University of Sydney Handbooks - 2018 Archive

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Plant Production

PLANT PRODUCTION

Advanced coursework and projects will be available in 2020 for students who complete this major.

Plant Production major

A major in Plant Production requires 48 credit points from this table including:
(i) 12 credit points of 1000-level core units
(ii) 12 credit points of 2000-level core units
(iii) 12 credit points of 3000-level core units, including 1 interdisciplinary unit and 1 project unit
(iv) 12 credit points of 3000-level selective units

Plant Production minor

A minor in Plant Production requires 36 credit points from this table including:
(i) 12 credit points of 1000-level core units
(ii) 12 credit points of 2000-level core units
(iii) 12 credit points of 3000-level core units

Units of study

The units of study are listed below.

1000-level units of study

Core
BIOL1006 Life and Evolution

Credit points: 6 Teacher/Coordinator: A/Prof Charlotte Taylor Session: Semester 1,Summer Main Classes: Two lectures per week Prohibitions: BIOL1001 or BIOL1911 or BIOL1991 or BIOL1906 or BIOL1996 Assumed knowledge: HSC Biology. Students who have not completed HSC Biology (or equivalent) are strongly advised to take the Biology Bridging Course (offered in February). Assessment: Practical and communication (40%), during semester exams (20%), summative final exam (40%) Practical field work: 11 x 3-hour lab classes, a field excursion Mode of delivery: Normal (lecture/lab/tutorial) day
Biology is an immensely diverse science. Biologists study life at all levels, from the fundamental building blocks (genes, proteins) to whole ecosystems in which myriads of species interact. Evolution is the unifying concept that runs through the life sciences, from the origin and diversification of life to understanding behaviour, to dealing with disease. Evolution through natural selection is the framework in biology in which specific details make sense. This unit explores how new species continue to arise while others go extinct and discusses the role of mutations as the raw material on which selection acts. It explains how information is transferred between generations through DNA, RNA and proteins, transformations which affect all aspects of biological form and function. Science builds and organises knowledge of life and evolution in the form of testable hypotheses. You will participate in inquiry-led practical classes investigating single-celled organisms and the diversity of form and function in plants and animals. By doing this unit of study, you will develop the ability to examine novel biological systems and understand the complex processes that have shaped those systems.
Textbooks
Please see unit outline on LMS
BIOL1906 Life and Evolution (Advanced)

Credit points: 6 Teacher/Coordinator: A/Prof Charlotte Taylor Session: Semester 1 Classes: Two lectures per week Prohibitions: BIOL1001 or BIOL1911 or BIOL1991 or BIOL1006 or BIOL1996 Assumed knowledge: 85 or above in HSC Biology or equivalent. Assessment: Practical and communication (40%), during semester exams (20%), summative final exam (40%) Practical field work: 11 x 3-hour lab classes, a field excursion Mode of delivery: Normal (lecture/lab/tutorial) day
Note: Department permission required for enrolment
Biology is an immensely diverse science. Biologists study life at all levels, from the fundamental building blocks (genes, proteins) to whole ecosystems in which myriads of species interact. Evolution is the unifying concept that runs through the life sciences, from the origin and diversification of life to understanding behaviour, to dealing with disease. Evolution through natural selection is the framework in biology in which specific details make sense. This unit explores how new species continue to arise while others go extinct and discusses the role of mutations as the raw material on which selection acts. It explains how information is transferred between generations through DNA, RNA and proteins, transformations which affect all aspects of biological form and function. Science builds and organises knowledge of life and evolution in the form of testable hypotheses. You will participate in inquiry-led practical classes investigating single-celled organisms and the diversity of form and function in plants and animals.
Life and Evolution (Advanced) has the same overall structure as BIOL1006 but material is discussed in greater detail and at a more advanced level. Students enrolled in BIOL1906 participate in a research project with a focus on developing skills in critical evaluation, experimental design, data analysis and communication.
Textbooks
Please see unit outline on LMS
BIOL1996 Life and Evolution (SSP)

Credit points: 6 Teacher/Coordinator: Dr Mark de Bruyn Session: Semester 1 Classes: Lectures as per BIOL1906; one 3-hour practical per week Prohibitions: BIOL1001 or BIOL1911 or BIOL1991 or BIOL1006 or BIOL1906 or BIOL1993 or BIOL1998 Assumed knowledge: 90 or above in HSC Biology or equivalent Assessment: One 2-hour exam (50%), practical reports (25%), seminar presentation (15%), lab note book (5%), prelaboratory quizzes (5%) Practical field work: null Mode of delivery: Normal (lecture/lab/tutorial) day
Note: Department permission required for enrolment
Biology is an immensely diverse science. Biologists study life at all levels, from the fundamental building blocks (genes, and proteins) to whole ecosystems in which myriad species interact. Evolution is the unifying concept that runs through the life sciences, from the origin and diversification of life to understanding behaviour, to dealing with disease. Evolution through natural selection is the framework in biology in which specific details make sense. Science builds and organises knowledge of life and evolution in the form of testable hypotheses. The practical work syllabus for BIOL1996 is different from that of BIOL1906 (Advanced) and consists of a special project-based laboratory.
Textbooks
Please see unit outline on LMS
BIOL1007 From Molecules to Ecosystems

Credit points: 6 Teacher/Coordinator: Dr Emma Thompson Session: Semester 2,Summer Main Classes: Two lectures per week and online material and 12 x 3-hour practicals Prohibitions: BIOL1907 or BIOL1997 Assumed knowledge: HSC Biology. Students who have not completed HSC Biology (or equivalent) are strongly advised to take the Biology Bridging Course (offered in February). Assessment: Quizzes (10%), communication assessment (40%), skills tests (10%), summative final exam (40%) Mode of delivery: Normal (lecture/lab/tutorial) day
Paradigm shifts in biology have changed the emphasis from single biomolecule studies to complex systems of biomolecules, cells and their interrelationships in ecosystems of life. Such an integrated understanding of cells, biomolecules and ecosystems is key to innovations in biology. Life relies on organisation, communication, responsiveness and regulation at every level. Understanding biological mechanisms, improving human health and addressing the impact of human activity are the great challenges of the 21st century. This unit will investigate life at levels ranging from cells, and biomolecule ecosystems, through to complex natural and human ecosystems. You will explore the importance of homeostasis in health and the triggers that lead to disease and death. You will learn the methods of cellular, biomolecular, microbial and ecological investigation that allow us to understand life and discover how expanding tools have improved our capacity to manage and intervene in ecosystems for our own health and organisms in the environment that surround and support us . You will participate in inquiry-led practicals that reinforce the concepts in the unit. By doing this unit you will develop knowledge and skills that will enable you to play a role in finding global solutions that will impact our lives.
Textbooks
Please see unit outline on LMS
BIOL1907 From Molecules to Ecosystems (Advanced)

Credit points: 6 Teacher/Coordinator: Prof Pauline Ross Session: Semester 2 Classes: Two lectures per week and online material and 12 x 3-hour practicals Prohibitions: BIOL1007 or BIOL1997 Assumed knowledge: 85 or above in HSC Biology or equivalent Assessment: Quizzes (10%), communication assessment (40%), skills tests (10%), summative exam (40%) Mode of delivery: Normal (lecture/lab/tutorial) day
Note: Department permission required for enrolment
Paradigm shifts in biology have changed the emphasis from single biomolecule studies to complex systems of biomolecules, cells and their interrelationships in ecosystems of life. Such an integrated understanding of cells, biomolecules and ecosystems is key to innovations in biology. Life relies on organisation, communication, responsiveness and regulation at every level. Understanding biological mechanisms, improving human health and addressing the impact of human activity are the great challenges of the 21st century. This unit will investigate life at levels ranging from cells, and biomolecule ecosystems, through to complex natural and human ecosystems. You will explore the importance of homeostasis in health and the triggers that lead to disease and death. You will learn the methods of cellular, biomolecular, microbial and ecological investigation that allow us to understand life and discover how expanding tools have improved our capacity to manage and intervene in ecosystems for our own health and organisms in the environment that surround and support us . This unit of study has the same overall structure as BIOL1007 but material is discussed in greater detail and at a more advanced level. The content and nature of these components may vary from year to year.
Textbooks
Please see unit outline on LMS
BIOL1997 From Molecules to Ecosystems (SSP)

Credit points: 6 Teacher/Coordinator: Dr Dale Hancock Session: Semester 2 Classes: Two lectures per week and online material Prohibitions: BIOL1007 or BIOL1907 Assumed knowledge: 90 or above in HSC Biology or equivalent Assessment: One 2-hour exam (50%), project report which includes written report and presentation (50%) Practical field work: As advised and required by the project; approximately 30-36 hours of research project in the laboratory or field Mode of delivery: Normal (lecture/lab/tutorial) day
Note: Department permission required for enrolment
Paradigm shifts in biology have changed the emphasis from single biomolecule studies to complex systems of biomolecules, cells and their interrelationships in ecosystems of life. Such an integrated understanding of cells, biomolecules and ecosystems is key to innovations in biology. Life relies on organisation, communication, responsiveness and regulation at every level. Understanding biological mechanisms, improving human health and addressing the impact of human activity are the great challenges of the 21st century. This unit will investigate life at levels ranging from cells, and biomolecule ecosystems, through to complex natural and human ecosystems. You will explore the importance of homeostasis in health and the triggers that lead to disease and death. You will learn the methods of cellular, biomolecular, microbial and ecological investigation that allow us to understand life and intervene in ecosystems to improve health. The same theory will be covered as in the advanced stream but in this Special Studies Unit, the practical component is a research project. The research will be either a synthetic biology project investigating genetically engineered organisms or organismal/ecosystems biology. Students will have the opportunity to develop higher level generic skills in computing, communication, critical analysis, problem solving, data analysis and experimental design.
Textbooks
Please see unit outline on LMS

2000-level units of study

Core
BIOL2031 Plants and Environment

Credit points: 6 Teacher/Coordinator: Prof Brent Kaiser Session: Semester 2 Classes: Two lectures; one 4-hour practical session on a weekly basis Prohibitions: AGEN2005 or BIOL3043 or BIOL3943 or BIOL2931 Assumed knowledge: Knowledge of concepts and skills in BIOL1XX6. Assessment: Online quiz (20%), lab assignment (15%), presentation (15%), exam (50%) Mode of delivery: Normal (lecture/lab/tutorial) day
Plants grow across a range of environments, influencing form, function and ultimately reproductive success. Being sessile, plants lack the luxury of seeking an alternative 'stress-free lifestyle' and therefore rely on genetic and physical adaptations to survive and reproduce. To understand how a plant can achieve such flexibility requires knowledge of plant structure and the influence of environmental drivers on plant growth and function. In this unit, you will examine the physiological processes controlling plant growth and reproduction linked to environmental constraints. You will understand the relationship between tissue and cellular structure and their underlying role in physiological and metabolic activities, particularly processes involving light capture, photosynthesis, water regulation, nutrient management and metabolite redistribution. Lectures and interactive practicals will together introduce you to plant processes that underpin life on earth. Experimentation and analysis of plant physiological processes will develop a skill base that will lead to a greater understanding and appreciation of common plant processes. As a component of the Plant Science minor and the Plant Production major, BIOL2031 will provide an important platform to extend your interests in plant science and plant related fields across the curriculum.
Textbooks
Taiz, L. and Zeiger, E. (2010) Plant Physiology, Fifth Edition. Sinauer Associates. Sunderland, MA.
BIOL2931 Plants and Environment (Advanced)

Credit points: 6 Teacher/Coordinator: Prof Brent Kaiser Session: Semester 2 Classes: Two 1-hour lectures/week; one 4-hour practical/week Prerequisites: Annual average mark of at least 70 in previous year Prohibitions: AGEN2005 or BIOL3043 or BIOL3943 or BIOL2031 Assumed knowledge: Knowledge of concepts and skills in BIOL1XX6. Assessment: On-line quiz (20%), lab assignment (15%), independent project (15%), exam (50%) Mode of delivery: Normal (lecture/lab/tutorial) day
Plants grow across a range of environments, which influence form, function and ultimately reproductive success. Being sessile, plants lack the luxury of seeking an alternative 'stress-free lifestyle' and therefore rely on genetic and physical adaptations to help survive and reproduce. To understand how a plant can achieve such flexibility requires an understanding of plant structure and the influence that environmental drivers have on plant growth and function. In this unit, you will examine the physiological processes controlling plant growth and reproduction linked to environmental constraints. You will understand the relationship between tissue and cellular structure and their underlying role in physiological and metabolic activities, particularly processes involving light capture, photosynthesis, water regulation, nutrient management and metabolite redistribution. Lectures and interactive practicals will together introduce you to plant processes that we commonly depend upon for food production, and plant related materials. Experimentation and analysis of plant physiological processes will develop a skill base that will lead to a greater understanding and appreciation of common plant processes that guide plant growth. As a component of the Plant Science minor, this unit will provide an important platform to extend your interests in plant science and plant-related fields, including ecology, cell biology, genetics, breeding, agriculture, molecular biology, environmental law, education and the arts. The advanced unit has the same overall concepts as BIOL2031 but material is discussed in a manner that offers a greater level of challenge and academic rigour. Students enrolled in BIOL2931 participate in alternative components, which include a separate lecture and practical stream. The content and nature of these components may vary from year to year.
Textbooks
Resources required by the unit will be provided on the Blackboard learning management page for the unit. Taiz, L. and Zeiger, E. (2010) Plant Physiology, Fifth Edition. Sinauer Associates. Sunderland, MA.
AGRI2001 to be developed for offering in 2019.

3000-level units of study

Core
AGRI3X05 and BIOL3019 to be developed for offering in 2019.
Selective
AFNR3001 Agro-ecosystems in Developing Countries

Credit points: 6 Teacher/Coordinator: A/Prof Damien Field Session: Semester 1 Classes: One 18 days fieldtrip before the start of semester 1, online tutorials Assessment: Participation (20%), research topic proposal (20%), oral presentation (20%), major report (40%) Practical field work: One 18 day field school Mode of delivery: Normal (lecture/lab/tutorial) day
Note: Department permission required for enrolment
This unit provides students with a direct contact with the agricultural reality of a developing country through a fieldtrip. Active learning in the field through contacts with farmers, public servants, cooperatives, private firms and NGOs should then motivate a critical reflection on the constraints to agricultural development in these environments.
The fieldtrip will be organized around central themes (for example, technology adoption, sustainable use of resources, access to credit, land use change) that will be introduced in a short series of seminars (held on main campus ahead of the departure and intended to provide a first introduction to some of the questions that are expected to be addressed in the field) and will constitute the focus of group work once back to main campus.
Although there are no formal prerequisites, the unit is directed to students that have completed most of the second year units in their degrees.
N.B. Department permission required for enrolment. Please note that, in practice, this unit will run prior to the start of semester 1 with all classes and the fieldtrip being scheduled during that period.
ENVX3001 Environmental GIS

Credit points: 6 Teacher/Coordinator: A/Prof Inakwu Odeh Session: Semester 2 Classes: Three-day field trip, (two lectures and two practicals per week) Prerequisites: 6cp from (ENVI1003, AGEN1002) or 6cp from GEOS1XXX or 6cp from BIOL1XXX Assessment: One 15-minute presentation (10%), 3500wd prac report (35%), 1500wd report on trip excursion (15%), 2-hour exam (40%) Mode of delivery: Normal (lecture/lab/tutorial) day
This unit is designed to impart knowledge and skills in spatial analysis and geographical information science (GISc) for decision-making in an environmental context. The lecture material will present several themes: principles of GISc, geospatial data sources and acquisition methods, processing of geospatial data and spatial statistics. Practical exercises will focus on learning geographical information systems (GIS) and how to apply them to land resource assessment, including digital terrain modelling, land-cover assessment, sub-catchment modelling, ecological applications, and soil quality assessment for decisions regarding sustainable land use and management. A three day field excursion during the mid-semester break will involve a day of GPS fieldwork at Arthursleigh University farm and two days in Canberra visiting various government agencies which research and maintain GIS coverages for Australia. By the end of this UoS, students should be able to: differentiate between spatial data and spatial information; source geospatial data from government and private agencies; apply conceptual models of spatial phenomena for practical decision-making in an environmental context; apply critical analysis of situations to apply the concepts of spatial analysis to solving environmental and land resource problems; communicate effectively results of GIS investigations through various means- oral, written and essay formats; and use a major GIS software package such as ArcGIS.
Textbooks
Burrough, P.A. and McDonnell, R.A. 1998. Principles of Geographic Information Systems. Oxford University Press: Oxford.
HORT3005 Production Horticulture

Credit points: 6 Teacher/Coordinator: Prof Daniel Tan Session: Semester 1 Classes: Two 1-hour lectures; one 3-hour practical/workshop per week Prerequisites: (AGEN2001 and AGEN2005) or BIOL2X30 or BIOL2X31 or BIOL2X23 or AGEN2002 or AGRI2001 Assessment: One 3-hour exam (55%), three assignments (45%). Mode of delivery: Normal (lecture/lab/tutorial) day
This unit of study covers topics on the production of high quality food from perennial fruit crops, wine grapes, vegetables. It also covers the key aspects of the postharvest handling and quality assurance of fresh produce. At the end of this unit students are expected to have a detailed understanding of these areas of horticultural food production and be able to discuss related literature and the physiological principles underlying the commercial success of these horticultural enterprises. Students will also gain research and enquiry skills through research based practical sessions and assignments.
Textbooks
Recommended reading:
BIOL3020 and SOIL3011 to be developed for offering in 2019.