Conventional agriculture refers to the traditional farming methods employed for protected crop cultivation. This approach primarily relies on manual labor, natural fertilizers, and pest control techniques. Farmers engaged in conventional agriculture typically follow established practices passed down through generations.
In Conventional agriculture, climate control within protected structures such as greenhouses is achieved through manual interventions. Farmers try their best to monitor and regulate temperature, humidity, and some even ventilation manually, striving to create an optimal growth environment for crops.
Conventional agriculture emphasizes the use of natural pest control techniques to combat pests and diseases. Farmers may employ methods such as crop rotation, beneficial insects, and organic pesticides to mitigate the impact of pests on protected crops.
Traditional approaches to protected crop cultivation often involve soil-based cultivation methods. Soil acts as the medium for nutrient absorption, providing the necessary elements for plant growth. Conventional farmers focus on maintaining soil health through practices like crop rotation and organic amendments.
Agritech introduces automated climate control systems that harness technology to regulate temperature, humidity, and ventilation within protected structures. These systems utilize sensors, actuators, and algorithms to create an optimal growth environment, promoting healthy crop development, increase quality and yield, and reducing the expenses and risk of environmental stress.
Agritech emphasizes the implementation of Integrated Pest Management (IPM) strategies, which combine various pest control techniques. This approach integrates the use of biological controls, pheromone traps, and targeted pesticide applications, reducing reliance on synthetic chemicals while effectively managing pests and diseases.
Agritech promotes innovative cultivation methods such as hydroponics and substrate-based systems for protected crops. Hydroponics substrate cultivation, often employing materials like coco peat, provides a controlled growth medium, enhancing water retention and nutrient availability, utilizes a water-based nutrient solution to deliver essential elements directly to the plant roots, minimizing resource wastage and optimizing nutrient uptake.
Agritech advancements introduce efficient irrigation systems for protected crop cultivation. Drip irrigation, for example, delivers water directly to the plant root zone, reducing water consumption and ensuring precise moisture control. Fertigation, the integration of fertilization and irrigation, enables farmers to deliver nutrients directly to the plants in a controlled manner, optimizing nutrient uptake and minimizing wastage.
The use of smart sensors and data analytics plays a crucial role in agritech innovations. These technologies provide real-time insights into crop growth, enabling farmers to monitor vital parameters such as nutrient levels, moisture content, and environmental conditions. With this information, farmers can make data-driven decisions, fine-tuning crop management practices and optimizing resource allocation.
The integration of conventional and agritech methods allows farmers to adopt sustainable production practices. Agritech innovations, such as automated climate control and IPM strategies, help minimize resource usage and reduce the environmental impact of protected crop cultivation. By integrating these advancements with traditional practices, farmers can achieve sustainable production while maintaining the integrity of the ecosystem.
Agritech innovations offer the potential for improved crop quality and increased yields. The precise control over environmental factors, nutrient delivery, and pest management provided by agritech solutions enhances the overall health and productivity of protected crops. By integrating these advancements with conventional wisdom, farmers can optimize production outcomes and meet the growing demand for high-quality crops.
Protected crop cultivation stands on the precipice of a transformational shift, as Agritech innovations redefine the landscape of traditional agricultural practices. By embracing automated climate control, integrated pest management, innovative cultivation methods, and advanced irrigation techniques, farmers can unlock the true potential of protected crop cultivation. The integration of Agritech solutions with conventional wisdom not only enhances production efficiency but also promotes sustainability in the agricultural sector.
We are here for you with a wide selection of products if you are looking to increase your yield, minimize the costs, and meet the growing demand for food worldwide. We have everything from irrigation, fertigation, and automation to sensors, artificial intelligence, and weather stations.
Simply contact us and we are happy to help.
For easier integration (plug & play) we developed the Smart Greenhouse TEDEN 500. Complete set for starters consists of drip irrigation, fogger irrigation, fertigation unit for NPK dosage, adjustments pH adjustments and micro elements, automation unit either analog or Bluetooth, 2 filters for cleaning debris, fittings and valves.
It gives you the opportunity to start small, learn the technologies, get ROI and expand accordingly. The Smart greenhouse TEDEN 500 starts from 500 sqm.
You can find more information on the Smart Greenhouse TEDEN 500 HERE.
Visit Agroshop for Indoor tailored solutions for you.
Or Contac Us for Indoor Project you wish to implement.