The new technology Innovations in the agriculture industry have changed the way farmers treat crops and manage fields in recent years. It is not necessary to be an expert to recognize how technology has transformed farming, making it more profitable, efficient, safe, and simple. Smart Farming Innovations mainly consists of five technologies that they believe are the best, among others:
According to the research report “Smart Agriculture Market by Agriculture Type (Precision Farming, Livestock, Aquaculture, Greenhouse), Hardware (GPS, Drones, Sensors, RFID, LED Grow Lights), Software, Services, Application, Farm Size, and Geography – Global Forecast to 2025″, The smart agriculture market is estimated to grow from USD 13.8 billion in 2020 to USD 22.0 billion by 2025, at a CAGR of 9.8%.
- GIS (geographic information system) and GPS (global positioning system) agricultural
- Imagery from satellites
- Aerial photography from drones and other sources
- Farming software and data over the Internet
- Combining multiple datasets
As a result, the ever-evolving digital agriculture provides enormous benefits to modern farms. Reduced water, nutrient, and fertilizer usage, reduced negative influence on the surrounding ecology, reduced chemical runoff into local groundwater and rivers, improved efficiency, lower costs, and so on are just a few of the advantages. As a result, business becomes more cost-effective, clever, and long-term. Let’s take a look at a few of these new technological Innovations in agriculture.
Top 10 Agricultural Innovation Examples For 2024
Farming has been transformed by the new technological innovations in agriculture over the years, and technical advancements have impacted the agriculture industry in a variety of ways. Agriculture is a primary occupation in many nations throughout the world. With an expanding population, which according to UN forecasts, will rise from 7.5 billion to 9.7 billion by 2050, there will be increased pressure on land, as only an additional 4% of the land will be cultivated. Farmers will have to do more with less as a result of this.
AI for Intelligent Spraying the Chemicals
Precision agriculture is a term used to describe how AI systems are helping to enhance overall harvest quality and accuracy. AI technology innovations in agriculture aid in the detection of plant disease, pests, and poor agricultural nutrition. AI sensors can detect and target weeds, and then determine the best herbicide to use in the area.
AI-based Robots for Farming Harvesting
Many companies are working on improving agricultural efficiencies. There are products like an autonomous strawberry-picking machine and a vacuum apparatus that can harvest mature apples from trees. These machines use sensor fusion, machine vision, and artificial intelligence models to identify the location of the harvestable produce and help pick the right fruits.
AI for Predictive Analytics
The difference between a successful harvest and a failing one is just timely information on a single data point: seed sowing timing. To tackle this, ICRISAT scientists employed a predictive analytics technique to determine the best time to sow the seeds for optimal yield. In addition to a 7-day weather forecast, it provides information on soil health and fertilizer recommendations.
The Top 5 Agricultural Inventions of the Last Ten Years
Agriculture is an excellent example of an industry that has undergone a significant technological transformation in recent years. Precision agriculture, which uses drones, sensors, big data, environmental controls, farm management software, smart packaging, and other technologies, has taken a giant leap into the digital era. Involvement of all these technologies innovating in agriculture rapidly.
Here are five cutting-edge agricultural technologies and techniques that are transforming agriculture around the world.
Drones have various applications in agriculture, but one issue that has received a lot of attention recently is the disappearance of bees. Some species are even on the verge of extinction. This would be devastating because bees play an important economic function as pollinators, allowing agricultural production to continue at current levels.
Fortunately, drones are currently being tested in order to enhance the pollination work that the remaining bees are doing. Drone technology is also being used in agriculture for automated crop harvesting, aerial drone photography, and maybe delivery drones in the future.
- Driverless Tractors
Driverless vehicles on farms are a topic that few people consider. Despite this, Smart Ag, a firm located in the United States that is the best example of smart farming innovations, has unveiled their driverless tractor technology in the form of “AutoCart” software. This farming software, according to reports, will totally automate a grain cart tractor, giving farmers much-needed help during the busy harvest season. Farmers will be able to automate their existing equipment as well, allowing them to increase capacity and efficiency.
3. Blockchain Technology in the Farming and Agriculture Industry
Blockchain technology improves the following areas within the agricultural sector:
- Food Supply Chain Optimization – Reducing the time it takes to trace the origin of food to a few seconds, maintaining safety and increasing efficiency.
- Crop Insurance – Communicates loads, GPS waypoints, and basic compliance information to carriers, as well as logs product quality, price, location, and parties involved.
- Transaction — Assists farmers in selling their goods at fair pricing while also cutting transaction fees, allowing smaller farmers to access the market.
- Traceability – Smart contracts insure a farmer’s crops and claim losses, obviating the need for time-consuming and inconvenient insurance processes.
- Vertical farming and urban agriculture
New innovations in the agriculture industry are the key to urban agriculture. Vertical farming can produce yields that are 10 times more efficient than regular agriculture, despite its small size. Although vertical farming does not promise to turn agriculture on its head, it can help farmers become more efficient and productive.
Traditional farmers might learn a lot from vertical farmers about how to design and build structures that maximize yield while minimizing waste.
As the world’s population grows and takes up more area, space efficiency and farming practices will become even more important for feeding ourselves. Unfortunately, no matter how cleverly we design or how tall we construct, humans have a huge impact on the ecosystem. Only by continuing to improve technologically in this domain will we be able to meet our own agricultural demands in the future.
- Genetic modification
Scientists are now using CRISPR/Cas9 to perform genomic “surgeries.” By altering or eliminating certain genetic sequences on a strand of DNA, they can identify and alter an organism’s genome. CRISPR is now being used to change the intestinal microorganisms of cows in order to manage their size and reduce the amount of methane they emit. Changing the microbiomes of cows in this way could result in more meat being produced with less food. As a result, the industry becomes more efficient and profitable.
Top 5 Tech Innovations in Agriculture 2024
Advances in technology are key to the future of agriculture as farmers strive to feed the world with limited natural resources
1. Data preserved in soil
2. Innovative agriculture moving underground
3. Greens fed on rainbow waste
4. Using the sun to generate freshwater
5. Agriculture by aircraft
10 Recent Innovations in Agriculture 2023 to 2025
The war between farmers and birds has raged on since the start of agriculture. Pests such as starlings, blackbirds, and crows can destroy up to 75% of crops within 48 hours following harvest, resulting in a significant financial loss. In the name of insect control, growers have tried everything. Nothing has been able to outrun nature’s evolutionary wit, from traditional scarecrows to propane cannons. Laser is the latest innovation in the agriculture industry.
The automated laser darts over fields up to 600 feet, effectively startling birds and preventing crop destruction.
Bee vectoring is a recent innovation in agriculture for disease control management. Bee vectoring has been proven to be beneficial in integrated disease management and pest control by a corporation in Canada. The solution is subsequently spread throughout the surrounding crops and fields by the bees. In addition to greater disease resistance, the technique improves plant development and naturally extends crop shelf life. All of these advantages are obtained without the usage of pesticides. Because it merges nature with agriculture industry systems, the idea is groundbreaking.
Product Testing In-field or On-site
Among the most of research in the agriculture industry, this one is the useful technology. Some crops, such as Cannabis and Hemp, are heavily controlled, necessitating extensive lab testing and reporting. Moisture and pollutant levels are monitored throughout the growth of many other crops.
Additional expenditures are generated as a result of the need for prolonged sample and lab processes. This creates a demand for in-field product testing solutions that can reduce the expense, inconvenience, and time it takes to receive lab results. LightLab firm that does inventions in the agriculture industry.
One of these inventions is LightLab. Outside of the lab, the portable and lightweight equipment can accurately test for the cannabinoid profile of such crops. Growers may now conduct sampling and tests in the field or at processing centers, saving time and streamlining the production process.
Crop & Soil Monitoring & Management
Agrocares, for example, can help farmers monitor and assess soil fertility, such as nutrients, feed, leaves, and insect content, in an efficient and cost-effective manner. It generates accurate and timely data that can be used to provide management recommendations for simplifying the farming process flow.
SGS can also help you create a fertilizer distribution strategy that will boost crop yields, improve environmental protection, and fine-tune precision. This is accomplished using GPS and GIS to perform exact sampling, mapping, and testing. Growers can now have complete control over macro and micronutrients in the soil, as well as salinity, carbon content, and other parameters, in order to produce optimal planting conditions.
Radio-Frequency Identification (RFID)
Radio-frequency identification (RFID) is a technique that captures information attached to an object using radio waves. They provide similar purposes to barcodes, but in a farm context, they are more efficient and comprehensive because they can be read invisibly and from many feet away in the mud. RFID, unlike barcodes, can be reprogrammed and can store up to 2KB of data, including information like location, date, and time.
Croptracker has leveraged RFID technology for use in agricultural harvesting, storage, and packing. During organizational processes, the technology eliminates the danger of costly human error. Customers will be able to identify the origins of the product they hold in their hands thanks to RFID, which will increase customer loyalty and trust. Isn’t it the most interesting technological innovation in agriculture?
RTK (Real-Time Kinematic) is a new technique for improving the accuracy of existing GPS signals. The approach eliminates the vast majority of common GPS mistakes, allowing for centimeter-level precision. RTK improves GPS or satellite tracking in the field using stationary sensors to estimate farming yields and costs better. Right now, this technology is mostly being used in land surveying with the purpose of matching the optimal plant density and treatment plans to the land being planted.
Countries’ urbanization and industrialization result in a loss of fertile land for agriculture. Over the last 40 years, a third of arable land has been destroyed, and vertical farming may be the only way to save it. Vertical farming is a method of growing crops on vertically stacked or inclined surfaces that can be integrated into other structures or buildings to produce more crops in less space. This could be the solution to fulfilling the rising food demands of an ever-increasing population, particularly in urban areas. Greenhouse settings that can be integrated into vertical farming can also be used by farmers. This entails the cultivation of seasonal crops all year round, regardless of the weather.
Livestock Farming Technology -The Amazing Innovation in Agriculture
Livestock technology can enhance or improve the productivity capacity, welfare, or management of animals and livestock.
Livestock technology can help increase or improve animal and livestock productivity, welfare, and management. As more dairy herds are linked with sensors to monitor health and boost output, the concept of the “connected cow” has emerged.
Use of Mobile Technology In the Agriculture Industry
The introduction of mobile technology and portable wireless devices has resulted in the development of innovative agricultural services and applications in both developed and developing countries. There is some variance in the nature of these technologies’ acceptance in these two sectors. Mechanization is more advanced in wealthy countries, and the agricultural workforce is substantially smaller.
Mobile applications are typically implemented further up the value chain in this scenario. Mobile technology is more routinely utilized to give services to farmers and traders in developing countries, where agriculture employs a big part of the workforce. Market information, such as trading facilities, meteorological information, peer-to-peer learning, and financial services, such as payments, loans, and insurance, are just a few of the applications of mobile technology in agriculture.
The agriculture sector can use mobile technologies to boost revenues and apply a smart approach to different portions of the food production chain:
- Crop production (farming)
- Farm machinery
- Seed supply
- Marketing and retail sales