Greenhouse irrigation systems are designed to deliver water and nutrients to plants grown in a greenhouse environment. These automated systems can be customized to meet the particular requirements of various crops, taking into consideration elements like soil type, climate, and growth stage Drip irrigation, micro-sprinkler irrigation, and ebb-and-flow irrigation are the three most used kinds of greenhouse irrigation systems.
Drip irrigation systems use a network of tubes with tiny emitters to drip water slowly and steadily into the root zone of plants, providing them with both water and nutrients. This minimises waste and increases efficiency by enabling exact control of the amount of water and nutrients provided to each plant.
Tiny sprinklers are used in micro-sprinkler irrigation systems to provide nutrients and water to plants. Larger plants or those that demand more frequent watering are better suited for this strategy. Water that is rich in nutrients is flooded into the growing area using ebb-and-flow irrigation systems before being drained away. This facilitates proper root development and permits the plants to receive the required nutrients and water. By providing the ideal amount of water and nutrients to support optimal growth and output, greenhouse irrigation systems, in general, serve a critical role in assuring the success of crops cultivated in greenhouses.
The COVID-19 epidemic had a conflicting influence on the world market for greenhouse irrigation systems. On the one hand, the pandemic hampered international supply networks, which lowered output and irrigation system production. On the other side, as individuals rushed to assure a steady supply of fresh produce, the epidemic raised demand for crops grown in greenhouses. The demand for irrigation systems increased as a result of the increase in greenhouse development and restoration projects. The epidemic also brought about economic unpredictability, which had an impact on funding and investment in new greenhouse projects. The market is anticipated to grow somewhat overall over the next few years, driven by rising demand for crops grown in greenhouses and persistent supply-chain problems.
Greenhouse Irrigation System Market Key Players:
The market study provides market data by competitive landscape, revenue analysis, market segments and detailed analysis of key market players such as; Crane Garden Buildings, Delta Irrigation LLP, Farm Tek, FlyBird Farm Innovations Pvt. Ltd, Irrigation Direct Canada, Irritec S.p.A., Jain Irrigation Systems Ltd, Lindsay Corporation, Micro Grow Greenhouse Systems, NELSON IRRIGATION, NETAFIM, Nigma Holding & Projects Management LTD, Novedades Agricolas S.A., Rain Bird Corporation, Richel Group, Rivulis, Rough Brothers Inc., The Toro Company, Valmont Industries, Inc.
Global Greenhouse Irrigation System Market Segmentation:
By Type: Based on the Type, Global Greenhouse Irrigation System Market is segmented as; Boom Irrigation Systems, Capillary Irrigation System, Drip Irrigation Systems, Food Irrigation System, Sprinkler and Micro Sprinkler Irrigation Systems.
By Farm Size: Based on the Farm Size, Global Greenhouse Irrigation System Market is segmented as; Large, Medium, Small.
By Power Source: Based on the Power Source, Global Greenhouse Irrigation System Market is segmented as; Non-Renewable, Renewable.
By Application: Based on the Application, Global Greenhouse Irrigation System Market is segmented as; Drip, Ebb and Flow Bench, Hand Watering, Mat, Misting and Spraying, Others.
By End User: Based on the End User, Global Greenhouse Irrigation System Market is segmented as; Flowers and Ornamentals, Fruit Plants, Nursery Crops, Vegetables, Others.
By Region: Due to the increasing number of greenhouses, which is driving up demand for irrigation systems in this area, Asia-Pacific now holds the top spot in the global market for greenhouse irrigation systems. A major growth in the usage of greenhouse irrigation is also anticipated in growing nations like China and India, where a large population base necessitates a high level of food production.
This study also encompasses various drivers and restraining factors of this market for the forecast period. Various growth opportunities are also discussed in the report.