A recent paper published in Science (Reganold et al. 2011. Transforming U.S. agriculture. Science 332: 670-671) calls for transformative approaches to make agriculture more sustainable.
In their words: “The transformative approach builds on an understanding of agriculture as a complex socioecological system. Transformative change looks to whole-system redesign rather than single technological improvements. Examples of such innovative systems make up a modest, but growing, component of U.S. agriculture and include organic farming, alternative livestock production (e.g., grass-fed), mixed crop and livestock systems, and perennial grains. Such systems integrate production, environmental, and socioeconomic objectives; reflect greater awareness of ecosystem services; and capitalize on synergies between complementary farm enterprises, such as between crop and livestock production.”
Such a transformation is necessary because agriculture in the US and many other countries is at a critical juncture. As the paper admits, although US farms have provided growing supplies of food and other products, they have also been major contributors to global greenhouse gas emissions, biodiversity loss, natural resource degradation and public health problems.
The article by David Suzuki below also points out that large-scale industrial article is clearly not a solution, but that alternative agricultural approaches, including small-scale farming and especially using organic methods, could be both productive and environmentally-friendly.
The Science paper argues that while such sustainable agricultural systems exist – suggesting that technical obstacles are not the greatest barrier – there needs to be incentives for appropriate markets, reform of US farm-related policies, and reorientation of publicly funded agricultural science in order to hasten their implementation.
With best wishes,
Small farms may be better for food security and biodiversity
By David Suzuki, June 14, 2011
We often assume the only way to feed the world’s rapidly growing human population is with large-scale industrial agriculture. Many would argue that genetically altering food crops is also necessary to produce large enough quantities on smaller areas to feed the world’s people.
But recent scientific research is challenging those assumptions. Our global approaches to agriculture are critical. To begin, close to one billion people are malnourished and many more are finding it difficult to feed their families as food prices increase. But is large-scale industrial farming the answer?
Large industrial farms are energy intensive, using massive amounts of fossil fuels for machinery, processing, and transportation. Burning fossil fuels contributes to climate change, and the increasing price of oil is causing food prices to rise. Deforestation and ploughing also release tonnes of carbon dioxide into the atmosphere, contributing further to climate change. And industrial farms require more chemical inputs, such as pesticides and fertilizers.
Agriculture also affects the variety of plant and animal species in the world. According to a review of scientific literature by Michael Jahi Chappell and Liliana Lavalle, published in the journal Agriculture and Human Values, agricultural development is a major factor in the rapid decline in global biodiversity.
In their study—"Food security and biodiversity: can we have both?"—the authors note that agriculture, which takes up about 40 percent of the world’s land surface (excluding Antarctica), “represents perhaps the biggest challenge to biodiversity” because of the natural habitat that gets converted or destroyed and because of the environmental impacts of pesticide and fertilizer use and greenhouse gas generation from fossil fuel use.
Large-scale agriculture also uses a lot of water, contributes to soil erosion and degradation, and causes oxygen-starved ocean “dead zones” as nitrogen-rich wastes wash into creeks and rivers and flow into the oceans.
On top of that, despite the incredible expansion of industrial farming practices, the number of hungry people continues to grow.
Concerns about industrial agriculture as a solution to world hunger are not new. As author and organic farmer Eliot Coleman points out in an article for Grist.org, in the 19th century when farming was shifting from small scale to large, some agriculturists argued “that the thinking behind industrial agriculture was based upon the mistaken premise that nature is inadequate and needs to be replaced with human systems. They contended that by virtue of that mistake, industrial agriculture has to continually devise new crutches to solve the problems it creates (increasing the quantities of chemicals, stronger pesticides, fungicides, miticides, nematicides, soil sterilization, etc.).”
Volumes of research clearly show that small-scale farming, especially using “organic” methods, is much better in terms of environmental and biodiversity impact. But is it a practical way to feed seven billion people?
Chappell and Lavalle point to research showing “that small farms using alternative agricultural techniques may be two to four times more energy efficient than large conventional farms.” Perhaps most interesting is that they also found studies demonstrating “that small farms almost always produce higher output levels per unit area than larger farms.” One of the studies they looked at concluded that “alternative methods could produce enough food on a global basis to sustain the current human population, and potentially an even larger population, without increasing the agricultural land base.”
This is in part because the global food shortage is a myth. The fact that we live in a world where hunger and obesity are both epidemic shows that the problem is more one of equity and distribution than shortage. With globalized food markets and large-scale farming, those with the most money get the most food.
It’s a crucial issue that requires more study, and the challenges of going up against a large industrial force are many, but it’s hard to disagree with Chappell and Lavalle’s conclusion: “If it is...possible for alternative agriculture to provide sufficient yields, maintain a higher level of biodiversity, and avoid pressure to expand the agricultural land base, it would indicate that the best solution to both food security and biodiversity problems would be widespread conversion to alternative practices.”
We need to grow food in ways that make feeding people a bigger priority than generating profits for large agribusinesses.
Written with contributions from David Suzuki Foundation editorial and communications specialist Ian Hanington. Learn more at www.davidsuzuki.org.