New technologies change the
world its also work for agriculture field. Sometimes
you are out in the middle of
nowhere and need to make an unexpected repair, but you don’t have the right
tools. Not a problem for a farmer. In a pinch you can make something else work
for you 9 times out of 10.
Farmers are also great at
adopting new technology. Nowadays machine and tools on many farm, ranches
and agriculture based company are very sophisticated. From tractors that drive
themselves to cows that text, the modern farmer’s toolbox contains a host of
cool toys.
Here are few of the most
advanced agricultural technologies using today:
Advanced Tractors on Autopilot
Tractors are the power of in
agriculture. Thanks to GPS tractors, combines, sprayers and more can accurately
drive themselves through the field. After the user has told the onboard
computer system how wide a path a given piece of equipment will cover he will
drive a short distance setting A & B points to make a perfect line. Then
the GPS system will have a track to follow and it extrapolates that line into
parallel lines set apart by the width of the tool in use.
These systems are capable of
tracking curved lines as well. The tracking system is tied to the tractor’s
steering, automatically keeping it on track freeing the operator from driving.
This allows the operator to keep a closer eye on other things. Guidance is
great for tillage because it removes human error from overlap, saving fuel and
equipment hours. Trust me when I tell you that once you starting auto tracking,
you’ll never go back manual steering.
Time And Effort Saving Technology Sugarcane Harvester
The machine, originally
developed in the 1920s. The huge market for cane harvester in India.
Demand for such machines is expected to grow with rising cost of farmer.
Harvesting of sugarcane at a proper time i.e., peak maturity, by adopting right
technique is necessary to realize maximum weight of the malleable canes
produced with least possible field losses under the given growing environment.
On the other hand harvesting
either under-aged or over-aged cane with improper method of harvesting leads to
loss in cane yield, sugar recovery, poor juice quality and problems in milling
due to extraneous matter.
Therefore, proper harvesting
should ensure:-
·
To harvest the cane at peak maturity.
·
Cutting cane to ground level so that
the bottom sugar rich internodes are harvested which add to yield and sugar
·
De-topping at appropriate height so
that the top immature internodes are eliminated
·
Proper cleaning of the cane i.e.,
removing the extraneous matter such as leaves, trash, roots etc.
·
Quick disposal of the harvested cane to
factory
Amazing Swath Control and
Variable Rate Technology
Building on GPS technology are
swath control and VRT. This is where guidance really begins to show a return on
investment. Swath control is just what it sounds like. The farmer is
controlling the size of the swath a given piece of equipment takes through the
field. This video is a great visual representation of how swath control works.
The savings come from using
less inputs like seed, fertilizer, herbicides, etc. Since the size and shapes
of fields are irregular you are bound to overlap to some extent in every application.
Thanks to GPS mapping the equipment in the field already knows where it has
been. Swath control shuts off sections of the applicator as it enters the
overlap area, saving the farmer from applying twice the inputs on the same
piece of ground.
Saving a Lot to use Vertical
Farming
A natural extension of urban
agriculture, vertical farms would cultivate plant or animal life within
dedicated or mixed-use skyscrapers in urban settings. Using techniques similar
to glass houses, vertical farms could augment natural light using
energy-efficient lighting. The advantages are numerous, including year-round
crop production, protection from weather, support urban food autonomy and
reduced transport costs.
Sensing How Your Crop Is Feeling
Crop sensors is taking variable
rate technology to the next level. Instead of making a prescription fertilizer
map for a field before you go out to apply it, crop sensors tell application
equipment how much to apply in real time. Optical sensors are able to see how
much fertilizer a plant may need based on the amount of light reflected back to
the sensor. I haven’t seen one of these systems in operation yet, but I’m
keeping a close eye on them. It’s fairly new and pretty expensive, but I see
huge potential here. Crop sensors are going to help farmers apply fertilizer in
a very effective manner, maximizing uptake and reducing potential leaching and
runoff into groundwater.
Old but Gold Biotechnology
Biotech or genetic engineering
is not new tech most of the farmer aware of this technology, it is a very
important tool with much more potential and effective yet to be unleashed. The
other would likely be insect resistant traits. Crops can be made to express
toxins that control particular pests according to requirement. Many employ Bt toxin
that is the same toxin found in some organic pesticides. That means a farmer
won’t have to make a pass through his fields to apply pesticide, which not only
saves on pesticide, but fuel, labor, and wear on equipment too.
New biotech coming online right
now are things like drought resistant traits and nitrogen use efficiency. What
does that mean? In short it means that crops are going to be able to protect
more potential yield in drought conditions is helpful for farmers. Another way
to look at it would be that farmers who irrigate their crops can cut back on
water use and not see yields suffer. Nitrogen use efficiency is a lot like that
except you’re doing it with fertilizer instead of water. A single crop variety
can be made to express one, two, three or potentially even all of these traits
in a single
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