Digital tools and data analytics are transforming modern farming by enhancing productivity, efficiency, and sustainability. Here are key ways these technologies are utilized in agriculture: 1. Precision Agriculture Precision agriculture employs technologies such as GPS, sensors, and drones to monitoRead more
Digital tools and data analytics are transforming modern farming by enhancing productivity, efficiency, and sustainability. Here are key ways these technologies are utilized in agriculture:
1. Precision Agriculture
Precision agriculture employs technologies such as GPS, sensors, and drones to monitor and manage field variability in crops. This approach allows farmers to:
- Optimize Resource Use: By analysing data on soil conditions, moisture levels, and crop health, farmers can apply water, fertilizers, and pesticides more efficiently, reducing waste and costs.
- Increase Crop Yields: Real-time data analytics help farmers make informed decisions about planting, irrigation, and harvesting, which can lead to higher yields and better quality produce.
2. Data-Driven Decision Making
Farmers can leverage data analytics to enhance their decision-making processes. Key applications include:
- Monitoring Crop Health: Technologies like drones and satellite imagery provide insights into crop health, allowing for early detection of issues such as pest infestations or nutrient deficiencies.
- Predictive Analytics: By analysing historical data and current conditions, farmers can forecast yields and market trends, enabling them to plan better and mitigate risks.
3. Automation and Robotics
Automation technologies are increasingly being adopted in farming operations:
- Automated Machinery: Tractors and harvesters equipped with AI and IoT capabilities can perform tasks with minimal human intervention, improving efficiency and reducing labour costs.
- Robotic Systems: Robotics in agriculture, such as robotic weeders and automated feeding systems for livestock, enhance productivity and allow for precise management of resources.
4. Enhanced Livestock Management
Digital tools are also revolutionizing livestock farming:
- Remote Monitoring: Sensors and IoT devices enable farmers to monitor the health and well-being of their animals in real-time, leading to better management practices and early intervention when issues arise.
- Data Management Software: Farm management software provides a comprehensive view of farm operations, allowing for better tracking of livestock health, feed management, and breeding schedules.
5. Sustainable Practices
Digital tools contribute to more sustainable farming practices:
- Environmental Monitoring: Sensors can monitor environmental factors such as soil health and weather conditions, helping farmers make decisions that promote sustainability and reduce environmental impact.
- Resource Conservation: By optimizing input use and minimizing waste, digital agriculture helps conserve resources, which is crucial in addressing the challenges of climate change and food security
Definition Monoclonal antibodies are the type of antibodies produced by the same clone of B cells against a specific antigen. Production 1. A mice is injected with the antigen against which the antibody is to be produced. 2. The B cells of the mice start producing antibodies against the antigen. 3.Read more
Definition
Monoclonal antibodies are the type of antibodies produced by the same clone of B cells against a specific antigen.
Production
1. A mice is injected with the antigen against which the antibody is to be produced.
2. The B cells of the mice start producing antibodies against the antigen.
3. These antibody producing B cells are selected. B cells are mortal and antibody producing cells. They undergo de novo and salvage pathway to produce DNA.
4. HGPRT negative Myeloma cells are selected which are immortal and cancer causing. They undergo de novo pathway for DNA synthesis and HGPRT inhibits the salvage pathway.
5. Myeloma cells and B cells are fused to produce hybridoma cells.
6. Hybridoma cells are then screened using HAT medium (HAT is an inhibitor of de Novo pathway).
7. The B and myeloma cells die due to finite cell division and lack of DNA synthesis respectively in HAT medium.
8. Hybridoma cells survive in HAT medium which are immortal and antibody producing.
9. These hybridoma cells are amplified and used to produce monoclonal antibodies against a specific antigen.
10. The monoclonal antibodies are then screened and packed in bottles for public use.
Uses:
Monoclonal antibodies are widely used in biotechnology such as
1. They are used in research field to study about biological processes.
2. They are widely used in diagnosis of many diseases and antigens.
3. They are commonly used in treating many diseases like cancer and autoimmune diseases.
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