Introduction
In this video, fourth-year students from Mam Institute of Agriculture and Technology demonstrate the process of mass culturing Bobor biofertilizer as part of their AGM 451 course on bioinoculant production technology. For a deeper understanding of bioinoculants, you may refer to the Comprehensive Overview of Biotechnology and Its Applications.
Step-by-Step Process
-
Sterilization of Equipment
- Sterilize all equipment sequentially, including:
- Carrier material
- Acetobacter culture broth
- Ethanol
- Mixing tray
- Polythene bags
- Ensure hands are properly sterilized with ethanol.
- Sterilize all equipment sequentially, including:
-
Preparation of Carrier Material
- Use 1 kg of carrier material, specifically speed soil.
- Powder the carrier material by passing it through a 212 Micron ISC.
- Sterilize the powdered carrier material.
- For more information on agricultural tools used in this process, check out the A Comprehensive Guide to Agricultural Tools, Implements, and Equipment for Grade 7.
-
Mixing the Bioinoculant
- Add 250 ml of broth to the carrier material, using Worksman number 77 medium for the preparation of exoa bioinoculant.
- Mix the components either manually or mechanically, ensuring the consistency allows for easy ball formation without breaking.
-
Packaging
- Pack the bioinoculant in 250 g quantities into polythene bags.
- Seal the bags using an electric sealer.
- Label each packet appropriately.
Conclusion
This process ensures the effective production of Bobor biofertilizer, contributing to sustainable agricultural practices. For best practices in crop care, consider reviewing the Essential Crop Care and Maintenance Practices for Grade 7 Agriculture and Fishery Arts.
we the fourth year students of mam Institute of Agriculture and Technology as a part of our course AGM 451
bioinoculant production technology have mass cultured bobor biofertilizer first we have to sterilize
the equipments used in this process sequentially in order such as carrier material acetobacter culture broth
ethanol mixing tray and polythene bag sterilize your hands properly with ethanol take 1 kg of carrier material
the carrier material used here is speed soil we have powdered the carrier material by passing through 212 Micron
ISC and then sterilized [Music] it add 250 ml of broth to the carrier
material we have used worksman number 77 medium for preparation of exoa bioinoculant mix them either manually or
mechanically ensure that the consistency is such that the ball form doesn't break easily after mixing pack Bion no lens in
250 g quantity and polythene bags and seal them with electric [Music]
sealer finally label each packet thank you [Music]
Bobor biofertilizer is a type of bioinoculant that enhances soil fertility and promotes plant growth by providing essential nutrients. It is important for sustainable agriculture as it reduces the need for chemical fertilizers, improves soil health, and supports environmentally friendly farming practices.
The necessary equipment includes sterilization tools, a mixing tray, polythene bags for packaging, and materials for preparing the carrier, such as speed soil and acetobacter culture broth. Proper sterilization of all equipment is crucial to prevent contamination.
To prepare the carrier material, use 1 kg of speed soil, powder it by passing through a 212 Micron ISC, and then sterilize the powdered material. This ensures that the carrier is free from pathogens and ready for mixing with the bioinoculant.
The mixing process involves adding 250 ml of broth to the sterilized carrier material. The components should be mixed thoroughly, either manually or mechanically, to achieve a consistency that allows for easy ball formation without breaking.
Bobor biofertilizer should be packaged in 250 g quantities into polythene bags. After filling, the bags should be sealed using an electric sealer and labeled appropriately to ensure proper identification and usage.
Using biofertilizers like Bobor improves soil fertility, enhances nutrient availability to plants, promotes beneficial microbial activity, and reduces reliance on chemical fertilizers, leading to more sustainable agricultural practices.
For more information on bioinoculants, you can refer to the 'Comprehensive Overview of Biotechnology and Its Applications.' Additionally, resources on agricultural tools and crop care practices are available in the respective guides linked in the video summary.
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