Food production has changed dramatically over the years due to technological intervention. In ancient times, farmers had only basic tools at their disposal. They relied on nature to provide them with seeds and water to grow crops. Today, however, modern agricultural practices allow us to produce huge quantities of food using advanced technologies just like online casino and sports betting games. Below are ways to produce a quantity of food using technology.
The use of tractors in farming is a great improvement in farm work efficiency.
Tractors can be used on all types of farms from small ones that fit on one or two acres up to large ones that cover thousands of acres. Tractor-powered harvesters gather cuttings from trees and harvest grains like wheat, rice, maize, barley, sorghum, and millet from fields. A tractor also pulls grain carts filled with harvested grain.
Drones are unmanned aerial vehicles (UAVs) often armed with cameras.
UAVs have been used for military purposes since World War II. In 2008, they started being used by civilians to capture high-resolution photos and videos. Nowadays, these drones are widely used not just for the military but for commercial purposes as well which include capturing photos and videos of natural wonders, archaeological sites, landscapes, cities, etc.
Crop dusting robots
Crop dusting robots are now used to spray pesticides and other chemicals to kill insects that eat crops. These crop dusters reduce pesticide usage and minimize damage to non-target plants. This allows farmers to maximize yields while minimizing costs.
Irrigation pumps are machines that pump water to crops.
Pumping irrigation water saves time and money on watering crops because it reduces rainfall preparation. It’s also environmentally safe. Pumps are available in both electric and diesel versions. Pumps come in different sizes, shapes, and horsepower ratings. Farmers may drill wells manually. Larger farms may hire contractors to help with this process. Some farmers own larger hydraulic pumping equipment. Irrigation systems consist of pipes, spray heads, and sprinklers. Sprinkler heads direct water onto the ground around seedlings, adults, or vegetables to supply them with needed moisture.
Imaging satellites like Digital Elevation Model (DEM), Light Detection and Ranging (LIDAR), and others collect data on land elevation and vegetation patterns. Using imaging satellites, researchers can observe field conditions like soil salinity, pH levels, crop health, weed infestation, insect populations, etc. Such information can help improve irrigation strategies when applying fertilizers and pesticides to crops. Researchers can track the growth stages of plant development through phenological events like leaf appearance, flowering, fruit ripening, and more using remote sensing technology. Remote sensing devices collect data about weather, soil type, terrain features, and more related to plant life. With this information, scientists can map out cropland areas within an ecosystem so they know where to apply new fertilizer materials, manage irrigation methods, and monitor pest population levels.
GPS-guided tractors offer another way to help farmers increase yield and productivity on their farms. Technology helps farmers keep track of their equipment movements and locations in real-time. As a result, they can make improvements to their farm processes and increase profits. For example, if a farmer has a large plot of land, he could divide his land into sections and then use GPS-guided tractors across each section to help him perform tasks like tilling the soil, planting, weeding, spraying, and harvesting. GPS-guided tractors allow the farmer to leave one vehicle at home while moving multiple pieces of farming equipment to their fields without having to do repetitive work. Once there, the tractor connects to its mobile device which tracks its location, speed, and direction. Then, the driver receives automatic directions from the device which leads to the next move.
Smartphones help farmers stay up-to-date on market prices and weather trends.
Smartphone applications give farmers access to accurate market prices. They can enter this data directly into their smartphones and compare it with other buyers. Apps can even notify farmers when prices drop below a certain level, allowing them to purchase crops before it gets too late. Weather apps show farmers what the expected weather will be for different regions throughout the year. This information can help farmers decide how much fertilizer and pesticide to apply to their farmland based on climate and local weather predictions.
Drone technology offers yet another means by which farmers can get detailed images of their crops. Drones have many uses in the agricultural industry including monitoring crops, detecting diseases, checking for weeds, and creating 3D models of the landscape. The ability to create 3D models of the environment allows farmers to see how the land changes over time.
Technology plays an important role in improving the productivity of modern agriculture. By taking advantage of these technologies, farmers can maximize profitability and efficiency.