[A-List] Can we feed the world without industrial agriculture?

["Charles Brown" <cbrown@xxxxxxxxxxxxxxxxx>]

	Date: Thu, 1 Feb 2007 10:41:48 -0500 (EST)
	From: nchamah miller <nchamah@xxxxxxxxxx>
	X-ASG-Orig-Subj: Can we feed the world without industrial
agriculture?
	Subject: Can we feed the world without industrial agriculture?
	To: Socialistproject <socialistproject@xxxxxxxxxxxxxx>
	
	Published on 29 Jan 2007 by Energy Bulletin
<http://www.energybulletin.net/25315.html> . Archived on 29 Jan 2007.
	
	

	How Much Did the Green Revolution Matter? or Can We Feed the World
Without Industrial Agriculture?



	by Sharon Astyk 
	
	

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	"It is well that thou givest bread to the hungry, better were it
that none hungered and that thou haddest none to give." 
	? St. Augustine
	
	There are many questions that have come up for me in writing a book
about food, energy and climate, but the one that I find most engaging is the
question of exactly what was gained and lost in the transition to industrial
agriculture and the green revolution. While there have long been critiques
of the Green Revolution, many, many people assume that without the work of
Norman Borlaug and the other scientists who brought us new hybrids and who
convinced much of the world to convert to nitrogen fertilizers and
pesticides based on fossil fuels, we cannot feed the world. I am suspicious
of this claim, and have been musing on it for some time. It is certainly
true that grain yields rose dramatically during the Green Revolution, but
how much does and did that actually matter?
	
	Now some of this, all of us interested in the subject already know.
We all know that the introduction of massive quantities of fertilizer, the
replacement of traditional staple crops with hybrids and the rest of the
Green Revolution meant total grain yield increase of 250% over 35 years,
with an increase in fossil energy inputs of 50% over traditional
agriculture. It would seem that that rate of return was quite gratifying ?
put in some energy and get five times the total food. That was, however, a
short term success, one that couldn't be sustained. The quantity of fossil
fuel inputs required to maintain these increased yields and keep up with
population growth have grown steadily, and as Dale Allen Pfeiffer observes
in Eating Fossil Fuels "Yet, due to soil degradation, the increased demands
of pest management, and increasing energy costs for irrigation (all of which
is examined below), modern agriculture must continue increasing its energy
expenditures simply to maintain current crop yields. The Green Revolution is
becoming bankrupt." (Pfeiffer, 9) For those who don't think much about
agriculture, the last bit of information should disturb you. The world's
population is set to grow for some time (by close to 1/3 before it levels
off and begins declining towards the middle of the century, all factors
being equal), and we are only just holding steady (actually, there's been a
bit of a decline lately) in the amount of food we're able to grow, despite
our best efforts. This matters ? right now we still produce more than we
need. But population is growing steadily, and the climate is changing
steadily, and the day is not so far away when our total food yields may not
feed the world. And if oil and natural gas peak soon, as seems not unlikely,
yields will decline still further. That's a scary prospect.
	
	But there's more to say about those Green Revolution numbers,
because they leave out something very important ? how much food was actually
lost due to the green revolution. Look at the above numbers, the 2.5 fold
increase in grain yields, and the situation will look hopeless. But that's
not quite the end of the story. Because the Green Revolution actually cost
us something too ? and not just the costs that all environmentalists are
familiar with in fertility, soil erosion, aquifer depletion, etc... but a
whole realm of food that we once used to grow and eat that we didn't anymore
after the Green Revolution. While the Green Revolution increased grain
yields, it also cut back on other food sources. For example, among rice
eating people, the pesticides required for the cultivation of the miracle
rices produced in the 1960s killed fish and frogs that provided much of the
protein in the diets of rice eating people, resulting in, as Margaret Visser
points out in Much Depends on Dinner, "...the sadly ironic result that 'more
rice' could mean 'worse nutrition.' The same can be said of the loss of
vegetables often grown in and at the edges of rice paddies. The famous
"golden rice" that was supposed to alleviate blindness due to Vitamin A
deficiency, a common problem among poor people who have little but rice to
eat, ignored the fact that one of the reasons for the decline in Vitamin A
consumption was that nutritious vegetables and weeds traditionally grown or
harvested with rice were no longer available
	
	The same is true of food grown in the US, in our very own
breadbasket. As our corn and wheat and soybeans were produced by larger and
larger farms, with more and more industrial equipment, we began to stop
producing other, smaller crops that were less amenable to industrialization,
but that made up a significant portion of people's diets. For example,
virtually every farm family in the US had a garden in the first half of the
20th century, and most of those gardens produced most or all of the family's
vegetables. Since we're talking about a time when 1/3-1/5 of the US
population lived on farms, that is an enormous quantity of produce. The
significance of gardens is easy to underestimate, but it would be an error
to do so. During World War II, 40% of the nation's produce was grown in
house gardens. The figures were higher in Britain during the same period. In
the late 1990s, a study done by the Louisiana Extension service suggested
that the average house vegetable garden produced $350 worth of produce. Food
produced in gardens was a significant part of our dietary picture not so
very long ago, and much of it was lost to industrial agriculture, either
directly, in the consolidation of family farms, or indirectly, through
agricultural subsidies that made purchased food often nearly as cheap as
growing your own, and even social policies that encouraged suburbs to become
places of lawns, not vegetable gardens.
	
	House gardens in rural areas, urban centers, and suburbs are another
casualty of the Green Revolution ? the artificial cheapness of food, created
by industrial, subsidized agriculture in the second half of the 20th century
drove the house garden out of existence. We went from producing 40% of our
produce to less than 3% in home garden over four decades. And it would be a
mistake to see "produce" as watery vegetables like lettuce, and thus believe
that few of our calories came from our gardens ? among the vegetables lost
were dense calorie crops like potatoes and sweet potatoes, which can
substitute for grains in the diet.
	
	Going back to what the Green Revolution, and its ugly step-child
globalization did to the American farm family ? the exhortation by Earl Butz
to "get big or get out" in the 1970s, and the systematic farm policies that
favored large commodity growers and regional specialization cut back
enormously on the quantity of food we produced. Small farmers in the 1940s
might have raised corn or wheat as their central crop, but they also grew
gardens, had an orchard, raised some pigs for sale and milked a house cow.
The loss of all that food value, spread over millions of farm families, was
a significant one. A farmer might have tapped his sugar maple trees and sold
the syrup, and would probably have sold some eggs. He might also have sold a
pig to a neighbor or had a calf butchered and shared the meat. The
industrial commodity farmer rarely does these things, and in many cases, the
area that permitted them ? the woodlot, the barn, the chicken coop have been
removed to allow unhindered access to more acres. In a bad crop year, a
farmer might have planted a late crop of sunflowers for oil seed, lettuce or
something else, which is also not calculated into our total consumption. In
many cases a family member might also operate a small truck garden and sell
produce locally ? even children did this routinely.
	
	All these are foods that were removed from the food stream, and this
systematic deprivation over millions of households reprents an enormous loss
of total calories produced.
	
	The economic pressure of farms to specialize also took its toll.
Joan Dye Gussow, in This Organic Life (Gussow, 141) documents that in the
1920s, Montana was self-sufficient for 75% of its produce, including fruit.
Now Montana is one of the harshest climates in the US and has very little
water, comparatively speaking, and yet this was possible in part because the
economic pressure of big business had not yet persuaded small farmers that
they couldn't grow fruit effectively in Montana, but should leave it to
Washington and Florida. None of us know how many calories were lost this
way, but it is almost certainly an enormous quantity. And this systematic
removal in the name of efficiency and specialization happened all over the
world to one degree or another.
	
	All this is particularly important because of the urgent distinction
between yield and output. Peter Rosset has documented that industrial
agriculture is, in fact, more efficient in terms of yield. That is, when
five acres of soybeans and five thousand acres of soybeans are compared, you
get more soybeans per acre by growing 5000 acres. But when you compare
output ? that is the total amount of food, fertility and fiber you get from
small scale polyculture farms (that just means farms where you grow a bunch
of different things, not a single commodity), the five acre farm comes out
not just ahead, but vastly ahead in per acre output. It isn't just that five
acres are more productive in terms of total output, they are often hundreds
of times more productive (Rosset,
www.mindfully.org/Farm/Small-Farm-Benefits-Rosset.htm
<http://www.mindfully.org/Farm/Small-Farm-Benefits-Rosset.htm> ). Rosset's
figures are not in dispute, as Rosset points out here: 
	

		Surveying the data, we indeed find that small farms almost
always produce far more agricultural output per unit area than larger farms.
This is now widely recognised by agricultural economists across the
political spectrum, as the "inverse relationship between farm size and
output". Even leading development economists at the World Bank have come
around to this view, to the point that they now accept that redistribution
of land to small farmers would lead to greater overall productivity.
		
		

	And the difference in total output rises further when you talk about
garden models. A half acre garden is often tens or hundreds of times more
productive than the same acreage in industrial agriculture. The displacement
of house and farm gardens by industrial agriculture represents a dramatic
loss in important food crops due to the Green Revolution. On a given acre of
land, the Green Revolution might have increased rice or wheat yields by
several times, but since the garden, henhouse and berry bushes that could
have been on that acre would have been many times more productive in total
than what was granted to us by fertilizers and hybridization, what we are
experiencing is a net total loss, not a gain in many cases.
	
	This is also important because most of us eat a fairly varied diet.
Grain crops are important, but so is the enormous diversity of food in our
diets. And many of the vegetable crops that have been lost were significant
sources of food, or oil, or flavoring (now displaced by corn syrup and
soybean oil). We cannot assess the global food supply correctly by focusing
only on grains, or by failing to recognize how much of the calories produced
in grain were once produced, often more nutriously, by vegetable and fruit
crops. As Hope Shand notes: 
	

		There is no doubt about the global economic importance of
these major crops [rice, maize, wheat and soybean], but the tendency to
focus on a small number of species masks the importance of plant species
diversity to the world food supply. A very different picture would emerge if
we were to look into women's cooking pots and if we could survey local
markets and give attention to household use of non-domesticated species.
(Hope Shand Human Nature: Agricultural Biodiversity and Farm-Based Food
Security)
		
		

	In the US, during most the last 50 years, we have had enormous grain
surpluses, mostly of corn, and as Michael Pollan documents in The Omnivore's
Dilemma, industrial food production has been challenged to keep finding new
ways to use our spare corn up. Processed foods are all sweetened with our
extra corn, made of processed corn, or of meat from corn fed to livestock.
And we have seen a rise in obesity, type 2 diabetes and heart disease ? all
associated with high meat, low vegetables, processed food diets. We kept
raising our yields, at the cost of our outputs, and our diets came to
reflect that ? we ate fewer kinds of vegetables and fruits, and fewer of
them. To a large degree, what happened was that we gave up foods that we did
need to be healthy and have good, varied, tasty diets, and replaced them
with a couple of grain crops that we did not particularly need more of, and
we harmed ourselves doing so.
	
	I cannot find a single reliable number about how much food was lost
to us, worldwide by the Green Revolution. It may never be possible for us to
find out what we lost to industrial agriculture, and I will make no claims
that I know precisely. If someone can locate such a number, I'd be
fascinated. But there is no question that it was enough food to feed
millions, maybe even billions of people. And we must, in our analysis of
what the Green Revolution cost us, also recognize that we lost an uncertain,
but enormous quantity of future food, mortgaging the future to overfeed the
present.
	
	As Dale Pfeiffer documents, we have reached the point where the
damage caused by the Green Revolution and globalization mean that we can no
longer raise our food yields by technological methods. We are constantly
hearing about the latest genetically modified solution, and besides the
dangers of GM food, so far none have produced as advertised. The price of
industrial agriculture is uncalculated quantities of food that future
generations will not have to eat. As the ability of soils to hold water
decrease due to erosion and climate change, arable land becomes desert. As
soils are depleted of nutrients and the price of natural-gas based nitrogen
fertilizers rise, untold people will find the cost of growing their own food
in their depleted environment prohibitive.
	
	That said, however, we should not underestimate the resiliance and
power of local, indigenous, sustainable agriculture. For example, in
Bringing the Food Economy Home Helena Norberg-Hodge, Todd Merrifield and
Steven Gorelick cite several World Bank and FAO papers that indicate that as
recently as the mid-1990s, 2 billion people, 35% of the world's population
were being fed by traditional agriculture with minimal or no fossil fuel
inputs (Norberg-Hodge, Merrifield, Garelick, 4). This often occurs on
marginal land, because the best agricultural land in the South has been
turned to non-food, or luxury food items. Shrimp farms displace rice farms
in coastal India, Coffee displaces small polyculture farms or food providing
forests in Latin America and Africa, flowers displace food in much of Latin
America and Asia, cotton, to feed our endless appetite for cheap clothing
displaces food in many nations. It will be a non-trivial problem to return
this land to sustainable food production, but it is possible. These
statistics, along with the others here should at least raise some
significant questions in those who believe we know what the earth's proper
carrying capacity is. That does not make the issue of population irrelevant,
but it does mean we may have time and choices that we did not know we had.
	
	Vandana Shiva describes (and I will quote this at some length,
because I think it is very important) what the Green Revolution has done in
the third world, but it is important to remember that the loss of food that
occurred there also happened to us ? for us, the cost came in the form of
our loss of health and nutrition. For the poor of the world, it came as a
significant loss of calories and nutrition. 
	

		Industrial agriculture has not produced more food. It has
destroyed diverse sources of food, and it has stolen food from other species
to bring larger quantities of specific commodities to the market, using huge
quantities of fossil fuels and water and toxic chemicals in the process.
		
		
		It is often said that the so-called miracle varieties of the
Green Revolution in modern industrial agriculture prevented famine because
they had higher yields. However, these higher yields disappear in the
context of total yields of crops on farms.
		
		
		Green Revolution varieties produced more grain by diverting
production away from straw. This "partitioning" was achieved through
dwarfing the plants, which also enabled them to withstand high doses of
chemical fertilizer. However, less straw means less fodder for cattle and
less organic matter for the soil to feed the millions of soil organisms that
make and rejuvenate soil.
		
		
		The higher yields of wheat or maize were thus achieved by
stealing food from farm animals and soil organisms. Since cattle and
earthworms are our partners in food production, stealing food from them
makes it impossible to maintain food production over time, and means that
the partial yield increases were not sustainable. The increase of yields in
wheat and maize under industrial agriculture were also achieved at the cost
of yields of other foods a small farm provides. Beans, legumes, fruits and
vegetables all disappeared both from farms and from the calculus of yields.
More grain from two or three commodities arrived on national and
international markets, but less food was eaten by farm families in the Third
World.
		
		
		The gain in "yields" of industrially produced crops is thus
based on a theft of food from other species and the rural poor in the Third
World. That is why, as more grain is produced and traded globally, more
people go hungry in the Third World. Global Markets record more commodities
for trading because food has been stolen from nature and the poor. (Vandana
Shiva Stolen Harvest 12-13)
		
		

	As I said, I don't know whether in the net the Green Revolution gave
us more food or not. But it is absolutely clear that it did not give us the
enormous increases in food that were claimed for it. And it may well be that
all of us experienced a loss of nutritious food, or food value. It is
manifestly the case that not only may we not need industrial agriculture to
feed us, we may well be better off without it.
	
	~~~~~~~~~~~~~~~ Editorial Notes ~~~~~~~~~~~~~~~~~~~
	
	I think this is a tremendously important article in understanding
out peak oil predicament, however there's at least a couple of loose ends.
Highly productive small scale horticulture often needs organic inputs from
elsewhere. Is this always necessary? (See biointensive methods
<http://en.wikipedia.org/wiki/Biointensive> ). What are the limits on
upscaling the practice? The second is how do we account for the huge
increase in human numbers since the 1950s if agricultural output hasn't
increased as much as we've been led to believe? In keeping with Sharon's
analysis, there are crises of nutrition in both rich and poor countries, as
the food output growth has been in basic carbohydrates at the expense of
more nutrionly rich foods, which allows for many people getting by with less
healthy (and for much of the world near-starvation) diets. So on a calorific
scale food output probably has risen quite a lot, but on a nutrional scale,
if such a thing were possible, output may have even reversed.
	
	Some good comments over at Casaubon's Book
<http://casaubonsbook.blogspot.com/2007/01/how-much-did-green-revolution-mat
ter-or.html> . 
	
	As a side note, I was trying to find a reference for the reported
fact that 40 percent of all vegetables were grown in Victory Gardens in
1943, and stumbled across this article (!): IN WAR TIMES, GROWING GARDENS
MAY YIELD RELAXING, USEFUL BENEFITS
<http://agnews.tamu.edu/dailynews/stories/HORT/Apr0403a.htm> .
	
	-AF