HR901-20 Advances in Crop Protection
Introductory description
This module aims to teach students the importance and impact of plant pests, diseases and weeds on food production and provide them with a thorough understanding of their biology and ecology.
Module aims
This knowledge will underpin an examination of the principles behind the wide range of different control approaches that can be applied and an analysis of how these may be combined in an integrated crop management system. The conflicting requirements of environmental and crop protection will also be addressed.
Outline syllabus
This is an indicative module outline only to give an indication of the sort of topics that may be covered. Actual sessions held may differ.
Causes of disease; types of plant pathogens Biology and ecology of pests, pathogens and weeds Plant pathogen infection processes Introduction to molecular biology and application in plant pathology Plant pathogen detection and discrimination Plant population dynamics Chemical control measures for pests, diseases and weeds Biological control of pests, diseases and weeds Monitoring and forecasting of pests and diseases Plant genetics and resistance to pests and diseases Resistance management Components of integrated crop pest and disease management systems
Learning outcomes
By the end of the module, students should be able to:
- Demonstrate understanding of the impact of plant pests, diseases and weeds on food production and global food security
- Demonstrate understanding and have knowledge of the key concepts and mechanisms associated with the biology and ecology of plant pathogens, pests and weeds and how these relate to different control strategies.
- Have knowledge of and critically assess the range of advanced approaches for controlling pests, diseases and weeds.
- Develop and evaluate the components of integrated crop pest and disease management systems and how these interact with economics, legislation and and the environment.
- Demonstrate understanding, knowledge and practice independently the experimental techniques in plant pathology, entomology and weed science
Indicative reading list
Agrios, GN. 2005. Plant Pathology (fifth edition) Academic Press. ISBN 0-12-044565-4 Cousens, R & Mortimer, M. (1995) Dynamics of weed populations. Cambridge University Press. Dent, D. (2000). Insect Pest Management. CABI Publishing, ISBN 0851993419 Dickinson M. Molecular Plant Pathology. (2003) Garland Science (UK) ISBN 1859960448 Fenner, M. (2000) Seeds: The ecology of regeneration in plant communities. 2nd Edition. CABI Publishing Grime, JP. (2002) Plant strategies, vegetation processes and ecosystem properties, 2nd Edition. John Wiley & Sons Ltd. Hajek, A. (2003) Natural Enemies: An Introduction to Biological Control. Cambridge University Press, ISBN 052165292 Hull, R. (ed) Matthews' plant virology. 4th ed. Harcourt Academic Press 2001. ISBN 0123611601 Jeffers, J.N.R. (1982) Modelling. Chapman & Hall, ISBN 0 412 24360 1
Koul, O; Dhaliwal, G. S.; Cuperus, G. W. (2004) Integrated Pest Management: Potential, Constraints and Challenges. CABI Publishing, ISBN 0851996868 Maier, R.M. et al (2000) Environmental microbiology Academic Press ISBN 0124975704 Matthews (2002) Matthews' plant virology (4th ed.) Roger Hull. Naylor, EL . (2002) Weed Management Handbook, 9th Edition. Blackwell Publishing Panda, N; Kush, G. S.; Khush, G.S. (1995). Host Plant Resistance to Insects. CABI Publishing, ISBN 085198632 Silvertown JW & Charlesworth D. (2001) An Introduction to Plant Population Biology (4th Edition). Blackwell Press. Singh RS. Plant Disease Management (2001) ISBN 1-57808-160-2; Strange, R. L. Introduction to plant pathology. Wiley-VCH, 2003. ISBN 047084973 8
View reading list on Talis Aspire
Subject specific skills
To understand the impact of plant pests, diseases and weeds on food production. To understand key concepts associated with the biology and ecology of plant pathogens, pests and weeds. To assess a range of advanced approaches for controlling pests, diseases and weeds. To develop and evaluate the components of integrated crop pest and disease management systems. To analyse the conflicting and complex requirements of environmental and crop protection.
Transferable skills
Analysis and evaluation
Study time
Type | Required |
---|---|
Lectures | 29 sessions of 1 hour (12%) |
Seminars | 12 sessions of 1 hour (5%) |
Practical classes | 2 sessions of 6 hours (5%) |
Private study | 147 hours (59%) |
Assessment | 50 hours (20%) |
Total | 250 hours |
Private study description
Independent research
Costs
No further costs have been identified for this module.
You do not need to pass all assessment components to pass the module.
Assessment group A5
Weighting | Study time | Eligible for self-certification | |
---|---|---|---|
Assessed Essay | 60% | 30 hours | Yes (extension) |
In-module test | 40% | 20 hours | No |
1 hour |
Feedback on assessment
Written feedback released through Moodle.
Courses
This module is Core for:
-
THRA-D4A3 Postgraduate Taught Food Security
- Year 1 of D4A3 Food Security
- Year 1 of D4A3 Food Security
- Year 1 of THRA-D4A2 Postgraduate Taught Sustainable Crop Production: Agronomy for the 21st Century
This module is Optional for:
- Year 1 of ULFA-C1A1 Undergraduate Biological Sciences (MBio)