Wrong on So Many Levels
Reproduced from Counterpunch by permission of the author: Stan Cox
Why, after more than a decade, does the idea of “vertical farming” keep gathering momentum? Why hasn’t it collapsed under its own weight of illogic? And why is media coverage of vertical farming almost universally positive, often enthusiastically so?
I suppose we shouldn’t be surprised when a fantasy persists and thrives despite being unrealistic; after all, that’s what fantasies do. And the vertical-farming concept, unlike, say, creationism, aims at worthy goals. But when a pipedream comes to be regarded, wholly uncritically, as a means of fixing our broken food system, it becomes a dangerous distraction.
Out here in Kansas, for example, farmers and agribusinesses often back up their resistance to much-needed systemic change by claiming that America’s urban-suburban majority has no understanding of what it takes to produce food. And when they learn that city people are wanting to stack fields of crops one above the other, you can be sure that their convictions are reinforced.
Vertical farming, as originally conceived by Dickson Despommier, a professor of public health at Columbia University, would involve using the floorspace of tall urban buildings for growing food plants through largely hydroponic methods. This is envisioned as a way to integrate food production with dense human populations, increase production per unit of land area, protect crops against pests without the use of chemicals, and take vulnerable agricultural soils out of production by relocating crops to cities. It can, in fact, achieve none of these goals.
The most obvious problem is that of scale. Despommier’s initial, commendable objective was to help prevent soil degradation. But to benefit the continent’s agricultural soils on a meaningful scale would require substituting floorspace in buildings for a substantial share of cultivated land. Otherwise, vertical farming would simply be adding a little bit to production without taking the burden off the countryside.
But what if we committed to making at least a modest start anyway, by converting U.S. vegetable production from a horizontal to a vertical enterprise? Vegetables (not counting potatoes) occupy only 1.6% of our total cultivated land, so that should be no problem, right? Wrong. At equivalent yield per acre, we would need the floorspace of 105,000 Empire State Buildings. And that would still leave more than 98 percent of our crop production still out in the fields.
It is indeed vegetables, mostly leafy ones, that are envisioned in many vertical farming plans. That is appropriate, because such plants do not suffer as much from sunlight deprivation as do other crops. And the bulk of the plants in a true vertical farm will be deeply sunlight-deprived. If it reaches plants at all, direct sunlight would be reduced in intensity by the glass itself; the light would strike only a few plants at a time—those near the glass walls—usually at a low angle and only for a portion of the day; and those peripheral plants would shade plants that are deeper into the room. (Windows can admit enough light for to see your way around the center of a room on a sunny day; however, vision and photosynthesis are very different processes. Crop plants, if they’re expected to produce a harvest of food, require many times as much light as you require indoors.)
Breathless reports of salad greens being grown indoors under artificial light are becoming a staple of the food media. But my colleague David Van Tassel and I have done simple calculations to show that grain- or fruit-producing crops grown on floors one above the other would require impossibly extravagant quantities of energy for artificial lighting. That’s because plants that provide nutrient-dense grains or fruits have much higher light requirements per weight of harvested product than do plants like lettuce from which we eat only leaves or stems. And the higher the yield desired, the more supplemental light and nutrients required.
Highly efficient LED lighting would improve the overall system only marginally. Meanwhile, Despommier has suggested that vertical farms’ electrical demand be met with renewable sources. But to divert any portion of that tiny amount of sunlight that we manage to harvest and convert into electricity—with wind turbines, photovoltaic arrays, etc. (all arranged horizontally, by the way)— and then, in essence, convert the electricity back into light for illuminating plants that would have grown much better out in the free sunlight in the first place, is something only a society wallowing in a huge energy surplus would even consider. Green plants themselves are solar collectors and should be treated as such.
As the vertical-farm idea’s increasingly obvious flaws are pointed out, proponents respond with a lot of tweaking. And as plans evolve, they are looking both less vertical and less like farms (as when they involve growing food on Ferris wheels). Some believers who’ve caught onto the lighting problem are now talking about giant pyramids or terraced lean-tos that would expose all plants to light from above. That makes life a lot better for the plants, but such Hanging-Gardens-of-Babylon designs, like roof gardens or “green wall” arrangements that would display plants on the south faces of buildings, do not augment land area in the way intended by the original vertical-farm design. Whereas a bona fide vertical farm, if it could work, would in theory multiply the cropped area many times over, a pyramidal or diagonal structure would provide no more effectively sunlit cropped surface than a vacant lot of similar size, and at a vastly greater cost.
Lighting is only the most, um, glaring problem with vertical farming. Growing crops in buildings (even abandoned ones) would require far more construction materials, water, artificial nutrients, energy for heating, cooling, pumping, and lifting, and other resources per acre than are consumed even by today’s conventional farms—exceeding the waste of those profligate operations not by just a few percentage points but by several multiples. Vertical enthusiasts also claim that crops grown in buildings chemical-free will somehow be protected from diseases and pests, but as anyone who has worked in a greenhouse can tell you, epidemics and infestations can explode into total losses overnight on plant grown in confinement.
And raising crops in such restricted spaces would, necessarily, mean substituting a lot of human labor for much of the mechanical power now used in farming. That’s fine environmentally, but who will own these enormous high-tech facilities, how much of the hard work—hauling, transplanting, tending, harvesting, more hauling—will be done by idealistic entrepreneurs, and how much will end up being carried out by the same underpaid, overexploited people who do all that grueling stoop work that currently provides us with most of our vegetables and fruits today?
The goals of the vertical-farming concept are generally laudable (Despommier’s Wikipedia-page photo features a slide showing the word “hunger” canceled with a red circle-and-slash) but it has virtually no potential for saving soil or strengthening food security. It’s just another proposal (if probably the most high-input one) for urban agriculture, a practice intended to reduce the distances that food is transported while supporting local economies. There’s no doubt that local fruit and vegetable production is good for consumers. But even if we planted every urban flat roof while deforesting and farming all of America’s front and back yards and open urban spaces, we could supply only a tiny portion of the nation’s food supply. Add in those 105,000 Empire State Buildings full of vegetables, and we’d still have well over 95 percent of food being produced outside of cities.
And ecological impact cannot be estimated simply by counting food miles; food’s ecological footprint lies mostly in production, not transportation. Were vertical-farm planners to add up the enormous quantities of energy and materials required for construction, maintenance, operation, and eventual dismantling, they would be forced to conclude that the structures they’ve envisioned can succeed only in supplying the more affluent city-dwellers with leafy salads.
If we want to protect North America’s soils, the most effective immediate action would be to stop degrading scores of millions of acres every year to raise corn and soybeans for making biofuels and feeding cattle. Those landscapes should be restored as grasslands (and, eventually, mixed stands of perennial grain crops.)
The current corn-and-soybean system serves only to keep animals alive and unwell in confinement, with an extraordinary waste of resources. But if we want to resolve the myriad problems currently created by factory-farming animals in sheds and feedlots, we’ll never do it by factory-farming plants in skyscrapers.
Stan Cox’s book Any Way You Slice It: The Past, Present, and Future of Rationing, will be published in May by The New Press. Write to him at STAN COX“>t.stan@cox.net.
People seem to spend large amounts of time, energy and brain power devising ways to increase our food supply to feed an increasing population. This is totally absurd. The only solution to these problems is to decrease our population to the point where simple, sustainable agriculture will suffice.
I agree with you, the problem lies in the transition to the decreased population.
People like eating and having families and will not readily give that up.
‘Scam’ is the correct term for vertical farming. Having researched and designed vegetative roofs, I can assure you the structural and energy costs alone would make such buildings cost prohibitive. How can moving what’s under your feet up into the air be more cost effective than tearing up abandoned parking lots? This is madness and the desperate attempt to find technological solutions worries me.
(I didn’t get the memo – what happened to ‘Your Medieval Future?’ Is the book on hold?)
The book is still actively being completed, the renamed site much more accurately described what it’s about. Medieval Future seemed good 2 years ago, now it doesn’t, things have just moved on.
We intend to put the book on the blog when it’s finished and available rather than keep it ‘pending’. It dragged on for much longer than we anticipated, and has been retitled ‘The End of More’
Indeed always been amazed at this thing being relayed so much. (except for a few crops on rooftops or balconies)
But something also interesting is that even for housing, tall buildings or skyscrapers aren’t that efficient at all to increase density, contrary to popular belief.
Not efficient in the sense : if you compare “generic regular urbanism” at the scale of a city or city quarter, made of towers, slabs, or courtyard buildings, with the number of floors as a variable. And that you then consider the resulting density in the sense of FAR (floor area ratio, that is area of livable space per area of land), applying the same natural lighting constraints to the different urbanism, the towers do not lead to the best result at all, and this is asymptotic anyway, further to 10 or 12 floors you don’t gain anything anymore.
Or in other words and especially for housing (a bit different for offices that allow the buildings to be much “thicker” with big open spaces), sky scrapers “do not make sense”.
I asked myself this question some years ago (optimal architecture/urbanism with respect to density), and finding almost nothing on the web, started doing simple computation about it, to finally find the work done by Leslie Martin and Lionel March about it in the sixties in Cambridge.
If you are interested, you can check the two pdfs linked below :
http://iiscn.wordpress.com/2011/05/15/densite-etages-lumiere/
(post is in French but two papers in English).
First one from Lionel March on this and other aspects
Second one about redoing the initial analysis in more detail.
The conclusion here is correct in terms of meeting the food needs of the broader population, however I think there are positive aspects of urban cultivation that make it important for planners to integrate into development plans, and it has some merit for communities that don’t have access to land. Whether it is vertical or horizontal is not as important as whether it’s successful. BTW the intensive method used in vertical farming is far more productive per area than standard crop growing, so comparisons are somewhat moot.
First, it will encourage individuals and observers who are otherwise separated from the soil to start growing some of their own food and realizing the benefits. Second, it will provide some fresh herbs and high-quality vegetables to supplement their diets at relatively low cost and without the added transport fuel consumption. The increase in awareness alone will help urban dwellers to realize that their food doesn’t originate at the supermarket.
When we get to the point where parking lots are empty because fuel is too expensive, and when many foods become too expensive for the same reason, perhaps people will think about tearing up the pavement and planting crops. Others will start using some of their lawn or other yard areas. But if one doesn’t have the necessary land area, I think small scale vertical farming would be a useful method to consider.
Food needs land area on which to grow, and ultimately needs light energy, in addition to food and water–just like any other species. We get that free from the sun.
If you stack acreage vertically you have to supply artificial light , and we have to pay for it
We won’t be able to afford it.
Then you have to consider the energy involved in pumping up water and plant food.