The hard truth is that conventional farming methods cause economic and environmental damage by squandering valuable resources. 30% of the water used for irrigation goes down the drain or evaporates without being used, and 50% of the sprayed fertilizer ends up polluting rivers rather than helping crops grow. Not only do these inefficiencies cut into farmers' bottom lines, but they also contribute to pollution and water scarcity, two major environmental threats.
According to a worldwide study, the use of Water Level Sensor For Well led to a 15% increase in yield and a 20% decrease in water usage. As a result, we can see how smart farming technologies can improve agriculture's sustainability and profitability.
Features of IoT Water Management App for Well and Borewell
Draw attention to your wells
View what's inside your bore and excavated wells. Keep an eye on the water supply and level throughout the year.
Understand the Recoup Rate and Duration
Find out the time required for your well to recover following water extraction through the Water Management App. Water drawing should be optimized according to the recovery rate.
Maintain your pump properly
Prevent the dry run or burnout that could harm your pump. Measure effectiveness. See how much water is pumped and adjust the speed appropriately. Cut down on power and gas expenses.
Responsibly utilise groundwater
Groundwater levels should be monitored all year. Find out how much water you saved by collecting rainwater. Organize your crops and activities properly.
Affordable and Innovative
Wells and bore wells can be equipped with cutting-edge, inexpensive, smart Internet of Things (IoT) sensors that transmit data and alarms to your phone through the cloud.
Sensors and Their Function in Intelligent Farming Systems
Farmers can now optimize yield, minimize waste, and run more sustainably thanks to Water Level Sensor For Well transforming resource management.
Farmers can save water and fertilizer with the help of several sensors, each of which collects useful data and allows for better decisions. Some important instances are these:
Accurate Watering: Every Debris Matters
Envision can monitor the precise amount of water your crops require in real-time. The brilliance of soil moisture sensors lies in this. These microscopic wonders continuously monitor the root zone's moisture levels as they delve into the dirt. By wirelessly transmitting this data to a central platform, farmers can see the hydration condition of their fields in real-time.
The days of using historical averages to plan irrigation schedules and relying on guessing are over. Precision irrigation allows farmers to use this detailed data to irrigate crops in an optimal way for each zone in the field. This guarantees that crops get the ideal quantity of moisture for maximum growth, cuts water usage by as much as 30 percent and stops overwatering and root damage.
Fertilisation Made Smart: Nurturing Good, Not Evil
In the same way, as soil moisture sensors monitor the amount of water in the soil, nutrient sensors monitor the amount of nitrogen, phosphorous, and potassium in the soil. Instead of applying fertilizer in a blanket manner, farmers may now use this real-time data to apply it according to the specific needs of each crop. Over-fertilizing is now considered obsolete, leading to money wasted, water contamination, and dangerous algal blooms.
Fertilizer usage can be cut by as much as 40% if farmers have a firm grasp on the specific nutrients their crops require. We can save a lot of money and lessen our impact on the environment because of this. In addition, increasing yields and farm production is possible through Water Level Sensor For Well, which promotes healthier crops.
Data and Insights Beyond Sensors
The true power of data analysis lies in the aggregated, analyzed, and transformed insights that result from sensor data collection. AI and ML algorithms on cloud platforms aid farmers in making sense of sensor data, seeing patterns, and anticipating their needs.
For instance, these systems can analyze past data and future predictions to determine the best times to water plants. Also, they can recommend specific fertilizer applications depending on the crop's growth stage and the soil's nutrient levels. Farmers may improve their decision-making, resource utilization, and ROI using data-driven insights.
In addition to this, several other sensors can help optimize different parts of farm management, gather more comprehensive data, and ultimately contribute to water and fertilizer savings. This includes drones, aerial imagery, and animal and water flow sensors.
Conclusion
The entire water supply chain, from freshwater reservoirs to wastewater collection and recycling, maybe more transparent and controlled with Water Management App. The Internet of Things (IoT) is helping to preserve our limited water supply in many ways, including smart water treatment procedures and improved water production, distribution, and consumption management.
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