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Terrace Farming
What
Is Terrace Farming?
By
Evan Levy
Earth.com
staff writer
People around the world have discovered
clever ways to farm in tough conditions.
Their land could be too dry, too wet, too
hot, or prone to insects or damaging storms.
If the land is too steep, people might try
terrace farming.
Cultures in Peru, Japan, the Philippines,
Mexico, the Mediterranean, East Africa, Yemen, and China have all independently
created the concept of terracing.
Why Doesn’t Regular Farming Work on Hills?
Conventional farming removes all trees and
plants to replace them with a crop, such as wheat.
This sort of farming fails on steep slopes
because it creates erosion and landslides.
Erosion is the process of soil wearing away
due to water or wind.
Without trees and other vegetation to slow
down water, rain storms cause significant erosion on the land.
The water has less resistance as it runs down
the hill, so it can run faster and pick up more soil as it moves.
This erosion carries vital nutrients and
productive soil downhill, away from the farmland.
Over many years, this sort of erosion can
cause a slope to become infertile.
Additionally, a de-vegetated slope is more
prone to mudslides if it becomes waterlogged from lots of rain.
A mudslide could ruin an entire year’s crop
and make the land much harder to farm in the future. Yikes!
How Is Terracing Done?
Terracing turns a slope into level, benched
out steps by moving soil and creating retaining walls.
This restructuring allows un-farmable
hillsides to become stable, productive farmlands.
Some typical crops grown in terraces include
barley, wheat, potatoes, corn, tea, olive, grape vines, coffee, and rice.
A terrace is typically about 2-3 meters wide
and 50-80 meters long. Some terraces flood with rain water, such as those used
to farm rice.
A terrace usually has one outlet for water to
drain into the terrace below. This lower terrace stops the water and prevents
it from gaining enough speed to cause erosion.
This way, the water deposits any soil in the
downhill terraces as it slows down.
Advantages of Terrace Farming
Science has validated the millennia-old
tradition of terrace farming.
When growing potatoes in Canada, researchers
found that terracing on a steep slope reduced erosion by 20-1.
In Japan, terracing even reduced erosion
compared to the same landscape planted with trees!
In China, terracing on a shallow slope
decreased soil nutrient loss by 90%.
It also decreased the amount of soil lost by
60-90%, and increased general soil moisture by 21%.
In arid regions of Ethiopia, terraced farms
produced up to 33% more food during drought years compared to conventionally
farmed slopes.
Terracing increases soil moisture because
rain to soaks into flat areas rather than running downslope.
Many dry regions will become more arid with
climate change. This means terracing is a climate resilient solution.
Terracing was used to supply in the Incan
empire with much of its food.
It is believed the Incans farmed the area of
Yellowstone using terraces. Machu Picchu is a stellar example of well-built
terraces.
Preserving Cultures
Culturally, terrace farming preserves
indigenous techniques from around the world.
An area in the Philippines received the first
“Living Cultural Landscape” designation by UNESCO.
There, cultures wove the farming technique
into their land and traditions for centuries.
Machines such as tractors and chemical
appliers aren’t used on terraces because of the structures’ highly irregular
shapes.
This lack of mechanized labor promotes
traditional ways of living, such as farming small pieces of land with hand
tools.
Without machines and chemicals, terrace
farming has a much lower carbon footprint than conventional farming.
Challenges
Terrace farming certainly has difficulties,
as well.
Terracing requires massive inputs of labor.
Creating a terrace requires moving tons of
soil and building hundreds of meters of stone walls, typically by hand.
Once established, terraces need routine maintenance
to continue functioning.
Historically, labor was readily available in
rural, mountainous areas of the world.
Currently, however, young, able-bodied people
move to cities to become educated and work higher paying jobs.
Older women and men maintain the terraces,
instead.
This lack of labor results in less upkeep.
Once a terrace is abandoned, the retaining walls crumble and nearly all of the
productive topsoil is lost to wind and water erosion.
From a natural point of view, steep slopes
are some of the only areas spared from human manipulation.
In places where all flat areas and small
hills have been deforested, steep slopes are important for the remaining
wildlife and plants.
If terrace farming increases, these remnant
ecosystems will inevitably be lost.
Terracing At Home
Terracing is not only applicable to farmers.
Many homeowners build terraces if their yard
is on a slope!
Homeowners can then grow gardens and fruit
trees, or create pleasant sitting areas where previously they had an unusable
slope.
Garden terraces also make for beautiful
landscapes.
And as an added plus, if you grow berries on
terraces you can pick them from the terrace below without having to bend over!
Evan
Levy
Contributing
Writer
Member
of the Optimotive writing
team
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