Curriculum Structure for Agriculture Program
The Agriculture program at Shri Shankaracharya Professional University Durg is structured over eight semesters, with a carefully designed curriculum that balances theoretical knowledge with practical application. The program includes core courses, departmental electives, science electives, and laboratory sessions that provide students with a comprehensive understanding of the field.
| Semester | Course Code | Course Title | Credit Structure (L-T-P-C) | Prerequisites |
|---|---|---|---|---|
| 1 | AG-101 | Introduction to Agriculture | 3-0-0-3 | None |
| 1 | AG-102 | Basic Biology | 3-0-0-3 | None |
| 1 | AG-103 | Basic Chemistry | 3-0-0-3 | None |
| 1 | AG-104 | Physics for Agriculture | 3-0-0-3 | None |
| 1 | AG-105 | Introduction to Soil Science | 3-0-0-3 | None |
| 1 | AG-106 | Plant Physiology | 3-0-0-3 | None |
| 1 | AG-107 | Basic Agronomy | 3-0-0-3 | None |
| 1 | AG-108 | Introduction to Agricultural Economics | 3-0-0-3 | None |
| 1 | AG-109 | Basic Laboratory Practice | 0-0-3-1 | None |
| 1 | AG-110 | Field Practice I | 0-0-3-1 | None |
| 2 | AG-201 | Soil Chemistry and Physics | 3-0-0-3 | AG-105 |
| 2 | AG-202 | Plant Pathology | 3-0-0-3 | AG-106 |
| 2 | AG-203 | Plant Breeding Principles | 3-0-0-3 | AG-106 |
| 2 | AG-204 | Crop Production Techniques | 3-0-0-3 | AG-107 |
| 2 | AG-205 | Agrochemicals and Pesticides | 3-0-0-3 | AG-103 |
| 2 | AG-206 | Agricultural Economics | 3-0-0-3 | AG-108 |
| 2 | AG-207 | Soil Fertility Management | 3-0-0-3 | AG-201 |
| 2 | AG-208 | Plant Physiology and Biochemistry | 3-0-0-3 | AG-106 |
| 2 | AG-209 | Basic Laboratory Practice II | 0-0-3-1 | AG-109 |
| 2 | AG-210 | Field Practice II | 0-0-3-1 | AG-110 |
| 3 | AG-301 | Agricultural Biotechnology | 3-0-0-3 | AG-202, AG-203 |
| 3 | AG-302 | Plant Pathology and Microbiology | 3-0-0-3 | AG-202 |
| 3 | AG-303 | Seed Technology | 3-0-0-3 | AG-203 |
| 3 | AG-304 | Agricultural Engineering Principles | 3-0-0-3 | AG-104 |
| 3 | AG-305 | Climate Change and Agriculture | 3-0-0-3 | AG-206 |
| 3 | AG-306 | Environmental Science | 3-0-0-3 | AG-201 |
| 3 | AG-307 | Agroforestry and Natural Resource Management | 3-0-0-3 | AG-206 |
| 3 | AG-308 | Post-Harvest Technology | 3-0-0-3 | AG-204 |
| 3 | AG-309 | Advanced Laboratory Practice | 0-0-3-1 | AG-209 |
| 3 | AG-310 | Field Practice III | 0-0-3-1 | AG-210 |
| 4 | AG-401 | Advanced Plant Breeding | 3-0-0-3 | AG-303 |
| 4 | AG-402 | Genetic Engineering | 3-0-0-3 | AG-301 |
| 4 | AG-403 | Agricultural Data Analysis | 3-0-0-3 | AG-206 |
| 4 | AG-404 | Agrochemicals and Pest Management | 3-0-0-3 | AG-205 |
| 4 | AG-405 | Agricultural Policy and Planning | 3-0-0-3 | AG-206 |
| 4 | AG-406 | Water Management in Agriculture | 3-0-0-3 | AG-201 |
| 4 | AG-407 | Soil Conservation and Land Use Planning | 3-0-0-3 | AG-207 |
| 4 | AG-408 | Food Processing Technology | 3-0-0-3 | AG-308 |
| 4 | AG-409 | Research Methodology | 0-0-3-1 | AG-309 |
| 4 | AG-410 | Field Practice IV | 0-0-3-1 | AG-310 |
| 5 | AG-501 | Advanced Soil Science | 3-0-0-3 | AG-201 |
| 5 | AG-502 | Plant Physiology and Metabolism | 3-0-0-3 | AG-208 |
| 5 | AG-503 | Biotechnology in Agriculture | 3-0-0-3 | AG-301 |
| 5 | AG-504 | Agrochemicals and Their Impact | 3-0-0-3 | AG-205 |
| 5 | AG-505 | Agricultural Economics and Market Analysis | 3-0-0-3 | AG-206 |
| 5 | AG-506 | Climate Resilience in Agriculture | 3-0-0-3 | AG-305 |
| 5 | AG-507 | Advanced Crop Management | 3-0-0-3 | AG-204 |
| 5 | AG-508 | Advanced Laboratory Practice II | 0-0-3-1 | AG-409 |
| 5 | AG-509 | Field Practice V | 0-0-3-1 | AG-410 |
| 5 | AG-510 | Internship I | 0-0-0-3 | AG-508 |
| 6 | AG-601 | Advanced Plant Breeding Techniques | 3-0-0-3 | AG-401 |
| 6 | AG-602 | Genetic Modification and Transgenic Plants | 3-0-0-3 | AG-402 |
| 6 | AG-603 | Advanced Data Analysis in Agriculture | 3-0-0-3 | AG-403 |
| 6 | AG-604 | Environmental Impact Assessment | 3-0-0-3 | AG-306 |
| 6 | AG-605 | Research and Development in Agriculture | 3-0-0-3 | AG-508 |
| 6 | AG-606 | Agricultural Policy and Governance | 3-0-0-3 | AG-505 |
| 6 | AG-607 | Advanced Irrigation Techniques | 3-0-0-3 | AG-406 |
| 6 | AG-608 | Advanced Food Processing | 3-0-0-3 | AG-408 |
| 6 | AG-609 | Advanced Laboratory Practice III | 0-0-3-1 | AG-508 |
| 6 | AG-610 | Field Practice VI | 0-0-3-1 | AG-509 |
| 7 | AG-701 | Specialized Topics in Plant Science | 3-0-0-3 | AG-601 |
| 7 | AG-702 | Advanced Biotechnology Applications | 3-0-0-3 | AG-602 |
| 7 | AG-703 | Climate Change Adaptation Strategies | 3-0-0-3 | AG-506 |
| 7 | AG-704 | Research Ethics and Standards | 3-0-0-3 | AG-605 |
| 7 | AG-705 | Advanced Agricultural Economics | 3-0-0-3 | AG-505 |
| 7 | AG-706 | Advanced Soil Management | 3-0-0-3 | AG-501 |
| 7 | AG-707 | Advanced Crop Protection | 3-0-0-3 | AG-404 |
| 7 | AG-708 | Advanced Laboratory Practice IV | 0-0-3-1 | AG-609 |
| 7 | AG-709 | Field Practice VII | 0-0-3-1 | AG-610 |
| 7 | AG-710 | Internship II | 0-0-0-3 | AG-708 |
| 8 | AG-801 | Final Year Project | 0-0-0-6 | AG-708 |
| 8 | AG-802 | Advanced Research Project | 0-0-0-6 | AG-708 |
| 8 | AG-803 | Capstone Project | 0-0-0-6 | AG-708 |
| 8 | AG-804 | Industry Exposure Program | 0-0-0-3 | AG-710 |
| 8 | AG-805 | Professional Development | 0-0-0-3 | AG-708 |
| 8 | AG-806 | Thesis Writing and Presentation | 0-0-0-3 | AG-708 |
| 8 | AG-807 | Field Practice VIII | 0-0-3-1 | AG-709 |
| 8 | AG-808 | Graduation Ceremony | 0-0-0-0 | AG-807 |
Advanced Departmental Elective Courses
Advanced departmental elective courses in the Agriculture program at Shri Shankaracharya Professional University Durg are designed to provide students with in-depth knowledge and specialized skills in specific areas of the field. These courses are offered in the later semesters and are tailored to meet the diverse interests and career goals of students.
Advanced Plant Breeding Techniques: This course delves into the latest techniques and methodologies in plant breeding, including molecular markers, genomic selection, and gene editing. Students learn about the application of these techniques in developing new crop varieties with improved yield, disease resistance, and nutritional value. The course also covers the ethical considerations and regulatory aspects of genetically modified crops.
Genetic Modification and Transgenic Plants: This course explores the principles and applications of genetic modification in agriculture. Students study the techniques used to introduce foreign genes into plants, including Agrobacterium-mediated transformation and biolistic methods. The course also examines the safety and regulatory aspects of transgenic crops and their impact on biodiversity and food security.
Advanced Data Analysis in Agriculture: This course focuses on the application of statistical and computational methods in agricultural research and practice. Students learn to use software tools for data analysis, including R, Python, and SPSS. The course covers topics such as experimental design, regression analysis, and predictive modeling in agriculture.
Environmental Impact Assessment: This course provides students with the knowledge and skills to assess the environmental impact of agricultural practices. Students learn about the principles and methods of environmental impact assessment (EIA), including baseline studies, impact prediction, and mitigation strategies. The course also covers the legal and regulatory framework for environmental protection in agriculture.
Research and Development in Agriculture: This course introduces students to the research and development processes in agriculture. Students learn about research design, data collection, and analysis methods. The course also covers the role of R&D in innovation and technology transfer in agriculture, including case studies of successful agricultural innovations.
Agricultural Policy and Governance: This course examines the role of policy and governance in agricultural development. Students study the principles and practices of agricultural policy formulation, implementation, and evaluation. The course also covers the role of government agencies, non-governmental organizations, and international institutions in agricultural development.
Advanced Irrigation Techniques: This course explores the latest techniques and technologies in irrigation management. Students learn about drip irrigation, sprinkler systems, and precision irrigation methods. The course also covers water conservation techniques and the impact of irrigation on soil and water resources.
Advanced Food Processing: This course focuses on the principles and practices of food processing in agriculture. Students learn about food preservation, packaging, and quality control. The course also covers the application of biotechnology and nanotechnology in food processing and the development of functional foods.
Advanced Soil Management: This course provides in-depth knowledge of soil management practices and their impact on agricultural productivity. Students study soil health assessment, nutrient management, and soil conservation techniques. The course also covers the role of soil microorganisms in nutrient cycling and soil fertility.
Advanced Crop Protection: This course focuses on the latest methods and technologies for crop protection. Students learn about integrated pest management, biological control agents, and the use of biopesticides. The course also covers the impact of climate change on pest dynamics and the development of climate-resilient crop protection strategies.
Climate Change Adaptation Strategies: This course addresses the challenges and opportunities of climate change in agriculture. Students study the impact of climate change on crop production, livestock management, and natural resource use. The course also covers adaptation strategies and technologies for building climate resilience in agricultural systems.
Specialized Topics in Plant Science: This course allows students to explore specialized areas in plant science, such as plant biotechnology, plant physiology, and plant ecology. Students engage in advanced research projects and literature reviews in their chosen area of specialization.
Advanced Biotechnology Applications: This course explores the application of biotechnology in agriculture, including molecular diagnostics, gene therapy, and synthetic biology. Students learn about the latest advances in biotechnology and their potential impact on agricultural productivity and sustainability.
Advanced Agricultural Economics: This course provides advanced knowledge of agricultural economics and its application in policy and practice. Students study market analysis, risk management, and the economic impact of agricultural policies. The course also covers the role of agricultural economics in sustainable development and poverty reduction.
Advanced Crop Management: This course focuses on advanced techniques and strategies for crop management. Students learn about precision agriculture, crop modeling, and decision support systems. The course also covers the integration of technology and data analytics in crop management for improved productivity and sustainability.
Project-Based Learning Philosophy
The Agriculture program at Shri Shankaracharya Professional University Durg places a strong emphasis on project-based learning, recognizing that real-world experience is crucial for developing competent and confident graduates. The program integrates project work throughout the curriculum, from early semesters to the final year, ensuring that students gain practical skills and knowledge.
Mini-projects are introduced in the second and third semesters, allowing students to apply theoretical knowledge to practical problems. These projects are typically completed in groups and involve fieldwork, laboratory experiments, and data analysis. Students are guided by faculty mentors who provide feedback and support throughout the project lifecycle.
The final-year thesis/capstone project is a comprehensive, individual endeavor that requires students to conduct original research or develop a practical solution to a real-world agricultural challenge. This project is supervised by a faculty mentor and involves extensive literature review, experimental design, data collection, and analysis. Students present their findings in a formal thesis and defense session.
Students select their projects based on their interests and career goals, with guidance from faculty mentors. The selection process involves identifying a relevant research question, reviewing literature, and developing a project proposal. Faculty mentors help students refine their ideas and provide resources and expertise to support their research.
Project evaluation criteria include the clarity of the research question, the methodology employed, the quality of data analysis, the relevance of findings, and the presentation of results. Students are assessed on their ability to work independently, collaborate effectively, and communicate their findings clearly.
The program also encourages students to participate in national and international competitions, hackathons, and research symposiums. These events provide opportunities for students to showcase their work, network with professionals, and gain recognition for their achievements.