Table 1: Plant Science
Unit of study | Credit points | A: Assumed knowledge P: Prerequisites C: Corequisites N: Prohibition | Session |
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Plant Science |
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For a major in Plant Science, the minimum requirement is 24 credit points from senior units of study listed in this subject area, which must include BIOL3043/3943, two additional senior BIOL units, and one of PPAT3003 or HORT3005. | |||
Intermediate units of study |
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BIOL2009 Intro to Terrestrial Field Ecology |
6 | A Basic experimental design and statistical analysis. P 12cp from (BIOL1XXX, MBLG1XXX) N BIOL2909 or BIOL3009 or BIOL3909 Note: Department permission required for enrolment This unit requires School permission to enrol; please see the School of Life and Environmental Sciences website for details on how to apply. Entry into the unit is based on placement availability and selection is competitive based on academic performance in the pre-requisite units of study. Academic performance in any intermediate BIOL units of study may also be considered. |
Intensive July |
BIOL2909 Intro to Terrestrial Field Ecology (Adv) |
6 | A Basic experimental design and statistical analysis. P An average of 75 or above in 12cp from (BIOL1XXX, MBLG1XXX) N BIOL2009 or BIOL3009 or BIOL3909 Note: Department permission required for enrolment This unit requires School permission to enrol; please see the School of Life and Environmental Sciences website for details on how to apply. Entry into the unit is based on placement availability and selection is competitive based on academic performance in the pre-requisite units of study. Academic performance in any intermediate BIOL units of study may also be considered. |
Intensive July |
BIOL2029 Cells |
6 | P BIOL1XX7 or MBLG1XXX N BIOL2016 or BIOL2916 or BIOL2929 |
Semester 1 |
BIOL2929 Cells (Advanced) |
6 | P A mark of at least 70 from (BIOL1XX7 or MBLG1XX1) N BIOL2016 or BIOL2916 orBIOL2029 |
Semester 1 |
BIOL2022 Biology Experimental Design and Analysis |
6 | A BIOL1XXX or MBLG1XXX P 6cp from (BIOL1XXX or MBLG1XXX or ENVX1001 or ENVX1002 or DATA1001 or MATH1XX5) N BIOL2922 or BIOL3006 or BIOL3906 |
Semester 2 |
BIOL2922 Biol Experimental Design and Analysis Adv |
6 | A BIOL1XXX or MBLG1XXX P [An annual average mark of at least 70 in the previous year] and [6cp from (BIOL1XXX or MBLG1XXX or ENVX1001 or ENVX1002 or DATA1001 or MATH1XX5)] N BIOL2022 or BIOL3006 or BIOL3906 |
Semester 2 |
BIOL2030 Botany |
6 | A Knowledge of concepts and skills in BIOL1XX6. N BIOL2023 or BIOL2923 or AGEN2001 or PLNT2001 or PLNT2901 or PLNT2002 or PLNT2902 or PLNT2003 or PLNT2903 or AGEN2005 or BIOL2930 |
Semester 1 |
BIOL2930 Botany (Advanced) |
6 | A Knowledge of concepts and skills in BIOL1XX6. P Annual average mark of at least 70 in previous year N BIOL2023 or BIOL2923 or AGEN2001 or PLNT2001 or PLNT2901 or PLNT2002 or PLNT2902 or PLNT2003 or PLNT2903 or AGEN2005 or BIOL2030 |
Semester 1 |
BIOL2024 Ecology and Conservation |
6 | A BIOL1XXX or MBLG1XXX N BIOL2924 |
Semester 2 |
BIOL2924 Ecology and Conservation (Advanced) |
6 | A BIOL1XXX or MBLG1XXX P An annual average mark of at least 70 in the previous year N BIOL2024 |
Semester 2 |
GEGE2001 Genetics and Genomics |
6 | A Mendellian genetics, mechanisms of evolution, molecular and chromosomal bases of inheritance, and gene regulation and expression. N GENE2002 or MBLG2972 or GEGE2901 or MBLG2072 |
Semester 1 Semester 2 |
GEGE2901 Genetics and Genomics (Advanced) |
6 | A Mendellian genetics, mechanisms of evolution, molecular and chromosomal bases of inheritance, and gene regulation and expression. P Annual average mark of at least 70 N GENE2002 or MBLG2072 or GEGE2001 or MBLG2972 |
Semester 1 Semester 2 |
Senior units of study |
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BIOL3007 Ecology |
6 | P [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] N BIOL3907 |
Semester 2 |
BIOL3907 Ecology (Advanced) |
6 | P An average mark of 75 or above in [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] N BIOL3007 |
Semester 2 |
BIOL3009 Terrestrial Field Ecology |
6 | P [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] N BIOL3909 or BIOL2009 or BIOL2909 Note: Department permission required for enrolment This unit requires School permission to enrol; please see the School of Life and Environmental Sciences website for details on how to apply. Entry into the unit is based on placement availability and selection is competitive based on academic performance in the pre-requisite units of study. Academic performance in any Senior BIOL units of study may also be considered. |
Intensive July |
BIOL3909 Terrestrial Field Ecology (Advanced) |
6 | P An average mark of 75 or above in [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] N BIOL3009 or BIOL2009 or BIOL2909 Note: Department permission required for enrolment This unit requires School permission to enrol; please see the School of Life and Environmental Sciences website for details on how to apply. Entry into the unit is based on placement availability and selection is competitive based on academic performance in the pre-requisite units of study. Academic performance in any Senior BIOL units of study may also be considered. This unit is not offered from 2019. |
Intensive July |
BIOL3026 Developmental Genetics |
6 | P (MBLG2X72 or GEGE2X01 or GENE2002) and 6cp from (MBLG2X71 or BIOL2XXX or BCMB2XXX or QBIO2001 or IMMU2XXX) N BIOL3926 |
Semester 2 |
BIOL3926 Developmental Genetics (Advanced) |
6 | P An average mark of 75 or above in [(MBLG2X72 or GEGE2X01 or GENE2002) and (MBLG2X71 or BIOL2XXX or BCMB2XXX or QBIO2001 or IMMU2XXX)] N BIOL3929 or BIOL3026 |
Semester 2 |
BIOL3043 Plant Science |
6 | P [12cp of BIOL2XXX] OR [6cp from BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] N BIOL3943 or PLNT3001 or PLNT3901 or PLNT3002 or PLNT3902 |
Semester 2 |
BIOL3943 Plant Science (Advanced) |
6 | P An average mark of 75 or above in [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] N BIOL3043 or PLNT3001 or PLNT3901 or PLNT3002 or PLNT3902 |
Semester 2 |
BIOL3044 Evolution and Biodiversity |
6 | P [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] N BIOL3944 or BIOL3025 or BIOL3925 or PLNT3003 or PLNT3903 |
Semester 1 |
BIOL3944 Evolution and Biodiversity (Advanced) |
6 | P An average mark of 75 or above in [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] N BIOL3044 or BIOL3025 or BIOL3925 or PLNT3003 or PLNT3903 |
Semester 1 |
HORT3005 Production Horticulture |
6 | P (AGEN2001 and AGEN2005) or BIOL2X30 or BIOL2X31 or BIOL2X23 or AGEN2002 or AGRI2001 |
Semester 1 |
PPAT3003 Plant Health and Disease |
6 | P 6 credit points of Microbiology units |
Semester 1 |
Plant Science
For a major in Plant Science, the minimum requirement is 24 credit points from senior units of study listed in this subject area, which must include BIOL3043/3943, two additional senior BIOL units, and one of PPAT3003 or HORT3005.
Intermediate units of study
BIOL2009 Intro to Terrestrial Field Ecology
Credit points: 6 Teacher/Coordinator: Prof Glenda Wardle Session: Intensive July Classes: Note: One 6-day field trip held in the pre-semester break and four 4-hour practical classes during weeks 1-4 of semester 2 Prerequisites: 12cp from (BIOL1XXX, MBLG1XXX) Prohibitions: BIOL2909 or BIOL3009 or BIOL3909 Assumed knowledge: Basic experimental design and statistical analysis. Assessment: Two in-class quizzes (20%), major research report (40%), sampling project report (20%), research proposal and presentation (10%), data collection and analysis in teams (10%). Campus: Camperdown/Darlington, Sydney Mode of delivery: Field experience
Note: Department permission required for enrolment
Note: This unit requires School permission to enrol; please see the School of Life and Environmental Sciences website for details on how to apply. Entry into the unit is based on placement availability and selection is competitive based on academic performance in the pre-requisite units of study. Academic performance in any intermediate BIOL units of study may also be considered.
This intensive field-based course provides a practical introduction in the experimental analysis of terrestrial populations and assemblages. The experience is best suited to students who will continue into senior units of study in ecology. Students learn a broad range of ecological sampling techniques and develop a detailed understanding of the logical requirements necessary for manipulative ecological field experiments. The field work takes place in native forest and incorporates survey techniques for plants, small mammals and other fauna and thus provides a good background for ecological consulting work and an introduction into large-scale project management. Students attend a week-long field course and participate in a large-scale research project as part of a large team, as well as conducting a research project that they design with a small group of students. Emphasis is placed on critical thinking in the context of environmental management and technical skills are developed in the area of data handling and analysis, report writing and team work. Invited experts contribute to the lectures and discussions on issues relating to the ecology, conservation and management of Australia's terrestrial flora and fauna.
BIOL2909 Intro to Terrestrial Field Ecology (Adv)
Credit points: 6 Teacher/Coordinator: Prof Glenda Wardle Session: Intensive July Classes: Note: One 6-day field trip held in the pre-semester break and four 4-hour practical classes during weeks 1-4 of semester 2 Prerequisites: An average of 75 or above in 12cp from (BIOL1XXX, MBLG1XXX) Prohibitions: BIOL2009 or BIOL3009 or BIOL3909 Assumed knowledge: Basic experimental design and statistical analysis. Assessment: Discussions and quiz (10%), research project proposal and brief presentation (10%), sampling project report (20%), specimen collection (10%), research project report (50%) Campus: Camperdown/Darlington, Sydney Mode of delivery: Field experience
Note: Department permission required for enrolment
Note: This unit requires School permission to enrol; please see the School of Life and Environmental Sciences website for details on how to apply. Entry into the unit is based on placement availability and selection is competitive based on academic performance in the pre-requisite units of study. Academic performance in any intermediate BIOL units of study may also be considered.
This unit has the same objectives as BIOL2009 Terrestrial Field Ecology, and is suitable for qualified students who wish to pursue certain aspects at a more advanced level. Entry is restricted, and selection is made from the applicants on the basis of their previous performance. Students taking this unit of study will participate in alternatives to some elements of the standard course and will be required to pursue the objectives by more independent means. Specific details of this unit of study and assessment will be announced in meetings with students at the beginning of the unit.
This intensive field-based course provides a practical introduction in the experimental analysis of terrestrial populations and assemblages. The experience is best suited to students who will continue into senior units of study in ecology. Students learn a broad range of ecological sampling techniques and develop a detailed understanding of the logical requirements necessary for manipulative ecological field experiments. The field work takes place in native forest and incorporates survey techniques for plants, small mammals and other fauna and thus provides a good background for ecological consulting work and an introduction into large-scale project management. Students attend a week-long field course and participate in a large-scale research project as part of a large team as well as conducting a research project that they design with a small group of students. Emphasis is placed on critical thinking in the context of environmental management and technical skills are developed in the area of data handling and analysis, report writing and team work. Invited experts contribute to the lectures and discussions on issues relating to the ecology, conservation and management of Australia's terrestrial flora and fauna.
This intensive field-based course provides a practical introduction in the experimental analysis of terrestrial populations and assemblages. The experience is best suited to students who will continue into senior units of study in ecology. Students learn a broad range of ecological sampling techniques and develop a detailed understanding of the logical requirements necessary for manipulative ecological field experiments. The field work takes place in native forest and incorporates survey techniques for plants, small mammals and other fauna and thus provides a good background for ecological consulting work and an introduction into large-scale project management. Students attend a week-long field course and participate in a large-scale research project as part of a large team as well as conducting a research project that they design with a small group of students. Emphasis is placed on critical thinking in the context of environmental management and technical skills are developed in the area of data handling and analysis, report writing and team work. Invited experts contribute to the lectures and discussions on issues relating to the ecology, conservation and management of Australia's terrestrial flora and fauna.
BIOL2029 Cells
Credit points: 6 Teacher/Coordinator: Dr Murray Thomson Session: Semester 1 Classes: Two 1-hour lectures; one 4-hour practical per week Prerequisites: BIOL1XX7 or MBLG1XXX Prohibitions: BIOL2016 or BIOL2916 or BIOL2929 Assessment: 3-hour theory exam (60%), quizzes (lectures and laboratory work) (10%), marks for laboratory work (10%), report (20%) Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
Cell Biology is one of the most dynamic areas in science today. During development, a single cell zygote must undergo numerous divisions to become a multi-cellular organism. In both plants and animals, cell to cell communication and coordination of the cell cycle, as well as cellular division and migration, are vital for normal development. Stem cells follow specialisation pathways to become increasingly committed to differentiation, and transformation into specialised cells that group together to form the variety of tissues that make up animals and plants. In this unit you will investigate, the diversity of cell types, how these different cells interact with each other, how the cell cycle is controlled as well as studying the roles of cellular movement, differentiation and interaction in reproduction and development. In Cells you will develop a deep understanding of the established knowledge base and develop research skills to extend this knowledge. Discussions will incorporate recent advances in cell research including the regenerative potential of stem cells and their use in treatments to replace damaged and diseased tissue. The laboratory program, provides you with hands on training in key techniques such as in vitro cell culture, organelle isolation and experimentation, as well as microscopy. These skills will prepare you for a research pathway and/or a career that includes cell biology.
Textbooks
Alberts B., Johnson A., Lewis J., Raff M., Roberts K., Walter P. (2014) Molecular Biology of the Cell (Sixth edition). Garland Publishing Inc., New York and London (ISBN-9780815344643)
BIOL2929 Cells (Advanced)
Credit points: 6 Teacher/Coordinator: Dr Murray Thomson Session: Semester 1 Classes: Two 1-hour lectures; one 4-hour practical per week Prerequisites: A mark of at least 70 from (BIOL1XX7 or MBLG1XX1) Prohibitions: BIOL2016 or BIOL2916 orBIOL2029 Assessment: 3-hour theory exam (60%), quizzes (lectures and laboratory work) (10%), marks for laboratory work (10%), advanced report (20%) Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
Cell biology is one of the most dynamic areas of modern research. During development, a single cell zygote must undergo numerous divisions to become a multi-cellular organism. In both plants and animals, cell-to-cell communication and coordination of the cell cycle, as well as cellular division and migration, are vital for normal development. Stem cells follow specialisation pathways to become increasingly committed to differentiation, and transformation into specialised cells that group together to form the variety of tissues that make up animals and plants. In this unit you will investigate, the diversity of cell types, how these different cells interact with each other, how the cell cycle is controlled as well as studying the roles of cellular movement, differentiation and interaction in reproduction and development. In Cells you will develop a deep understanding of the established knowledge base and develop research skills to extend this knowledge. Discussions will incorporate recent advances in cell research including the regenerative potential of stem cells and their use in treatments to replace damaged and diseased tissue. The advanced program, will provide you with an opportunity to complete an authentic research project in a specialized area of cell biology.
Textbooks
Alberts B., Johnson A., Lewis J., Raff M., Roberts K., Walter P. (2014) Molecular Biology of the Cell (Sixth edition). Garland Publishing Inc., New York and London (ISBN-9780815344643)
BIOL2022 Biology Experimental Design and Analysis
Credit points: 6 Teacher/Coordinator: A/Prof Clare McArthur Session: Semester 2 Classes: Two lectures per week and one 3-hour practical per week. Prerequisites: 6cp from (BIOL1XXX or MBLG1XXX or ENVX1001 or ENVX1002 or DATA1001 or MATH1XX5) Prohibitions: BIOL2922 or BIOL3006 or BIOL3906 Assumed knowledge: BIOL1XXX or MBLG1XXX Assessment: Practical reports/presentations (60%), one 2-hour exam (40%). Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
This unit provides foundational skills essential for doing research in biology and for critically judging the research of others. We consider how biology is practiced as a quantitative, experimental and theoretical science. We focus on the underlying principles and practical skills you need to explore questions and test hypotheses, particularly where background variation (error) is inherently high. In so doing, the unit provides you with an understanding of how biological research is designed, analysed and interpreted using statistics. Lectures focus on sound experimental and statistical principles, using examples in ecology and other fields of biology to demonstrate concepts. In the practical sessions, you will design and perform, analyse (using appropriate statistical tools) and interpret your own experiments to answer research questions in topics relevant to your particular interest. This unit of study provides a suitable foundation for senior biology units of study.
Textbooks
Required: Ruxton, G. and Colegrave, N. 2016. Experimental design for the life sciences. 4th Ed. Oxford
BIOL2922 Biol Experimental Design and Analysis Adv
Credit points: 6 Teacher/Coordinator: A/Prof Clare McArthur Session: Semester 2 Classes: Two lectures per week and one 3-hour practical per week. Prerequisites: [An annual average mark of at least 70 in the previous year] and [6cp from (BIOL1XXX or MBLG1XXX or ENVX1001 or ENVX1002 or DATA1001 or MATH1XX5)] Prohibitions: BIOL2022 or BIOL3006 or BIOL3906 Assumed knowledge: BIOL1XXX or MBLG1XXX Assessment: Practical reports/presentations (60%), one 2-hour exam (40%). Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
The content of BIOL2922 will be based on BIOL2022 but qualified students will participate in alternative components at a more advanced level. The content and nature of these components may vary from year to year.
Textbooks
Required: Ruxton, G. and Colegrave, N. 2016. Experimental design for the life sciences. 4th Ed. Oxford
BIOL2030 Botany
Credit points: 6 Teacher/Coordinator: A/Prof Rosanne Quinnell Session: Semester 1 Classes: Two 1-hour lecture/week; one 3-hour practical/week; a series of five 1-hour tutorial/week in the latter part of the semester Prohibitions: BIOL2023 or BIOL2923 or AGEN2001 or PLNT2001 or PLNT2901 or PLNT2002 or PLNT2902 or PLNT2003 or PLNT2903 or AGEN2005 or BIOL2930 Assumed knowledge: Knowledge of concepts and skills in BIOL1XX6. Assessment: Online quizzes (15%), anatomy project report and presentation (20%), practical exam (30%), theory exam (35%) Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
We are surrounded by plants, and rely on them every day for our wellbeing. Ecologists use botanical knowledge to help manage marine and terrestrial ecosystems, and public health and land management professionals depend on their understanding of plant science to help solve environmental problems and to enhance biosecurity. Botany aims to increase and improve our supply of medicines, foods, and other plant products, and is critical for anyone interested in contributing to the sustainable future of our planet. In this unit, you will explore the origins, diversity, and global significance of plants. You will gain insights into the micro- and macro-evolutionary processes and patterns behind how plants moved from aquatic ecosystems to terrestrial ecosystems. Integrated lectures, practical classes, and extensive online resources will allow you to develop and integrate practical skills and conceptual frame works in plant identification, plant physiology, plant anatomy, and plant morphology. Lectures and practical classes are augmented by self-instructional audio-visual sessions and by small group discussions to foster a sense of self-reliance and collaboration. Successful completion of BIOL2023 will allow you to contribute to a range of disciplines including: ecology, bioinformatics, molecular and cell biology, genetics and biotechnology, environmental law, agriculture, education and the arts.
Textbooks
Evert RF and Eichhorn SE. 2013. Raven: Biology of Plants. 8th Ed. Freeman and Co Publishers. New York. NY.
BIOL2930 Botany (Advanced)
Credit points: 6 Teacher/Coordinator: A/Prof Rosanne Quinnell Session: Semester 1 Classes: Two 1-hour lectures/week; one 3-hour practical/week; a series of five 1-hour tutorial/week in the latter part of the semester Prerequisites: Annual average mark of at least 70 in previous year Prohibitions: BIOL2023 or BIOL2923 or AGEN2001 or PLNT2001 or PLNT2901 or PLNT2002 or PLNT2902 or PLNT2003 or PLNT2903 or AGEN2005 or BIOL2030 Assumed knowledge: Knowledge of concepts and skills in BIOL1XX6. Assessment: Online quizzes (15%), advanced project report (20%), practical exam (30%), theory exam (35%) Practical field work: null Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
We are surrounded by plants, and rely on them every day for our wellbeing. Ecologists use botanical knowledge to help manage marine and terrestrial ecosystems, and public health and land management professionals depend on their understanding of plant science to help solve environmental problems and to inform biosecurity. Botany aims to increase and improve our supply of medicines, foods, and other plant products, and is critical for anyone interested in contributing to the sustainable future of our planet. In this unit, you will explore the origins, diversity, and global significance of plants. You will gain insights into the micro- and macro-evolutionary processes and patterns behind how plants moved from aquatic ecosystems to terrestrial ecosystems. Integrated lectures, practical classes and extensive online resources will allow you to develop and integrate practical skills and conceptual frameworks in plant identification, and plant physiology, morphology and anatomy. Lectures and practical classes are augmented by discussions to foster a sense of self-reliance and collaboration. The Advanced Botany unit of study requires engagement at a high standard of academic rigour and affords opportunities to engage with core aspect of Botany at depth and to create new knowledge. In partnership with academic staff advanced students will undertake an independent research project, which will develop skills in research and communication.
Textbooks
Attwell BJ, Kriedeman PE, Turnbull CGN. 1999. Plants In Action. Macmillan, South Yarra. (Australian Plant Biology with a good section on ecophysiology).
BIOL2024 Ecology and Conservation
Credit points: 6 Teacher/Coordinator: Prof Peter Banks Session: Semester 2 Classes: Two lectures and one 3-hour practical per week. Prohibitions: BIOL2924 Assumed knowledge: BIOL1XXX or MBLG1XXX Assessment: Practical reports/presentations (50%), one 2-hour exam (50%). Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
This unit of study examines the ecological principles driving the major ecosystems of the world and ecological processes behind the world's major conservation issues. It aims to develop in students the core foundations for an understanding of Ecology and its application in conservation. Lectures will focus on the ecology of the major terrestrial and marine biomes of the world. Application of ecological theory and methods to practical conservation problems will be integrated throughout the unit of study. Practical sessions will provide hands-on experience in ecological sampling and data handling to understand the ecology of marine and terrestrial environments, as well as ecological simulations to understand processes. This unit of study provides a suitable foundation for senior biology units of study.
Textbooks
Recommended: Essentials of Ecology 4th edition (2014). Townsend, CR, Begon, M, Harper, JL . John
BIOL2924 Ecology and Conservation (Advanced)
Credit points: 6 Teacher/Coordinator: Prof Peter Banks Session: Semester 2 Classes: Two lectures and one 3-hour practical per week. Prerequisites: An annual average mark of at least 70 in the previous year Prohibitions: BIOL2024 Assumed knowledge: BIOL1XXX or MBLG1XXX Assessment: Practical reports/presentations (50%), one 2-hour exam (50%). Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
The content of BIOL2924 will be based on BIOL2024 but qualified students will participate in alternative components at a more advanced level. The content and nature of these components may vary from year to year.
Textbooks
Recommended: Essentials of Ecology 4th edition (2014). Townsend, CR, Begon, M, Harper, JL . John
GEGE2001 Genetics and Genomics
Credit points: 6 Teacher/Coordinator: Prof Peter Sharp Session: Semester 1,Semester 2 Classes: Two lectures; one 3-hour practical session; and one peer assisted study session on a weekly basis Prohibitions: GENE2002 or MBLG2972 or GEGE2901 or MBLG2072 Assumed knowledge: Mendellian genetics, mechanisms of evolution, molecular and chromosomal bases of inheritance, and gene regulation and expression. Assessment: Assignments, quizzes, presentation, final exam Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
The era of genomics has revolutionised our approach to biology. Recent breakthroughs in genetics and genomic technologies have led to improvements in human and animal health, in breeding and selection of economically important organisms and in the curation and care of wild species and complex ecosystems. In this unit, students will investigate/describe ways in which modern biology uses genetics and genomics to study life, from the unicellular through to complex multicellular organisms and their interactions in communities and ecosystems. This unit includes a solid foundation in classical Mendelian genetics and its extensions into quantitative and population genetics. It also examines how our ability to sequence whole genomes has changed our capacities and our understanding of biology. Links between DNA, phenotype and the performance of organisms and ecosystems will be highlighted. The unit will examine the profound insights that modern molecular techniques have enabled in the fields of developmental biology, gene regulation, population genetics and molecular evolution.
GEGE2901 Genetics and Genomics (Advanced)
Credit points: 6 Teacher/Coordinator: Prof Peter Sharp Session: Semester 1,Semester 2 Classes: Two lectures; one 3-hour practical session; and one peer assisted study session on a weekly basis Prerequisites: Annual average mark of at least 70 Prohibitions: GENE2002 or MBLG2072 or GEGE2001 or MBLG2972 Assumed knowledge: Mendellian genetics, mechanisms of evolution, molecular and chromosomal bases of inheritance, and gene regulation and expression. Assessment: Assignments, quizzes, presentation, final exam Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
The era of genomics has revolutionised our approach to biology. Recent breakthroughs in genetics and genomic technologies have led to improvements in human and animal health, in breeding and selection of economically important organisms and in the curation and care of wild species and complex ecosystems. In this unit, students will investigate/describe ways in which modern biology uses genetics and genomics to study life, from the unicellular through to complex multicellular organisms and their interactions in communities and ecosystems. This unit includes a solid foundation in classical Mendelian genetics and its extensions into quantitative and population genetics. It also examines how our ability to sequence whole genomes has changed our capacities and our understanding of biology. Links between DNA, phenotype and the performance of organisms and ecosystems will be highlighted. The unit will examine the profound insights that modern molecular techniques have enabled in the fields of developmental biology, gene regulation, population genetics and molecular evolution. The Advanced mode of Genetics and Genomics will provide you with challenge and a higher level of academic rigour. You will have the opportunity to plan and carry out a project that will develop your skills in contemporary genetics/molecular biology techniques and will provide you with a greater depth of disciplinary understanding. The Advanced mode will culminate in a written report and in an oral presentation where you will discuss a recent breakthrough that has been enabled by the use of modern genetics and genomics technologies. This is a unit for anyone wanting to better understand the how genetics has shaped the earth and how it will shape the future.
Textbooks
TBA
Senior units of study
BIOL3007 Ecology
Credit points: 6 Teacher/Coordinator: A/Prof Dieter Hochuli Session: Semester 2 Classes: Two 1-hour lectures and one 3-hour practical per week. Prerequisites: [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] Prohibitions: BIOL3907 Assessment: One 2-hour exam, group presentations, one essay, one project report (100%) Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
This unit explores the dynamics of ecological systems, and considers the interactions between individual organisms and populations, organisms and the environment, and ecological processes. Lectures are grouped around four dominant themes: Interactions, Evolutionary Ecology, The Nature of Communities, and Conservation and Management. Emphasis is placed throughout on the importance of quantitative methods in ecology, including sound planning and experimental designs, and on the role of ecological science in the conservation, management, exploitation and control of populations. Relevant case studies and examples of ecological processes are drawn from marine, freshwater and terrestrial systems, with plants, animals, fungi and other life forms considered as required. Students will have some opportunity to undertake short term ecological projects, and to take part in discussions of important and emerging ideas in the ecological literature.
Textbooks
Begon M, Townsend CR, Harper JL (2005) Ecology, From individuals to ecosystems. Wiley-Blackwell.
BIOL3907 Ecology (Advanced)
Credit points: 6 Teacher/Coordinator: A/Prof Dieter Hochuli Session: Semester 2 Classes: Two lectures per week, weekly tutorial and 3-hour practical per week Prerequisites: An average mark of 75 or above in [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] Prohibitions: BIOL3007 Assessment: One 2-hour exam, presentations, one essay, one project report (100%). Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
This unit has the same objectives as BIOL3007 Ecology, and is suitable for students who wish to pursue certain aspects in greater depth. Entry is restricted, and selection is made from the applicants on the basis of their previous performance. Students taking this unit of study participate in alternatives to some elements of the standard course and will be encouraged to pursue the objectives by more independent means in a series of research tutorials. Specific details of this unit of study and assessment will be announced in meetings with students in week 1 of semester 2. This unit of study may be taken as part of the BSc (Advanced) program.
Textbooks
As for BIOL3007
BIOL3009 Terrestrial Field Ecology
Credit points: 6 Teacher/Coordinator: Prof Glenda Wardle Session: Intensive July Classes: Note: One 6-day field trip held in the pre-semester break and four 4-hour practical classes during weeks 1-4 of semester 2 Prerequisites: [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] Prohibitions: BIOL3909 or BIOL2009 or BIOL2909 Assessment: Discussions and quiz (10%), research project proposal and brief presentation (10%), sampling project report (20%), specimen collection (10%), research project report (50%) Campus: Camperdown/Darlington, Sydney Mode of delivery: Block mode
Note: Department permission required for enrolment
Note: This unit requires School permission to enrol; please see the School of Life and Environmental Sciences website for details on how to apply. Entry into the unit is based on placement availability and selection is competitive based on academic performance in the pre-requisite units of study. Academic performance in any Senior BIOL units of study may also be considered.
This intensive field-based course provides practical experience in terrestrial ecology suited to a broad range of careers in ecology, environmental consulting and wildlife management. Students learn a broad range of ecological sampling techniques and develop a detailed understanding of the logical requirements necessary for manipulative ecological field experiments. The field work takes place in native forest and incorporates survey techniques for plants, small mammals and invertebrates and thus provides a good background for ecological consulting work and an introduction into large-scale project management. Students attend a week-long field course and participate in a large-scale research project as well as conducting their own research project. Emphasis is placed on critical thinking in the context of environmental management and technical skills are developed in the area of data handling and analysis, report writing and team work. Invited experts contribute to the lectures and discussions on issues relating to the ecology, conservation and management of Australia's terrestrial flora and fauna.
BIOL3909 Terrestrial Field Ecology (Advanced)
Credit points: 6 Teacher/Coordinator: Prof Glenda Wardle Session: Intensive July Classes: One 6-day field trip held in the pre-semester break and four 4-hour practical classes during weeks 1-4 of semester 2 Prerequisites: An average mark of 75 or above in [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] Prohibitions: BIOL3009 or BIOL2009 or BIOL2909 Assessment: Discussions and quiz (10%), research project proposal and brief presentation (10%), sampling project report (20%), sample and data processing (10%), research project report (50%) Campus: Camperdown/Darlington, Sydney Mode of delivery: Block mode
Note: Department permission required for enrolment
Note: This unit requires School permission to enrol; please see the School of Life and Environmental Sciences website for details on how to apply. Entry into the unit is based on placement availability and selection is competitive based on academic performance in the pre-requisite units of study. Academic performance in any Senior BIOL units of study may also be considered. This unit is not offered from 2019.
This unit has the same objectives as BIOL3009 Terrestrial Field Ecology, and is suitable for students who wish to pursue certain aspects in greater depth. Entry is restricted, and selection is made from applicants on the basis of previous performance. Students taking this unit of study will complete an individual research project on a topic negotiated with a member of staff. It is expected that much of the data collection will be completed during the field trip but some extra time may be needed during semester 2. Specific details of this unit of study and assessment will be announced in meetings with students at the beginning of the unit. This unit of study may be taken as part of the BSc (Advanced) program.
BIOL3026 Developmental Genetics
Credit points: 6 Teacher/Coordinator: Dr Jenny Saleeba Session: Semester 2 Classes: 24 1-hour lectures/tutorials per semester and up to 3 hours laboratory per week. Prerequisites: (MBLG2X72 or GEGE2X01 or GENE2002) and 6cp from (MBLG2X71 or BIOL2XXX or BCMB2XXX or QBIO2001 or IMMU2XXX) Prohibitions: BIOL3926 Assessment: One 2-hour exam, assignments (100%). Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
Developmental genetics discusses major concepts and our current understanding of developmental biology with an emphasis on molecular genetics. The developmental genetics of animal and plant systems will be investigated, along with approaches used to determine gene function in relation to development of complex multicellular organisms. Topics include the features and resources for model organisms; the generation of mutants for forward and reverse genetics; the application of mutants to the study gene function and gene networks; spatial and temporal gene expression in pattern formation; quantitative trait loci analysis; utility of genome wide association studies; epigenetics in relation to inheritance; genome information in the study of human genetics. Reference will be made to the use of modern techniques in developmental biology such as transgenics, recombinant DNA technology, tissue-specific expression analysis. Various methods of genetic mapping will be covered. Practical work complements the theoretical aspects of the course and develops important skills in genetics.
BIOL3926 Developmental Genetics (Advanced)
Credit points: 6 Teacher/Coordinator: Dr Jenny Saleeba Session: Semester 2 Classes: 24 1-hour lectures/tutorials per semester and up to 3 hours laboratory per week. Prerequisites: An average mark of 75 or above in [(MBLG2X72 or GEGE2X01 or GENE2002) and (MBLG2X71 or BIOL2XXX or BCMB2XXX or QBIO2001 or IMMU2XXX)] Prohibitions: BIOL3929 or BIOL3026 Assessment: One 2-hour exam, assignments (100%). Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
Qualified students will participate in alternative components to BIOL3026 Developmental Genetics. The content and nature of these components may vary from year to year. Some assessment will be in an alternative format to components of BIOL3026.
BIOL3043 Plant Science
Credit points: 6 Teacher/Coordinator: A/Prof Charles Warren Session: Semester 2 Classes: Two lectures and one 4-hour practical per week. Prerequisites: [12cp of BIOL2XXX] OR [6cp from BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] Prohibitions: BIOL3943 or PLNT3001 or PLNT3901 or PLNT3002 or PLNT3902 Assessment: Practical report (25%), lab notebook (10%), group presentation (15%), one 2-hour exam (50%). Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
This unit explores major concepts, discoveries and controversies in the plant sciences. Lectures will examine the mechanisms plants employ to adapt and acclimate to the environment. Major topics include growth and development, acquisition of resources such as light and nutrients, perception and response to signals, and interactions of plants with other organisms. Emphasis will be placed on integration of plant responses from molecular through to whole plant scales. There is a focus on recent research that has been critical in enhancing our current understanding of plant biology. Lectures are augmented by experimental work. This unit of study complements other Senior units of study in the Plant Science Major and is essential for those seeking a career in plant biology.
BIOL3943 Plant Science (Advanced)
Credit points: 6 Teacher/Coordinator: A/Prof Charles Warren Session: Semester 2 Classes: Two lectures and one 4-hour practical per week. Prerequisites: An average mark of 75 or above in [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] Prohibitions: BIOL3043 or PLNT3001 or PLNT3901 or PLNT3002 or PLNT3902 Assessment: Manuscript (25%), lab notebook (10%), group presentation (15%), one 2-hour exam (50%). Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
The content will be based on the standard unit BIOL3043 but qualified students will undertake an indivual project and prepare a manuscript. This unit explores major concepts, discoveries and controversies in the plant sciences. Lectures will examine the mechanisms plants employ to adapt and acclimate to the environment. Major topics include growth and development, acquisition of resources such as light and nutrients, perception and response to signals, and interactions of plants with other organisms. Emphasis will be placed on integration of plant responses from molecular through to whole plant scales. There is a focus on recent research that has been critical in enhancing our current understanding of plant biology. Lectures are augmented by experimental work. This unit of study complements other Senior units of study in the Plant Science Major and is essential for those seeking a career in plant biology.
BIOL3044 Evolution and Biodiversity
Credit points: 6 Teacher/Coordinator: Prof Ben Oldroyd Session: Semester 1 Classes: Two lectures and one 3-hour practical per week. Prerequisites: [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] Prohibitions: BIOL3944 or BIOL3025 or BIOL3925 or PLNT3003 or PLNT3903 Assessment: Practical reports and/or presentations (60%), one 2-hour exam (40%). Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
How did the diversity of life arise? Why are there so many species? Why do animals and plants seem so well designed for their environments? How do we explain patterns of distribution across continents? These are some of the key questions that we will examine in this Unit. The Unit begins with a survey of the history of evolutionary thought, and the so-called 'new synthesis'; the melding of Darwinian evolution, systematics and genetics. The Unit will provide training in the principles, methods, and applications of evolutionary biology including systems of classification, the genetics of speciation and hybrid zones, molecular evolution, reconstruction of phylogenies, population genetics, historical interpretation of geographic distributions, evolution of sex, adaptation, human evolution, and selfish gene theory. Examples from a broad range of organisms and data sources will be used throughout the Unit. This Unit is valuable for students who intend to seek employment in areas such as biodiversity research, bioinformatics, ecology, taxonomy, biological conservation and teaching.
Textbooks
Freeman and Herron (2011) Evolutionary Analysis, Pearson/Prentice Hall
BIOL3944 Evolution and Biodiversity (Advanced)
Credit points: 6 Teacher/Coordinator: Prof Ben Oldroyd Session: Semester 1 Classes: Two lectures and one 3-hour practical per week. Prerequisites: An average mark of 75 or above in [12cp of BIOL2XXX] OR [6cp of BIOL2XXX and (MBLG2X72 or GEGE2X01 or GENE2002)] Prohibitions: BIOL3044 or BIOL3025 or BIOL3925 or PLNT3003 or PLNT3903 Assessment: Practical reports and/or presentations (60%), one 2-hour exam (40%). Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
The content will be based on the standard unit BIOL3044 but qualified students will participate in alternative components at a more advanced level. How did the diversity of life arise? Why are there so many species? Why do animals and plants seem so well designed for their environments? How do we explain patterns of distribution across continents? These are some of the key questions that we will examine in this Unit. The Unit begins with a survey of the history of evolutionary thought, and the so-called 'new synthesis'; the melding of Darwinian evolution, systematics and genetics. The Unit will provide training in the principles, methods, and applications of evolutionary biology including systems of classification, the genetics of speciation and hybrid zones, molecular evolution, reconstruction of phylogenies, population genetics, historical interpretation of geographic distributions, evolution of sex, adaptation, human evolution, and selfish gene theory. Examples from a broad range of organisms and data sources will be used throughout the Unit. This Unit is valuable for students who intend to seek employment in areas such as biodiversity research, bioinformatics, ecology, taxonomy, biological conservation and teaching.
Textbooks
Freeman and Herron (2011) Evolutionary Analysis, Pearson/Prentice Hall
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%). Campus: Camperdown/Darlington, Sydney 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:
PPAT3003 Plant Health and Disease
Credit points: 6 Teacher/Coordinator: Prof David Guest (coordinator), A/Prof Michael Kertesz, Dr Rosalind Deaker, Prof Robert Park Session: Semester 1 Classes: 26 one-hour lectures and 12 three-hour practical classes Prerequisites: 6 credit points of Microbiology units Assessment: Take-home quizzes (20%), project report (10%), practical exam (20%), end of semester exam (50%) Campus: Camperdown/Darlington, Sydney Mode of delivery: Normal (lecture/lab/tutorial) day
This unit explores the impacts of microbes on plant productivity, food security and the management of natural environments. The lecture component discusses how microbes interact with plants at the ecosystem, whole plant, cellular and molecular levels, conditioning nutrient availability and acquisition, growth, yield, quality and environmental responses. The biology and epidemiology of plant-associated microbes, infection processes, colonisation strategies, plant responses and breeding for disease resistance will be discussed. The practical component introduces techniques used in handling, measuring and identifying plant-associated fungi and bacteria, diagnosis of plant disease and investigations of plant-microbe interactions, and develops skills in enquiry and problem solving through experimental design, execution and interpretation of data. Students learn to work in a research team, plan effective work schedules, work safely in a research laboratory with a range of scientific equipment, keep appropriate records, and use statistical analysis and simulations in research. The unit is core to the BScAgr degree and is available as an elective to BEnvSys and BSc students.
Textbooks
Schumann GL and Darcy CJ 2010. Essential Plant Pathology (2nd ed.). APS Press, St Paul, Minn., USA