By 2050, the demand for food will surge by 70%, in line with rapid population growth. According to a UN report, 9.9% of the world’s population still experiences hunger, making the idea of providing food for roughly 10 billion people a daunting task. Given how unpredictable environmental changes are, we must rely on advancements in agricultural technology. Let’s look at the top agriculture software development trends for 2023.
Thanks to the latest agribusiness trends, we do not have to wait for decades to witness the impact of cutting-edge agricultural technology and the effect it will have on human life.
These emerging trends in agriculture inventions indicate a shift toward innovative farming and the effective use of time and resources while minimizing crop losses. The use of emerging technologies like the Internet of Things (IoT), computer vision, and artificial intelligence (AI) for farming is known as “smart farming.”
By taking over manual agricultural tasks like fruit picking, weeding, and watering, robots and drones are increasing farm innovation and automation. A high-resolution and site-specific view of the field is provided by imagery from drones and satellites combined with the Global Positioning System (GPS).
1. Indoor Vertical Farming
When adopting indoor vertical farming, farmers are exempt from this restriction of the average yield of crop production. Farm products are grown indoors using vertical farming techniques in a controlled, enclosed setting. The method uses vertically placed growing shelves to boost agricultural productivity in constrained areas. The shelves frequently don’t need soil because they’re either hydroponic or aeroponic:
Growing plants in water and fertilizer solutions, is known as hydroponics. In aeroponics, plant roots are suspended in the air and periodically sprayed with water and nutrients by emitters. Growers can control factors like light, temperature, water, and occasionally carbon dioxide levels in indoor vertical farms, which helps them produce healthier and larger yields.
Other benefits of software development and the use of technology include 70% less water usage, which conserves energy, and reduced labor costs due to the use of robots for harvesting and planting.
2. Precision Agriculture
It is an approach to managing agricultural resources that gathers, analyses, and assesses data and provides insights to assist farmers in enhancing and raising soil quality and productivity.
Precision agriculture data points are used to inform management decisions to enhance farmland and agricultural products in a number of crucial areas including:
- Efficient utilization of resources
- Productivity/ Quality
This advancement in agricultural technology makes use of big data to support management choices, allowing farmers to optimize output by controlling crop yield characteristics including moisture content, soil quality, and microclimates. It uses robotics, automation, robotics, and remote sensing technologies to enhance crop health and maximize agricultural resources, increasing productivity.
Grand View Research predicts a 13.1% CAGR will bring the global market for precision farming to $16.35 billion by 2028. The organization believes increasing government support and the growing need for efficient crop health monitoring will drive market growth.
3. Livestock Farming Technology
New livestock technology gives farmers data-driven insights that help them to organize their operations, take better care of their animals, and increase output.
Without human assistance, automated dairy installations milk cows, and milk sensors also assist farmers in keeping an eye on the milk quality. Waste is removed by automated cleaning systems, creating healthier surroundings free of disease.
Animals are given the proper amount of food combinations that are formulated to meet their individual demands using automated feeder systems. Robotics, artificial intelligence, and big data are used by Faromatics to improve farm productivity and animal care.
4. Bee Vectoring Technologies
When it comes to US crop production alone, honey bees are worth almost $20 billion. Due to the importance of these insects to human life, agricultural equipment is becoming more innovative to preserve bees and enhance their pollination skills.
In place of chemical pesticides, BVT uses commercially raised bees to offer specific crop controls through pollination. This crop protection method is safe for the environment.
The system does not require the use of tractors or water spraying. Instead, a bumblebee hive with a scientific design enables the bees to pick up a tiny amount of pest control powders on their legs to spread as they move around the field.
5. Laser Scarecrows
Crops growing in an open field may be threatened by obtrusive birds or rodents. Farmers used traditional scarecrows in the past to fend off ravenous visitors. However, to prevent birds from stealing food, farm owners and managers are now using high-tech gadgets with motion sensors.
A University of Rhode Island researcher assisted in the creation of a laser scarecrow that emits green laser light after learning that birds are sensitive to the color green. The light can shoot 600 feet across a field to alarm birds before harming crops, but it cannot be seen by people in sunlight.
Early research on laser scarecrows revealed that by reducing bird populations near farms by up to 70% to 90%, the devices can reduce crop damage.
6. Farm Automation
This combines electrical devices, chemical sensors, computer systems, electronics, and data management to enhance equipment performance and decision-making, ultimately lowering human input and error.
The widespread adoption of the technology is being driven by decreased work time, increased yields, and resource efficiency. The way that farmers cultivate their crops has changed thanks to the use of automated harvesters, drones, autonomous tractors, seeding, and weeding. They can concentrate on more important tasks because the technology handles tedious and repetitive tasks.
Automation can help staff members save time because it eliminates the need for them to actively participate in a task, as is the case in every field (pardon the pun). Most farmers now spend more time with their families than they did in the past thanks to automation.
7. Real-time Kinematic (RTK) Technology
Robert Salmon, a farmer in the UK discovered that by limiting agriculture equipment to a fixed lane, one can decrease soil damage to a huge extent.
Accurate methods are needed to implement a controlled traffic system, which is virtually unattainable with conventional GPS systems.
RTK technology can deliver centimeter-level accuracy, enabling farmers to precisely map their fields and shackle cars to the same lane indefinitely. Tractors can stay on course while moving because it sends the correct positioning data to them via radio signal. By improving soil health and productivity, this invention increases output while requiring less input.
8. Minichromosome Technology
As per Agritech tomorrow, the growing population and the demand for food will increase which means that the farmers will have to increase crop production by at least 23% to maintain the crop production standards.
Therefore, losing entire yields to pests becomes a major problem when the global population grows. Genetically most of the modified food has received a lot of flak over the years. Many studies suggest that this may link to allergic reactions and also include harmful toxins that will expose humans to various kinds of health risks.
G.M. Food products can also disrupt natural biodiversity and release toxins into the soil which becomes another issue. However, agricultural geneticists can apply minichromosome technology that enhances a plant’s traits without altering the genes.
Though genetic material contains small amounts of minichromosomes, it is always possible to use this technology by making plants even more drought-tolerant and resistant to pests without interfering with the natural development of the host.
Minichromosome technology allows genetic engineers to create those crops that require fewer pesticides, fungicides, and fertilizers, which reduces reliance on harmful chemicals. It also helps them achieve bio-fortification and enhances a plant’s nutritional content.
9. Farm Management Software
Farmers struggle to make ends meet and end up struggling with a huge chunk of workload and getting little help from others. The bigger the farm, the more daunting it is to overlook all the operations. In the age of SaaS, the app is for everything including farm management.
Farm management software is one of the best inventions in agriculture as an integrated platform that provides real-time data and information through a digital checklist to assist farmers with tracking their daily activities. With the working model on agriculture and technology and this monitoring and reporting software, farmers can now improve decision-making with all the operations.
These advanced technologies and automation allow enterprise resource planning for farmers to streamline their processes and enable seamless collaborations. It lets users manage the entire procurement, finances, supply chain, and processing from a single hub.
The agriculture inventions with the new agriculture technology in modern farming will continue to advance when internet-enabled devices will become ubiquitous. Mordor Intelligence predicts that the farm management software market will witness a growth trajectory with a CAGR of 11.2% in the ten years leading to 2026.
10. Water Management Technology
Irrigation is one of the most essential methods of watering the drylands that get insufficient rainfall in order to make them arable. While it is a crucial aspect of farming today, most farmers irrigate their fields with wasteful amounts of water the same way the Mesopotamians had to over 4,000 years ago.
This method did not only waste over 2/3rds of the water but flood irrigation can overwater plants that impact their growth. They could also carry an excess of fertilizers into lakes and streams that further contaminate freshwater sources.
Agriculture innovation and technology offer farmers with sustainable methods for irrigation. For instance, N-Drip, a micro drip irrigation system, allows water to slowly drip to plants’ roots, creating the right environment for crops to thrive. The technology reduces water usage by up to 50% and improves crop quality.
The N-Drip micro flow irrigation system creates the ideal conditions for crops to flourish by allowing water to drip slowly to plant roots. The method enhances crop quality while cutting water use by up to 50%.
Sustainable farming is a hot topic at a time when worries about the environment and climate change are at an all-time high, including advances in precision agriculture, farm automation, genetics, and water management.
Hire the best Agriculture Software Development Company
Agribusiness trends have come to the forefront of all the agriculture startups and best agriculture technology firms ever since the fear of climate change and environmental concerns are at an all-time high. This has made sustainable farming a hotbed issue. Farming may now be done more smartly, safely, and productively thanks to agricultural inventions and breakthroughs in innovative farming.
We are a leading agriculture software development company that specializes in providing advanced technologies and automation solutions through our innovative farming technology. Do you have a project in mind? Contact us now to get started!
Frequently Asked Questions
What are the latest trends in agriculture?
Here are some of the latest trends in agriculture:
- Bee Vectoring Technologies
- Precision Agriculture
- Indoor Vertical Farming
- Livestock Farming Technology
- Laser Scarecrows
- Farm Automation
- Real-time Kinematic (RTK) Technology
- Minichromosome Technology
- Farm Management Software
- Water Management Technology
What is the future of AgriTech?
The future of agritech has made agriculture smarter and safer for innovative farming. With the new agriculture inventions and devices, these trends in agriculture will allow farms to be more profitable, efficient, safe, and environmentally friendly.
What is the latest technology in agriculture?
Farmers now use automated harvesters, drones, autonomous tractors, seeding, and weeding to transform how they cultivate their crops. The technology takes care of menial and recurring tasks, allowing them to focus on more critical functions.
What are 5 examples of technologies used in agriculture?
Here are 5 examples of technologies used in agriculture such as aerial imaging, GPS mapping, precision agriculture, monitoring software, etc. are all frequently used with the advancements in agriculture inventions. Agribusiness trends can become even more productive due to cutting-edge equipment, farming management systems, and precision agriculture techniques.