economic model reaches a level where the new model floats, business managers will flock to the riches – when hasn’t that been the reality in our 6 million year history. The same goes for potash.
BillT on Fri, 30th Nov 2012 4:49 am
Dream on Chuck. The soils of the world have been destroyed. It will take nature thousands of years to replace what we wasted in the last 100 years. And there will be only a few million humans around to see that day, if we exist at all.
Kenz300 on Fri, 30th Nov 2012 5:04 pm
Peak fertilizer, Peak Oil, Peak Water supplies, Peak Fish stocks and endless population growth. Our growing world population is coming head to head with the worlds finite resources and will lead to more poverty, suffering and despair. Access to family planning services needs to be available to all that want it.