Most Advanced Agricultural Tech and Tools
The world’s population is growing. It is projected that 9.7 billion people will live on the planet by 2050. Because of this, the demand for food is also increasing. Technological advances in modern times allow farmers to take better care of fields, implement sustainable practices, get more crops and increase income. Precision agriculture technologies also will enable you to optimize costs and improve product quality. In this piece, you will learn about the most advanced farming technologies and tools.
Precision Ag Tech
Precision agronomy enables more precise farming practices, including planting and growing crops. This concept consists of several elements. Variable Rate Technology (VRT) refers to any technology allowing the farmers to vary the application of the resources and control their amount. The main components of this technology are the computer, software, controller, and DGPS. When it comes to using VRT, there are three approaches: map-based, sensor-based, and manual.
GPS soil sampling is a reliable method of checking the soil state. You can get data on pH level, available nutrients, and other information that helps you optimize different resources like water and fertilizers. This knowledge is significant to make effective and profitable decisions. The farmers get an opportunity to study productivity differences within a field and formulate fieldwork plans based on this information.
Farmer computer applications also provide users with advanced planning capabilities. With these applications, you can create accurate farmland plans and field maps, yield, and crop exploration maps. You can recognize areas that need fertilization, pesticides, or herbicides in time. As a result, you do not waste resources, cut costs and make production more sustainable.
Remote sensing technology has been used in agriculture for over 60 years. This tool has many benefits for monitoring and managing a variety of resources, including water. Farmers can receive information about potential crop threats and stress, assess soil moisture, and other helpful information. It is essential for making effective and timely decisions about the care and protection of your plants.
Precision farming and precision agronomy technologies deal with the collection of big data. With this data, agricultural productivity can be dramatically improved as you have a basis for making immediate and future decisions regarding resource use and other issues. In essence, you get the opportunity to farm efficiently, profitably, and according to the concept of sustainability.
Potato and Lettuce Harvesters
Digging up potatoes is not an easy task. However, thanks to modern technology, you can forget about manual digging. Fortunately, a machine will cultivate the soil around the potato for you and even raise it to the surface. In addition to the small-scale device, farmers can also use tractor-towed rigs technology to handle large farms.
You may never have thought about it, but harvesting lettuce is a challenge. Hundreds of workers in the field had to bend over and stand up. Depending on the area size, this could take several days. Such exercises lead to back problems, so it was necessary to correct the situation somehow. Thanks to automation, workers can forget about back pain. A specific harvesting machine can do it.
Autopilot tractors
Tractors and other equipment can be controlled via GPS. Set the points A and B to the onboard computer, and the equipment will drive exactly along the specified path. A crucial benefit of this technology is that the vehicle can move straight and track curved lines. The operator’s steering will keep the machine on track, but the operator is free from driving and can keep an eye on other vital things. Thus, you can save on fuel and eliminate the human factor in soil cultivation.
Field Documentation
On-board monitors and GPS provide the ability to document yields, application rates, and tillage methods. The technologies are becoming more accurate and user-friendly every year. Farmers have a lot of valuable data at hand, including a yield map.
You can analyze planning results and work efficiency, which will help improve these processes in the future. Harvesting equipment provides information on yield and soil moisture by linking it to GPS coordinates. After doing all the calculations, you get heat maps on which each color corresponds to a particular range of yields. Due to these maps, farmers can evaluate which crop varieties are the most and least productive. You can also get information about the operation of the field drainage system. All this data will contribute to making better decisions in the future and increasing the productivity of the fields.
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