Population growth will raise food consumption 70% by 2050. According to UN study, 9.9% of the world’s population is hungry, making feeding almost 10 billion mouths difficult. We need agricultural technology innovation to predict environmental changes. Signals are promising. Creative agricultural solutions can change human lives today. Read on for 2023 agricultural innovation and technology. Technology is transforming how farmers grow, transport, store, and manage crops. Honey bees produce $20 billion in US crops. Bees are essential to human life, thus agricultural technology is emerging to protect and improve pollination. Here we will discuss about New Disruptive Technology Innovations in Agriculture 2023.
List of Technology Innovations in Agriculture 2023
- BEE vectoring technologies
- Agriculture Precision
- Vertical Farming in the Home
- Animal Farming Technology
- Scarecrows with Lasers
- Farm Automation
- RTK (Real-Time Kinematics) Technology
- Minichromosome Engineering
- Farm Management Software
- Water Management Technology
Details are here for new Technology Innovations in Agriculture 2023
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1. BEE vectoring technologies
BVT pollinates crops with commercial bees instead of insecticides. The method does not require tractors or watering. Instead, the scientifically constructed bumblebee hive lets bees take up a trace of pest control powders on their legs and spread it about. This agricultural technology improves soil, crop, and farming sustainability. BVT works for blueberries, sunflowers, apples, and tomatoes on farms of various sizes.
2. Agriculture Precision
Precision agriculture collects, processes, and analyzes data to help farmers optimize soil quality and productivity. Precision agriculture data is utilized to manage farmland and agricultural output in several crucial sectors, including:
- Resource utilization efficiency
- Sustainability
- Profitability
- Productivity Quality
Big data helps farmers optimize crop yield by adjusting moisture, soil, and microclimates. Remote sensing, drones, robotics, and automation improve crop health and resource utilization, increasing productivity. The organization predicted market growth from government support and the need for efficient agricultural health monitoring..
3. Vertical Farming in the Home
Rice yields per hectare average 3–6 tons. Indoor vertical farming eliminates this barrier for farmers. Indoor vertical farming stacks crops in a controlled environment. Vertical growing shelves increase crop yield in compact spaces. Hydroponic or aeroponic shelves don’t need soil. Aeroponics uses emitters to hydrate and nourish crop roots in the air. Gardeners can control light, temperature, water, and carbon dioxide levels in indoor vertical farms, resulting in healthier plants and larger yields. The technology uses 70% less water, saving energy, and harvesting and planting robots save labor costs..
4. Animal Farming Technology
Data-driven livestock technology improves farm management, animal care, and output. These advances change cow farming: Farmers use milk sensors to assess milk quality from automated dairy systems. Automated cleaning systems disinfect. Armenta’s non-antibiotic bovine mastitis treatment leverages $6 billion acoustic pulse technology (APT). Automated feeders provide animals the proper quantity of tailored meals. Robots, AI, and big data help Faromatics enhance animal care and agricultural output.
5. Scarecrows with Lasers
Birds and rodents can ruin field crops. Traditional scarecrows warned farmers of ravenous attackers. Farm managers are using motion-sensored devices to deter birds from stealing crops. A University of Rhode Island researcher helped build a green laser scarecrow after discovering birds are sensitive to green. In sunlight, the light is invisible to humans but can shoot 600 feet across a field to scare birds before damaging crops. Laser scarecrows prevent crop damage by 70% to 90% by reducing bird populations around farms.
6. Farm Automation
Farm automation improves equipment performance and decision-making while eliminating human input and error. Faster work, higher yields, and better resource use propel the technology’s widespread adoption. Drones, harvesters, self-driving tractors, sowing, and weeding are changing agriculture. Workers can focus on vital tasks since technology handles boring jobs. Automation saves time in any industry. Mechanization gives most farmers more time with their families.
7. RTK (Real-Time Kinematics) Technology
UK arable farmer Robert Salmon observed that limiting agricultural tractors to a lane dramatically reduced soil degradation. In 2016, Robert aims to convert his 4,800 acres to a 12-meter regulated traffic system with one permanent traffic lane. A regulated traffic system requires precision that ordinary GPS devices cannot provide.
8. Minichromosome Engineering
Agritech Tomorrow estimates that farmers must increase agricultural output by 23% to maintain living standards owing to rising population and food demand. With a growing population, pests will wipe out crops. Recent study suggests that genetically altered foods may trigger allergic reactions or contain harmful toxins. Genetically engineered foods may harm biodiversity and pollute soil. Thankfully, there is hope. Minichromosome technology can improve plant traits without modifying genes. Minichromosomes carry little genetic material, therefore this method can produce plants drought-tolerant or pest-resistant without disrupting host development.
9. Farm Management Software
Farmers work long hours alone. Managing multi-enterprise farms is difficult. SaaS apps manage farms. Farm management software tracks everyday operations with real-time analytics. This software aids farmer decision-making. FarmERP, an ERP solution, helps farmers streamline and collaborate. Centralize procurement, supply chain, financing, and processing. Internet-connected devices will improve agriculture. Mordor Intelligence forecasted 11.2% CAGR for farm management software between 2016 and 2026.
10. Water Management Technology
Irrigation is needed in arid areas. Many farmers over irrigate their fields, like the Mesopotamians did 4,000 years ago. Flood irrigation wastes two-thirds of water by overwatering plants. Excess fertilizers can pollute lakes and streams. Farmers use technology to water plants responsibly. N-Drip, a micro drip irrigation device, steadily drips water to plant roots to optimize crop growth. Crop quality improves and water use drops by 50%.
Conclusion
Here in this article we describe New Disruptive Technology Innovations in Agriculture 2023. We create List of Technology Innovations in Agriculture. In the event that you have any inquiries, please submit them in the space provided below.
