The introduction of “advanced” technology into irrigation systems has allowed agriculture to solve the shortcomings in conventional irrigation practices Smart irrigation systems and solutions are being adopted in several parts of the world by offering a variety of advantages. Farmers and agriculturists, in particular, are promoting smart irrigation technologies on the grounds that they play a key role in optimizing water usage. From soil moisture monitoring to preparing for changing weather conditions, a range of sensors and wireless communication technologies are designed to facilitate smart irrigation.
The benefit of these innovations is long-term; learn more, how to every drop of water saved by smart irrigation is a significant contribution to global water conservation.
With advancements in sensor technology, tomorrow’s smart irrigation systems are becoming more effective in controlling the use of water. Even in domestic end-uses such as schoolyards, government parks, and community botanical gardens, smart irrigation is conducting steady adoption. Smart irrigation has commendably changed the status quo of the fact that farming is solely dependent on favorable weather conditions. Learn more about the new products joining the global smart irrigation industry are changing irrigation activities and improving agricultural products to a considerable extent.
Smart Irrigation Controller Systems to Replace Top-Selling Components through 2026
The study forecasts that sales of smart irrigation controller systems will remain primarily strong in the business expansion over the forecast period. By the end of 2026, smart irrigation controller systems worth almost US$ 900 million are expected to be sold on the global market. Learn more about the success of smart irrigation technologies remains largely dependent on the effectiveness of the controller systems. In addition to smart irrigation controller systems, soil moisture sensors and water management solutions are also projected to serve the leading component-type segments. Collectively, these two categories are expected to account for more than one-third of the global market share of smart irrigation over the forecast period.
Learn more how to smart irrigation would remain highly profitable for agro-professionals–from growers to agronomists–by 2026? Agri Professionals will emerge as the main end-user of smart irrigation, and it will bring almost US$ 800 million to the global market value by the end of 2026. However, the study also projects that the end-use of smart irrigation systems and technologies across communities and among architects and specifies will be the fastest, with more than 14 percent of CAGR in sales.
North America and Europe to Register Strong Adoption of Smart Irrigation
The report estimates that developed regions will be profitable for smart irrigation. In 2017, the smart irrigation industry in North America reached an approximate value of over a quarter of a billion dollars. The report further reveals that Europe’s smart irrigation system sales will account for one-fourth of the revenues earned on the global smart irrigation market through 2026. However, Asia-Pacific, excluding Japan, will have the fastest growth in the forecast period. While the nascent integration of technology into farming practice will act as a hindrance, Learn more how to progressive economies such as India, South Korea, and China are making great leaps towards the steady adoption of smart irrigation. Over the forecast period, the APEJ smart irrigation market is set to grow by 16.6 percent to the fastest CAGR. Leading players in the global smart irrigation market must concentrate on meeting the needs of the APEJ region. In turn, a number of companies will be increasingly focused on providing smart irrigation systems solutions. The overall demand for smart irrigation management solutions is on the brink of a major upsurge, taking around US$ 950 million by the end of the forecast period. Companies namely: Rain Bird Group, Netafim Ltd., HydroPoint Data Systems Inc., Rachio Inc., Toro Company, So Blossom is expected to meet the brimming demands of smart irrigation in the foreseeable future.
Irrigation Technology in Agriculture: How New Technologies Overcome Tasks?
As the world’s population continues to grow at a rapid pace, more food and water will be required to sustain humanity. In the last 50 years, we have tripled our need for water and food, and there are no indications of this slowing down. As a result of these conditions, clever, creative agricultural practices are needed more than ever. Learn more how Technology will, and already does, help agriculture in innumerable ways? Irrigation is a key part of agriculture that can use technological innovation to increase efficiency and performance.
Irrigation is the method by which a controlled amount of water is supplied to plants at regular intervals for agriculture. It is used to assist in the cultivation of agricultural crops, the maintenance of landscapes and the re-vegetation of disturbed soils in dry areas and during periods of insufficient rainfall. In fact, irrigation also has a range of other applications in crop production, including the protection of plants from frost, the reduction of weed growth in grain fields and the avoidance of soil consolidation. Irrigation systems are also used for dust reduction, sewage disposal, and mining. Irrigation is often studied in conjunction with drainage; Irrigation has been a central feature of agriculture for more than 5,000 years and is a product of many cultures. It has historically been the basis for economies and societies across the globe, from Asia to the southwestern United States.
Agricultural irrigation accounts for about 80 percent of the soil and surface water used in the United States and could account for up to 90 percent of the water used in western states. Approximately 53.5 billion gallons of groundwater are used daily for agricultural irrigation from 475,796 wells. Irrigated agriculture is an indispensable part of the economy of the nation since it contributes significantly to the value of U.S. agricultural crop production.
In addition to supporting livestock and poultry production through irrigated forages and feed crops. (United States Geological Survey, 2019) Furthermore, making this use of wastewater in agriculture is unsustainable. Agriculture accounts for 70 percent of all water consumption worldwide, compared to 20 percent for industry and 10 percent for domestic use. Approximately 15-35% of irrigation withdrawals are estimated to be unsustainable and the agricultural industry wastes 60 or 396 trillion gallons of the 660 trillion gallons of water it uses each year.