Innovation is more significant than ever in modern agriculture. However, the industry faces the most prominent challenges from the rising supply cost, labour shortage, and shifting consumer preferences for transparency and sustainability.
For new agriculture technology, the tractor plays the primary role, and we would suggest Swaraj 963 for it. There is growing recognition from agricultural corporations that these challenges need to be addressed. Over the past 10 years, agricultural technology has seen a massive increase in investment, with $6.7 billion invested in the past 5 years. Major technology innovations in space have focused on:
- indoor vertical farming
- automation and robotics
- livestock technology
- modern greenhouse practices
- precision agriculture
- artificial intelligence
Indoor Vertical Farming
This farming can enhance crop yields, overcome limited land area, and even reduce the impact of farming on the environment by reducing the distance travelled in the supply chain. Its farming is described as growing produce vertically, one on top of another in a closed and controlled environment.
Using vertically climbing shelves reduces the amount of land space needed to grow plants compared to traditional farming methods. This kind of farming is often associated with the city and urban farming due to its ability to succeed in limited space.
Vertical farms are peculiar in that some setups do not require soil for the plants to grow. Most are hydroponic, where vegetables are grown in bowls of nutrient-rich water, or aeroponic, where plant roots are systematically sprayed with sufficient water and nutrients. Artificial grow lights are used in place of natural sunlight.
From sustainable urban development to maximizing crop yields with lower labour costs, the advantages of indoor vertical farming are clear. This farming can control variables such as light, moisture and water to increase food production with a reliable harvest to measure accurately throughout the year. Using less water and energy Optimizes energy conservation. Vertical farms use up to 72% less water than traditional farms. For modern agricultural farming, we would suggest Mahindra 245.
Labour is also drastically reduced by using robots to plough, harvest, plant and handle logistics on farms challenged by the current labour shortage in the agriculture industry.
This automation, often associated with “smart farming”, is a technology that makes farms more effective and automates the crop or livestock production cycle. Several companies are working on robotics innovation to develop drones, robotic harvesters, autonomous tractors, seeding robots and automatic watering.
Although these technologies are quite new, the industry has seen an extending number of traditional agriculture companies adopt farm automation into their processes.
New advances in technologies ranging from robotics and drones to computer vision software have entirely transformed modern agriculture. The primary goal of agricultural automation technology is to cover easy, mundane tasks. The key technologies used the most by farms include harvest automation, autonomous tractors, seeding and weeding, and drones.
Farm automation technology addresses key issues such as the growing global population, shortage of agricultural labour and changing consumer preferences. The benefits of automating traditional agricultural processes are significant in tackling consumer preferences, labour shortages and farming’s environmental footprint.
Livestock Farming Technology
The traditional livestock industry is the sector that is widely overlooked and under-served, although it is arguably the most important. Livestock provides the much needed renewable, natural resource that we rely on every day. It has traditionally been referred to as running a poultry farm, dairy farm, cattle farm, or other livestock-related agribusinesses. For more productivity use the swaraj 744 xt tractor with new agriculture technology.
Livestock managers must supervise workers, accurate financial records, and ensure proper care and feeding of animals. However, recent trends have proved that technology is revolutionizing the world of livestock management. New developments in the last 8-10 years have led to huge improvements in the industry and making data-driven tracking and managing livestock much easier. Livestock Farming Technology can come in the form of nutritional technologies, genetics, digital technology and more.
Livestock technology can increase or improve productivity, efficiency, welfare, or management by placing individual wearable sensors on cattle, daily activity, and health issues. IT can be tracked while providing data-driven insights for the entire herd.
All this data generated is being turned into meaningful, actionable insights where manufacturers can look quickly and efficiently to make quick management decisions.
Animal genomics is the study of looking at the entire gene landscape of a living animal & how they interact with each other to influence the growth and development of the animal. Genomics helps livestock producers understand the genetic risk of their herds and determine the future profitability of their livestock. Cattle genomics allows producers to optimize livestock herd profitability and yields by strategic animal selection and breeding decisions.
Data technologies and Sensors have enormous benefits for the present livestock industry. It can uplift the productivity and welfare of livestock by detecting sick animals and intelligently identifying them for improvement..
For decades, the greenhouse industry has changed from small-scale facilities used primarily for research and aesthetic purposes (i.e., botanical gardens) to substantially more large-scale facilities directly related to land-based traditional food production.
Compared with Combined, the entire global greenhouse market currently produces vegetables worth about US$350 billion annually, of which US production comprises less than 1%.
Nowadays, largely due to the recent improvements in growing technology, the industry seems to be booming like never before. As a result, greenhouses are increasingly emerging today that are large-scale, capital-intensive and urban-intensive.
As a market has developed dramatically, it has also experienced trends in current years. Modern greenhouses have become increasingly techno-heavy, using LED lights and automated control systems to fully adapt to the growing environment. In addition, successful greenhouse companies are expanding significantly and setting up their growing facilities near urban centres to capitalize on the enhancing demand for local food, no matter the season.
The greenhouse industry is also becoming increasingly capital-intensive to complement these achievements using venture funding. In addition, other sources to build the infrastructure needed to compete in the current market.
Agriculture is undergoing an evolution; technology is becoming an essential part of each commercial farm. Precision agriculture companies are developing technologies that permit farmers to maximize yields by controlling every variable of crop cultivation, such as moisture levels, pest stress, soil conditions and microclimates. By providing more precise technology for planting and growing crops, precision agriculture enables farmers to increase efficiency and manage costs.
For more agriculture technology activity and new inventions in agriculture, stay tuned with us.