Hi_Tech_Agriculture_Presentation.pptx and their impact
AmanKourav2
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Oct 12, 2025
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About This Presentation
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Hi-Tech Agriculture – Summary
1. Definition:
Hi-Tech Agriculture uses advanced technologies like ICT, sensors, drones, biotechnology, and automation to make farming more efficient and sustainable.
2. Objectives:
Increase crop yield and quality
Optimize inputs (water, fertilizer, pest...
Slide Content
Hi-Tech Agriculture Presented by: [Your Name] Course: B.Sc. (Agri.) College/University: [Your College Name] Date: [Insert Date]
Introduction Hi-Tech Agriculture = Modern farming methods integrating technology, innovation, and precision. Aimed at higher productivity, efficiency, and sustainability. Combines information technology, biotechnology, mechanization, and automation.
Objectives of Hi-Tech Agriculture To increase crop yield and quality. To optimize use of inputs (water, fertilizers, pesticides). To reduce labor and production cost. To promote sustainable farming practices.
Key Components Precision farming Protected cultivation (greenhouses, polyhouses) Smart irrigation systems Use of sensors and drones ICT and satellite-based monitoring Biotechnology and improved seeds
Precision Farming Application of GPS, GIS, and sensors for site-specific crop management. Data-driven decision-making for efficient input use. Real-time monitoring of soil, crop, and weather conditions. Benefits: higher yield, reduced cost, sustainability.
Protected Cultivation Includes polyhouses, greenhouses, shade nets, and tunnels. Controls temperature, humidity, and light for better crop growth. Enables year-round production of high-value crops. Reduces pest and disease incidence.
Smart Irrigation Systems Use of drip and sprinkler systems. Soil moisture sensors and automated irrigation control. Efficient water use and conservation. Increased crop productivity even under limited water availability.
Use of Drones and Sensors Drones for aerial imaging, spraying, and crop health assessment. Sensors for soil moisture, nutrients, and climate monitoring. Real-time data collection for decision-making. Helps in precision farming and resource optimization.
Information and Communication Technology (ICT) Mobile apps, satellite data, and weather forecasting systems. Digital platforms for farm advisory and marketing. Helps farmers access real-time information. Improves decision-making and profitability.
Biotechnology in Hi-Tech Agriculture Genetically improved seeds with pest and disease resistance. Tissue culture for mass propagation of elite plants. Biofertilizers and biopesticides for eco-friendly farming. Enhances productivity and crop resilience.
Advantages of Hi-Tech Agriculture Higher productivity and profitability. Efficient resource use (water, nutrients, energy). Reduced labor requirement. Improved quality and uniformity of produce. Sustainable and climate-resilient farming.
Challenges in Hi-Tech Agriculture High initial investment cost. Need for technical knowledge and training. Maintenance and infrastructure costs. Limited awareness among small and marginal farmers.
Future Prospects Integration of AI, IoT, and robotics in farming. Expansion of smart agriculture in rural India. Government support for technology adoption. Towards sustainable and profitable agriculture.
Conclusion Hi-Tech Agriculture is the future of modern farming. It ensures efficiency, sustainability, and profitability. Adoption of technology can revolutionize Indian agriculture.
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