Precision Farming is a modern approach to agriculture. It
engages the right amount of nutrients to the crop root zone, and thus helps
farmers grow more, and grow better in lesser resources. Precision farming
applies IT to achieve the global objectives of optimum production, sustainable
profits, better quality crops, and environment protection.
If you are a farmer, an agricultural investor, or a part of
the farming ecosystem, looking forward to adopting precision farming, read this
blog to understand the concept of precision farming technology.
The Need for Precision
Farming Technology:
Precision farming is a result of farmers’ battle with
traditional agricultural challenges such as irregular rainfall, scarcity of water,
inaccurate projections leading to substantial financial losses, deteriorating
crop quality, and decreasing crop yield. It is a sustainable and fruitful
solution to most of the farming concerns. It aims at making farming a
profitable and encouraging occupation.
Of course, precision farming technology is evolving, and there’s a lot that’s yet
to come. However, with everything that’s already achieved, it seems extremely
promising.
Technologies used in
Precision Farming:
Precision farming is an organized way of eliminating or
diluting every agricultural challenge through the use of specialized software
and sophisticated gadgets. It involves sensors, satellite aid, and robotic
drones, along with predictive analytics to manage various agricultural
activities, make predictions, and understand agricultural elements better.
Benefits of Precision
Farming Technology in Agriculture:
Years ago, no one ever imagined that data, in an
instinct-driven activity, would become so important. But, technology, as we
know, unleashes possibilities, and that’s what happened in the case of farming.
1.
Effective Soil and Crop
Management through Predictive Analytics:
Precision farming technology helps access real-time data about
conditions associated with crops, soil, and the weather. Besides, it also helps
estimate labor costs for a particular activity. Predictive Analytics, on the
other hand, leverages data to guide farmers on crop rotation, harvesting
period, and the best sowing time, along with efficient management of soil.
2.
Informed-Decision Making:
The use of sensors helps farmers compute moisture levels,
soil, and surrounding temperature to make informed decisions on Digital farming. It avoids losses on account of incorrect calculations, and
comprehensions, which was quite common in the yesteryears.
3.
Personalized Attention to
every plant:
The use of robotic drones and satellite aid proves helpful
while gathering real-time images of every plant. Unlike conventional farming,
wherein inspecting every plant is a herculean task, drones simplify the
inspection aspect, and capture live images of every plant. Integrating the
image-data with sensors and other relevant information helps farmers decide on
the water supply to every plant.
4.
Optimum use of Resources.
No Wastage:
As a result of the above, farmers make optimum use of
resources. They don’t waste them, as they know when, where, how, and how much
to invest, and harvest. While better crop quality and increased crop yield help
farmers earn profits, the money they save through data-driven decisions, and
prudent use of resources also contributes to their income.
Conclusion:
In view of futuristic challenges,
harnessing the power of technology is the only way through which we can achieve
the highest levels of agricultural productivity. Precision farming technology
is something that every country and every farmer must look forward to adopting.
Netafim’s precision farming solutions aim at helping farmers
overcome natural, technical, and strategic challenges. The company continues to
deliver results and works towards the betterment of farming.