Top Tech Trends of Agriculture Industry 2023
Modern farming and agricultural practices no longer remind us of the patience and sweat intensive work that farmers do in the field.
However, agriculture trends have seen a booming rise in agricultural output over the last decade, as well as many examples of modern farming.
In this blog, we will look at the most recent tech trends of the agriculture industry that have helped improve farmer welfare and agricultural production around the world.
Let's begin.
Top 10 AgTech Trends to Watch Out in 2023
Here is a list that we have put together of the top 10 tech trends of the agriculture industry in 2023. Now let's look at them:
1. Bee Vectoring Technologies
BVT uses commercially-reared bees for targeted crop control through pollination. This safe crop protection system replaces chemical pesticides.
It is vital to know that the utilization of tractors or water sprays is optional with this approach. This tech designed bumblebee hive allows the bees to pick up a small amount of pesticide powder on their legs and spread it as they move around the field.
This innovation in agriculture software development technology helps to improve soil quality, crop yield and sustainable farming. BVT's solution works with many crops. For example apples, tomatoes, blueberries, sunflowers and sunflowers. It also works on farms of any size.
2. Precision Agriculture
Precision farming is the next most famous tech trend in the agriculture industry. Farmers can master plant knowledge by using cutting-edge technology. These tools give farmers all the information that they need in their fields. They can see if the soil needs to be protected from the weather.
Fields contain different soil types, light exposure, and slopes, so consistent fertilization might be more effective and practical. The agriculture software development company has developed precision agriculture solutions that boost profitability and optimize input applications.
3. AI and Machine Learning
AI and Machine Learning are like having an intelligent farming companion. Imagine a virtual assistant who learns based on data from your fields, weather predictions, and previous crop performance. It can predict when to plant, harvest or apply fertilizers.
In agricultural biotechnology, ML algorithms help in gene selection. AI opens the door to alternative credit scores, which can be used to extend financial access to farmers who traditional banks overlook.
Innovative startups are also using AI to improve the quality of harvest. You should also Hire Agriculture Software Developer who can build an agritech app using AI and ML technology. The harvest quality vision technology, for example, scans and measures the quantity and quality of fruits and vegetables.
4. Smart Farming Equipment
Smart Farming Equipment is about making farming equipment smarter. Imagine harvesters and tractors with sensors and automation similar to those found in high-tech cars. GPS and sensors guide these machines.
These machines collect data in real-time about soil, weather, and crops. This allows farmers to make better choices.
The technology increases efficiency and reduces the time farmers spend manually operating machines. It saves money and time while improving farming practices.
5. Indoor Vertical Farming
Between three and six tonnes of rice are produced on average per acre. Indoor vertical farming allows farmers to overcome this problem. Indoor vertical farming is a controlled and closed environment that allows farm products to be grown in stacks.
Growing shelves are mounted vertically in order to maximize crop production. The frames are often hydroponic and aeroponic, so they don't need soil.
6. IoT Technology
IoT technology is revolutionizing how growers, advisors and ag retailers interact with farms. Acres, for example, are developing technology to monitor farmland in order to provide valuable data about the productivity and value of large areas.
Microsoft's Future Toolkit is an example of a technology that excels in the IoT area. IoT irrigation systems also integrate sensors to automate crop watering. Evaporation and soil moisture sensors are examples of these.
Various agriculture software development services providers are developing sensor solutions that link IoT technology with drones and robots. They also integrate computer imaging. This improves the precision, agility and responsiveness of farming while providing timely alerts to areas that need attention.
7. Agri Drones
Crewless airplanes gather raw data, which is subsequently turned into insightful information to guarantee thorough farm management. Drones with cameras simplify aerial surveying and imaging.
Farmers use them for precision agriculture to improve the application of seeds, pesticides, water and fertilizers. Drones can capture images from a wide range of angles, including standard visible-light photos to multispectral imaging, which is useful for crop, soil and field analysis.
Additionally, drones may automate processes like geofencing and grazing observation. Drones are not suitable for monitoring poultry due to the potential bird disturbance.
However, they can be highly effective when watching livestock, grazing, and crop cultivation.
Startups also explore drone technology to measure chlorophyll, assess weed pressure, as well as evaluate soil mineral and chemical content.
8. Big Data & Analytics
Information on crop health, crop area, production, irrigation, agricultural prices, and land usage are all important for the upcoming season.
Data analytics and big data tools are used to analyze weather, agricultural machinery, water cycle, crop quality and quantity, as well as data from the environment.
This data driven method allows farmers by revealing hidden patterns. Farm analytics solutions are now available which enable farmers to leverage their field data in a better way.
For instance, farm analytics provides data driven insights into soil nutrients, acidity or alkalinity levels, and fertilizer requirements which enables right decisions.
9. Regenerative Agriculture
In keeping with the theme, increased sustainability will continue to be the main concentration of agriculture companies. By using cover crops, crop rotation, and less tilling, they will discover ways to replenish the soil's nutrients.
This conservation strategy focuses on improving soil health which results in increasing biodiversity and reducing water consumption. Many technologies and practices can be used. We need to figure out how to regenerate soil in order to save the ecosystem and improve food security.
10. Water Management
Earth is 71% water. However, more than 96% of that is in the oceans—more than freshwater is needed for agriculture. The majority of water available is actually used for agriculture. Water optimization is a top priority.
Artificial intelligence is useful in irrigation innovation. For example, sensors detect leaks and malfunctions automatically and instantly. In turn, this allows irrigation systems to be repaired earlier, which reduces the amount of water lost due to leakage.
Water is an integral part of agriculture, and there will never be one solution. In the future, there will be more and better solutions to reduce water consumption.
Conclusion
The size of the world's agritech market, estimated at USD 24491.35 million in 2023, is anticipated to grow throughout the forecast time frame, hitting USD 49211.55 million by 2031.
Now that you know, there is a huge demand for agriculture technology that opens a channel for businesses to invest in agritech development by taking assistance from a custom software development services provider.
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