Agricultural biotechnology is a key junction of science and agriculture that uses modern techniques, such as genetic engineering, to improve the genetic composition of plants, animals, and microbes. This field makes substantial contributions to boosting agricultural yields and enhancing pest and disease resistance, hence playing an important role in guaranteeing food security. Furthermore, agricultural biotechnology promotes sustainable methods that not only increase productivity but also safeguard the environment. By generating creative solutions, this discipline addresses the pressing difficulties of food production in a fast changing world, aiming to fulfill the expanding demands of a growing population while fostering ecological balance.
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Level | Program | Eligibility Criteria |
---|---|---|
Undergraduate | B.Sc. in Agricultural Biotechnology | Candidates must have completed their 12th grade in Science, achieving a minimum of 50% marks. |
Postgraduate | M.Sc. in Agricultural Biotechnology | A bachelor's degree in Biotechnology or a closely related field is required. |
Diploma | Diploma in Biotechnology | Applicants should have successfully completed their 12th grade in Science. |
Certificate | Certificate in Agricultural Biotechnology | Open to individuals from all educational backgrounds; specific entry requirements may vary. |
Institute Name | City | State |
---|---|---|
Indian Agricultural Research Institute (IARI) | New Delhi | Delhi |
National Institute of Agricultural Biotechnology | Mohali | Punjab |
University of Agricultural Sciences, Bangalore | Bangalore | Karnataka |
Tamil Nadu Agricultural University | Coimbatore | Tamil Nadu |
National Centre for Plant Genome Research | New Delhi | Delhi |
Entrance Exam | Conducting Body |
---|---|
ICAR AIEEA | Indian Council of Agricultural Research |
PU CET | Punjab University |
KCET | Karnataka Examination Authority |
TNAU Entrance Exam | Tamil Nadu Agricultural University |
JET (Joint Entrance Test) | Various state agricultural universities |
- Develop genetically engineered crops to increase production and resistance.
- Conduct study on genetic characteristics and their applications.
- Work with agricultural stakeholders to deploy biotech solutions.
- Analyze data and provide conclusions on biotechnology research.
- Ensure regulatory compliance in biotech applications.
Pros | Cons |
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Engages with innovative advancements of global significance. | Ethical considerations surrounding genetically modified organisms (GMOs). |
Offers diverse career opportunities in research and development. | Regulatory challenges can be complex and cumbersome. |
Holds substantial potential to impact food security positively. | Requires extensive technical expertise and knowledge. |
Provides opportunities for interdisciplinary collaboration across various sectors. | Faces public perception challenges regarding biotechnology. |