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Organic farming is a way of farming that avoids the use of synthetic chemicals and genetically modified organisms (GMOs), and follows the principles of sustainable agriculture. In many countries, including the
US and in the EU, organic farming is also defined by law.
Overview
Methods of organic farming vary. Each farm develops its own organic production system, determined by factors like climate,
crop selection, local regulations, and the preferences of the individual farmer. However, all organic systems share common goals
and practices:
In many parts of the world, organic certification is
available to farms for a fee. Depending on the country, certification is either overseen by the government, or handled entirely
by private certifiction bodies. Where laws exist, it is usually illegal for a non-certified farm to call itself or its products
"organic".
It is important to make the distinction between organic farming and organic
food. Farming is concerned with producing fresh products - vegetables,
fruits, meat, dairy, eggs - for immediate consumption, or for use as ingredients in processed
food. The manufacture of most processed food is well beyond the scope of farming.
Organic farming is not "new". In fact, it is a reaction against the large-scale, chemical-based farming practices that have
steadily dominated food production over the last 80 years. The differences between organic farming and modern conventional
farming account for most of the controversy and claims surrounding organic agriculture and organic food.
The contrast is as much economic as it is between methods of production: to date, organic farming has remained typically small
business, and conventional farming is big business (often called, agribusiness). However, the situation is changing rapidly as consumer demand encourages large-scale organic
production.
Development of organic farming techniques is also a function of economics. Most of the agricultural research over the last
several decades has concentrated on chemical-based methods - little funding and effort have been put into using current
scientific knowledge and tools to understand and advance organic agricultural approaches.
Ultimately, organic farming embodies the precautionary
principle, which holds that new technologies should only be adopted after all reasonable concerns over negative effects are
disproven. This is contrary to the prevailing situation, where new technologies are first introduced, and then problems addressed
only as they appear. The precautionary, better-safe-than-sorry approach is controversial, and often considered anti-technology
and anti-progress. However, it is becoming increasingly evident that the powerful technologies introduced in recent decades can
quickly produce serious negative effects that are hard to counteract by the time they are discovered in practice. Organic farming
asks: "If farming has been successfully practiced for thousands of years, is it safe to radically change the entire approach in
just a few decades, with no idea of what these changes may bring?"
Methods
Organic farming is essentially "traditional" farming, based on knowledge and techniques gathered over thousands of years of
agriculture, prior to the chemical farming revolution. It is easiest to describe by contrasting it with modern commercial
techniques.
In general terms, organic farming involves natural processes, often taking place over extended periods of time, and a holistic approach, while chemical-based farming focusses on immediate, isolated effects and
reductionist strategies (some would argue that this reductionism is greedy reductionism).
The central farming activity of fertilization illustrates the differences. Organic farming relies heavily on
the natural breakdown of
organic matter, using techniques like green manure and composting, to replace nutrients taken from the soil by previous crops. This biological
process, driven by microorganisms, allows the natural production of
nutrients in the soil throughout the growing season, and is often referred to as feeding the soil to feed the plant. In
chemical farming, individual nutrients, like nitrogen, are synthesized in a more or
less pure form that plants can use immediately, and applied on a man-made schedule. Other nutrients - 16 micro- and
macronutrients have been identified to date - are isolated and addressed separately. Problems that may arise from one action (eg:
too much nitrogen left in the soil) are usually addressed with additional products and procedures (eg: using water to wash excess
nitrogen out of the soil).
Differing approaches to pest control are equally notable. In chemical farming, applying a specific insecticide may quickly kill off a particular insect pest. Chemical controls can
dramatically reduce pest populations for the short term, yet by killing (or starving) natural predator insects and animals, cause an ultimate increase in the pest population. Organic farming tends to tolerate
some pest populations while looking to the long haul. Organic pest control involves the cumulative effect of many techniques,
including:
- encouraging predatory beneficial insects to flourish and eat
pests;
- planting companion crops that discourage pests;
- using row covers to protect crops during pest migration periods;
- rotating crops to different locations from year to year to interrupt
pest reproduction cycles;
- allowing for an acceptable level of pest damage.
Each of these techniques also provides other benefits - soil protection and improvement, fertilization, pollination, water conservation, season extension, etc - that are also cumulative. Effective organic practices require a thorough
understanding of pest life cycles and interactions.
Crop diversity is another distinctive characteristic of organic farming. Conventional farming focusses on
mass production of one crop in one location, a practice called
monoculture. This makes apparent economic sense: the larger the growing area,
the lower the per unit cost of fertilizer, pesticides and specialized machinery for a single plant species. Particularly in
vegetable production, the reverse holds true for organic farming, where smaller
tends to be more manageable. Planting a variety of vegetable crops supports a wider range of beneficial insects, soil
microorganisms, and other factors that add up to overall farm health, but managing the balance requires close attention and
expertise. In large commercial operations, sophisticated machinery does most of the work, and operators' feet may seldom touch
the ground. It can take several organic farms to provide the same output as one large-scale, chemical-based farm, but the
comparison goes beyond simple numbers: the day-to-day activities and required skill sets are quite different.
Raising livestock and poultry, for meat, dairy and eggs, is the other traditional farming activity. The same concept of
inclusion versus exclusion holds true. Organic farms attempt to provide animals with "natural" living conditions and feed. Ample
outdoor access, for grazing and exercise, is a distinctive feature, and crowding is avoided. Healthy living produces healthy animals, is the basic idea. By contrast, large-scale, intensive animal farming
strives to meet the minimum requirements to produce a saleable product at the lowest cost. Animals are often kept indoors in a
minimum of space, fed a variety of synthetic feed that provides essential nutrients, and given a steady dose of antibiotics to
prevent disease. In its most extreme applications, this approach is often called factory farming.
There are also different organic farming systems. Biodynamic farming is
a comprehensive approach, with its own international governing body. The Fukuoka method focusses on a minimum of mechanical cultivation and labor for grain crops. There is the
French intensive method,
biointensive farming, and other
approaches. A farm may choose to adopt a particular method, or mix and match useful techniques.
Organic and conventional farming methods are quite different, however, large-scale agriculture and organic farming are not
mutually exclusive. For example, Integrated Pest
Management is a multifaceted strategy, that can include chemical controls as a last resort - both organic and conventional
farms use IPM systems for pest control.
Productivity
Proponents argue that chemical-based farming is necessary to meet the demand for affordable food. Over the last 50 years,
agribusiness is responsible for higher availability and greater choice, at lower cost, apparently illustrating its effectiveness.
Now, as the hidden costs of agribusiness are surfacing, including
environmental damage and potential health risks, the productivity argument is increasingly disputed.
The basic claim is that organic farms are less productive. One prominent 21-year Swiss study found an average 20% lower
organic yields over conventional methods, however, that came with consumption of 50% less fertilizer and energy, and 97% less
pesticide[1] . A major survey published in
2001, analyzed of over 154 growing seasons of data on various crops and concluded that organic yields were 95-100% of
conventional yields[2] . Comparative yield studies are still scarce, and
overall results remain "inconclusive".
In fact, the issue of productivity is more complex than a summary of yield, which is the measure is often assumed. For one,
productivity is often calculated in labour time rather than by land area - chemical farming generally requires much more physical
space than organic farming to produce the same yield, but much less labor. Also, the majority of world agricultural grain
production is fed to animals, not humans - broad calculations of how much agriculture is feeding people is therefore complicated
when feeding animals to feed people is factored in.
On a purely economic level, the hidden costs of dealing with side-effects, like environmental clean-up, are generally not
included in the cost of doing agribusiness, but are paid by the public in other ways, such as through taxation to fund services
like pollution control measures, and increased health care costs.
Another hidden cost is the depletion of non-renewable energy sources, and related pollution. The production of chemical
fertilizers and pesticides relies on large amounts of cheap energy, which comes mostly
from petroleum today. The long-distance transport required to distribute produce
that is mass-produced in one region also contributes to energy consumption. Organic farming reduces the dependence on
non-sustainable energy sources.
A related aspect is the amount of money that actually reaches the farmer: currently, large-scale farms receive around 20% of
the supermarket retail price. The other 80% is absorbed by the food distribution system, for processing, transport, packaging,
marketing. The organic argument holds that more efficient distribution, through decentralization of production (eg: family farm
vs factory farm), and development of local and regional markets, would put more money in the hands of the farmer, allowing them
to improve production.
Overall, comprehensive scientific and economic research is still scarce, and there is no indication that chemical agriculture
is generally more productive than the organic approach.
History
The history of organic farming is largely the history of the organic movement, which started as a reaction against large-scale
agriculture. The movement can be traced back to England, around the 1920s, when individuals began to speak out against a variety
of agricultural "innovations".
One of the early pioneers of organic farming, Sir Albert
Howard, is often referred to as the father of modern organic agriculture. He began as a British botanist, working as an agricultural adviser in India, where he observed traditional Indian farming
practices, and came to regard them as superior to his conventional agriculture science. He documented and developed these organic farming methods. His writings, and notably, the 1940 book,
An Agricultural Testament, influenced
many scientists and farmers of the day.
In Germany, Rudolf Steiner's development biodynamic farming was
probably the first comprehensive organic farming system.
In 1939, strongly influenced by Sir Howard's work, Lady Eve
Balfour launched the Haughley Experiment on farmland in
England. It was the first scientific, side-by-side comparison of organic and
conventional farming. Four years later, she published The Living
Soil, based on the initial findings of the Haughley Experiment. It was widely read, and lead to the formation of a key
international organic advocacy group, the Soil Association.
The first wide usage of the term organic farming is usually credited to appears to Lord Northbourn in his book
Look to the Land
(1940), where he described a holistic, ecologically-balanced approach to farming.
As a trained scientist, Howard applied Western scientific thinking to study and develop traditional methods, while most
research and development concentrated on the new, chemical-based approach. This fundamental split in how science viewed
agriculture is largely responsible for the organic vs chemical situation of today.
In a parallel development in Japan, Masanobu Fukuoka, a
microbiologist working in soil science and plant pathology, began to doubt the modern agricultural movement. In the early 1940s,
he quit his job as a research scientist, returned to his family's farm, and devoted the next 30 years to developing a radical
no-till organic method for growing grain, now known as Fukuoka farming.
Technological advances during World War II produced two chemicals, used in quantity for warfare, that were found to have
agricultural uses. Ammonium nitrate, used in munitions, became a cheap source of nitrogen, one of the main plant nutrients. And
DDT, used to control disease-carrrying insects, became a general pesticide.
At the same time, increasingly powerful and sophisticated farm machinery allowed a single farmer to work ever larger areas of
land. Fields grew larger, and agribusiness as we know it today was well on
its way. The Green Revolution, launched in Mexico in 1944 with
private funding from the US, encouraged the development of hybrid plants, chemical controls, large-scale irrigation, and heavy
mechanization around the world.
During the 1950s, sustainable agriculture was a topic of scientific interest, but science tended to concentrate on the new
chemical approaches. In the US, J.I.
Rodale began to popularize the term and methods of organic growing.
In 1962, Rachel Carson, a prominent scientist and naturalist, published Silent
Spring, chronicling the effects of DDT and other pesticides on the environment. A bestseller in many countries,
including the US, and widely read around the world, Silent Spring was instrumental in the US government's 1972 banning
of DDT. The book and its author are often credited with launching the worldwide environmental movement.
In the 1970s, worldwide movements concerned with the pollutionn and the environment increased attention on organic farming. As
the distinction between organic and conventional food became clear, one goal of the organic movement was to encourage consumption
of locally grown food, which was promoted through slogans such as "Know Your Farmer, Know Your Food".
In 1975, Fukuoka released his first book, One Straw Revolution, with a wide effect on the agricultural world. His approach to
primarily grain production emphasized small scale, meticulous balance of the local farming ecosystem, and a minimum of human interference and labor.
In the 1980s, around the world, various farming and consumer groups began seriously pressuring for government regulation of
organic production. This led to various legislation and certification standards being enacted through the 1990s and to date.
Since the early 1990s, the retail market for organic farming in developed economies has been growing by about 20% annually due
to increasing consumer demand. Concern for the quality and safety of food, and the potential for environmental damage, are
apparently responsible for this trend.
Throughout this history, the focus of scientific agricultural research, and the majority of publicized scientific findings,
has been on chemical, not organic farming. One recent survey of the UK's leading government funding agency for bioscience
research and training indicated 26 GM crop projects, and only one related to organic agriculture.[3] This imbalance is largely due to economic forces, as large food producing
businesses have consistently invested in funding specific types of research, shaping government regulations, and promoting, and
has profoundly shaped food production and public perception.
Today, organic farming is the focus of much public attention and agricultural industry debate. To date, the rise of organic
farming has been driven by small, independent producers, and consumers. In recent years, explosive organic market growth has
encouraged the participation of agribusiness interests, and they may soon dominate organics. As the volume and variety of
"organic" products increases, the viability of the small organic farm is at risk, and the meaning of organic farming as an
agricultural method is ever more easily confused with the related but separate areas of organic food and organic
certification.
Issues
Intense and escalating debate surrounds all aspects of organic farming and organic food. Environmentalists, food safety
advocates, various consumer protection, social justice and labor
groups, small independent farmers, and a growing number of food consumers - among others - are ranged against agribusiness and
many existing and proposed government agricultural policies.
The controversy centers around the overall value and safety of chemical agriculture, with organic farming popularly regarded
as the "opposite" of modern, large-scale, chemical-based, vertically integrated, corporate food production. As public awareness increases, several factors act
as obstacles to an easy understanding of the overall situation.
In recent decades, food production has moved away from the public eye. In developed nations, where most of the world's wealth,
consumption, and agricultural policy-making are centered, many people are no longer aware of how their food is produced, or even
that food, like energy, is not unlimited. If the methods used to produce food are rapidly destroying the capacity for continued
production, then sustainable, organic farming is as critical a topic as renewable energy and pollution control. This proposition
is at the center of most organic farming issues.
In terms of the debate, it is useful to make a distinction between organic farming and organic food. Whether organic food is
tastier or safer or more nutritious has nothing to do with the effects of chemical agriculture on the environment. And, most food
dollars are spent on processed food products, the manufacture of which is beyond the scope of farming. There are separate
food and farming issues - lumping the two together only confuses the discussion.
Another important distinction lies between organic farming and organic certification. Defining organic farming with checklists
of acceptable and prohibited inputs and practices runs into some of the same criticisms aimed at chemical farming. With rules
come exceptions, whether well-intentioned or purely profit-oriented, and critics hold that this can only undermine organic
principles. For example, in some organic standards, compost made from sewage is
acceptable, a decision based on best-guess science (that the carryover of unacceptable inputs is negligible) and necessity.
Exceptions like this often seem necessary to make certified organic farming commercially viable for independent farmers, although
they might be questionable to the consumer. Certification also allows agribusiness to lobby for favorable definitions - anything
that can be approved becomes "organic".
Of course, the issues, particularly the social ones, will shift if agribusiness fully adapts to and dominates organic farming.
Then, large-scale, certified organic farms would probably operate much more like conventional farms today. Environmental benefits
may accrue from a change in types of pesticides and fertilizer used, more crop diversity, and the like, but if the overall
agribusiness philosophy remains essentially unchanged, "organic farming" could become the norm, without any great environmental
or social improvements.
In any case, here are a number of specific topics, argued from, and supporting, both sides.
Pesticides
Organic farming does not result in the release of chemical pesticides into the food supply or the environment, nor the
leaching of artificial fertilizer. Critics claim that many synthetic pesticides are improvements on natural pesticides, with the
goal of making them less dangerous to humans and more environmentally friendly. Organic advocates in turn respond that they use
natural pesticides as a last resort, rather controlling pests through growing healthier, disease-resistant plants, using cover
crops and crop rotation, and encouraging beneficial insects and birds. Organic pesticides include Bt, petroleum oil, soybean oil, pyrethrum, and rotenone. A new non-toxic insecticide based on kaolin clay, that
forms a physical barrier to pest insects is rapidly increasing in use in both organic and conventional farming.
Another argument against organic farming is that while it works acceptably at present because pests are kept under control in
surrounding conventional farms and thus do not spread into organic farms, if it became universal, the "islands" they operate on
would disappear and pests would become a severe issue. (This also works in reverse, as organic farms can be islands of safety for
predator insects and pollinators.)
Genetically modified organisms
A key characteristic of organic farming is its rejection of genetically engineered products, including plants and animals.
"GMO-free" is also a popular marketing point for organic food. Actively avoiding GM seeds, growth hormones and the like
represents one aspect. Less publicized, but with potentially greater effect, is the contamination of organic farms with GM
product. The mechanism of cross-contamination is not understood, and only beginning to be studied. Meanwhile, cases of
cross-contamination have been documented, while the extent is still unclear. A first-time study of genetic cross-contamination,
published in Feb-2004, found that at least two-thirds of conventional corn, soybeans and canola in the US contain traces of
genetic material from GM varieties.[4] Along with commercial GM
crops, trials for new GM plants producing food, pharmaceuticals (pharmacrops) and industrial materials (eg: plastics), are being conducted in the US, Canada, and
elsewhere. It is conceivable that genetic contamination could make GMO-free farming next to impossible.
Food contamination
Some critics point out organic food could be less safe than non-organic food, by increasing the risk of exposure to biological
contaminants and food-borne diseases. In particular concerns are related to the use of manure, well known for carrying human
pathogens and presence of mycotoxins from molds. One large, influential French study, evaluating organic and conventional food
during 1999-2000, warned that biological toxins in certain organic products (apples, wheat) should be closely monitored[5] . Food contamination is usually casued by
unhygienic handling and storage, including use of contaminated water, which can occur on-farm, in transit, and at the point of
preparation.
Soil conservation
The practice of ploughing (see tillage)
to prepare soil for planting is claimed to increase soil damage compared to using herbicides, like the market-leading glyphosate, Roundup. In fact, this argument
applies primarily to large-scale, chemical-based agriculture, where huge areas are repeatedly tilled and planted with the same
crops. By using artificial fertilizer rather than replacing organic material, the soil structure is progressively destroyed, and
becomes increasingly susceptible to wind and water erosion. Use of herbicides to kill weeds, instead of plowing them under, may
present a short-term solution to this problem. However, repeated use of herbicides also kills microorganisms that contribute to
the decomposition plant residues that help rebuild the organic matter that holds the soil together. It also encourages the
selection of the most herbicide-resistant weeds, which necessitates increased herbicide use. The argument holds for the
short-term at best, and doesn't really apply to organic farming.
Government subsidies
Some organic farming advocates believe that, even if yields are currently lower, these results are obtained without the huge
subsidies paid to conventional farmers, and expect yields to be equivalent or higher if organic farming were subsidised to the
same level.
Social damage
Critics condemn agribusiness practices for putting small, independent farmers out of business, destroying rural communities in
the process, and causing the "art of farming" to be lost. Small-scale organic farming encourages local economies, and provides
social and employment alternatives to concentrated, energy-dependent urban living, thus improving the quality of life for
everyone.
Sustainability
Although it is common to equate organic farming with sustainable agriculture, the two are not synonymous. Sustainability is a
concept, with the ideal of approaching as closely as possible a balance between what is taken out of the soil - the local
ecosystem - and what is returned to it, without outside inputs. An organic operation that, for example, imports the manure it
uses for compost, must take into account the resources required to produce that manure offsite, when calculating sustainability.
Organic farming today is a small part of the agricultural landscape, with a relatively minor effect on the environment. Looking
forward, if organic practices were to become much more prevalent, a new level of large-scale considerations would then have to be
considered.
The Future
Organic farming is at a crossroads. Despite the growth in the organic food market over the last decade, the future of the
small, independent farmer, organic or otherwise, is as much in jeopardy now as it has been in recent decades. The local
infrastructure to support small farmers is all but non-existent in most developed nations - the current food distribution system
favors high-volume production, and large farming operations. What is commonly known as "organic farming" may change quite
dramatically in the coming few years.
See Also
External links
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