In the field of
agriculture, perspectives are often split as to what is the most
green/ecologically friendly approach (that works). This split is between the
"Environmentalist" (ideal) VS "Agriculturalist"
(practical)- although I personally don't feel the dichotomy is necessary/always
justified. An environmentalist tends to differ in their dislike for
large-scale, capitalized, industrialized production (and from the previous
posts, it does seem like a small-scale approach if with a lot of attention and
passion does work out very well in those case studies). For
example, Joel Salatin does not advocate large-scale agriculture. However, in
the real commercial, profit-driven economy, small farms might not be globally
successful if conditions are not right (e.g. government/community is not supportive), especially given the extensive infrastructure/system that supports
industrial-scale agricultural techniques/ functions i.e. a whole-system might just
not be possible (now at least).
This study by Daviset al shows
that, like Joel Salatin's Polyface Farm, this large-scale approach works too
works! And the results are highly encouraging (summarized in this article: Big, Smart and Green: A RevolutionaryVision for Modern Farming)
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Caption from the site: Two-year corn-and-soy rotation field (left) and four-year rotation field covered in alfalfa (right). Both were photographed in early September, 2012. By using cover crops like alfalfa, researchers achieved dramatic reductions in herbicide, pesticide and fertilizer use without sacrificing productivity. Photo: David Sundberg
http://www.wired.com/images_blogs/wiredscience/2012/10/marsden_fields.jpg |
By using crop
diversification (e.g. 4yrs with 4 crops as compared to normal 2yrs with 2
crops- see the difference visually in the photo above!), they were able to maintain and
even increase yield with very minimal chemical inputs (8 times less). In the
end, weeds were fewer and freshwater sources in proximity had much lower pollution when
compared to conventional systems. I quote: “We exceeded those goals — not by pumping chemicals
in, but by maximizing ecosystem services,” Davis said. “We’re not throwing away
those tools. They’re very important. But you use a strong cropping system as
the foundation for your agriculture. Then, when you need it, you tweak it a
little bit with the inputs.”
By "tuning and
tweaking", this form of farming with "technology's new tools",
this form of farming could be alluded to (but isn't explicitly mentioned by the
researchers) 'precision farming' a recent movement in industrial-scaleagriculture
that has an ecological-bent to it (or it could be motivated by cost-savings,
which isn't mutually exclusive really).
Precision farming
In general,
precision farming ... (Paarlberg, 2010)
- When coupled to conventional agriculture has resulted in a decline from the peak of its negative impacts with an increase in 5% yield with a fall in impact per area in recent years
- Involves no-till techniques which result in decreased soil erosion
- Uses GIS, GPS, Infrared technologies to, for example, measure the depth of the soil so that we know exactly how much to fertilize and this prevents wastage in the process
- Uses GMOs to allow pest control with less chemicals
Ultimately,
proponents argue, there is no limit to impact-reduction possibilities. While
the above benefits might be broad generalizations that do not always hold (and
in this case GMO wasn't necessary with proper crop rotations and integrated
pest management- read more on IPM here*), it is clear that with the use of such technologies coupled to
efforts like that by Davis et al., industrial agriculture could be a part of the reformation of destructive agriculture. A case in point would be the use
of precision farming in contributing to the knowledge of integrated pest
management (using biological methods to control pests) and for site-specific
weed control (Gerhards, 2011)
In conclusion...
Precision
agriculture when used to investigate and take advantage of ecological principles with the use of small amounts of chemical, is a thoughtful and
beneficial approach to large-scale farming that should be put in place more and
more rapidly (given that most of the appropriate infrastructure is in place!).
All is needed now is more awareness of this approach perhaps and more research
in terms of how this can be applied for different crops (Bramley, 2008).
It is definitely
stepping in a right direction of using science to care for nature and reaping
the benefits that that brings :)
* I quote a useful definition from the article:
"IPM involves the concerted use of multiple tactics to suppress and kill pests and reduce crop damage to economically acceptable levels. Emphasis is placed on modifying habitat characteristics toreduce pest densities and promote crop health, conserving and releasing beneficial
organisms that attack pests, and planting pest-resistant cultivars.
Pesticides are used in IPM systems as therapeutic tools only when preventive
practices fail to provide adequate control. "
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