ࡱ> O 0'\bjbj88 JRWiRWiGS+BB8j=1D  )+Tl+,0000000$376b0+P)@)++0BB 0p0p0p0+B8  0p0+0p0p0zp0 LRcz,p00 10=1p06L.6p06p08++p0+++++00^/+++=1++++6+++++++++X :  Programme Details 1. Programme titleEcology and Conservation Biology with a Placement Year2. Programme codeAPSU40 (BSc); APSU41 (MBiolSci)3. QAA FHEQ levelHonours4. FacultyScience5. DepartmentSchool of Biosciences6. Other departments providing credit bearing modules for the programmeNot applicable7. Accrediting Professional or Statutory BodyNone8. Date of production/revisionMarch 2022, September 2023 AwardsType of awardDuration9. Final awardBSc, MBiolSci4 years, 5 years10. Intermediate awards BSc from MBiolSci Programme Codes 11. JACS code(s) Select between one and three codes from the HYPERLINK "https://www.hesa.ac.uk/support/documentation/jacs/jacs3-principal" \hHESA website.C185 (BSc)C184 (MBiolSci)12. HECoS code(s) Select between one and three codes from the HYPERLINK "https://www.hesa.ac.uk/innovation/hecos" \hHECoS vocabulary.100347101318 Programme Delivery 13. Mode of studyFull-time 14. Mode of deliveryFace to Face  15. Background to the programme and subject area Ecology is the study of how organisms interact with each other and with their environment, and how such interactions determine their abundance, distribution and activities. The scope of Ecology is best understood by examining the kinds of questions that ecologists address. Why are some species rare and others common? What factors determine which combinations of animals and plants occur together in the same community? What are the impacts of factors such as pollutants and climate change on the functioning of ecosystems? These questions reveal that ecology is concerned with understanding natural patterns and processes and applying that understanding to environmental problems. Conservation Biology is the study of how these environmental problems can be mitigated to maintain biodiversity and allow humans to live sustainably on a flourishing planet. How can pests be controlled, food production be sustained and endangered species conserved most effectively? Environmental problems can only be solved when basic ecological principles have been established. Ecology and Conservation Biology is a science with living organisms at its conceptual centre. It forms an essential component of our understanding of the world in which we live. Ecology and Conservation Biology is becoming increasingly relevant to modern society as it seeks to address the important issues of the 21st century, including global climate change, pollution, wildlife conservation and sustainability. Ecology and Conservation Biology is an area of science that has an immediate impact on our daily lives. Ecology and Conservation Biology is a large subject that accommodates a wide variety of fields. Along with core modules in Ecology, Ecological Identification. Conservation Biology and Climate Change and Sustainability students can take modules in Microbiology, Plant Science, Zoology and Animal Behaviour as well as in the Molecular Biosciences. The programme at 91ֱ is designed to provide a broad-based and flexible approach to Ecology and Conservation Biology. Students can organise their programme to maintain a broad overview, or they can focus on one or more areas of specialisation at pure and/or applied levels. Members of the School of Biosciences teach this programme. We are one of the largest in the UK devoted to the study of biology and have been graded excellent in both teaching and research. Graduates in Ecology and Conservation Biology are qualified for a wide variety of careers. Opportunities in Ecology and Conservation Biology will depend on the range of subjects studied, but in all cases, students will have developed a wide range of subject specific and generic skills that can be transferred to both ecological and conservation biology employment and non-ecological/conservation biology careers. During Level 2 students are assisted in finding a Placement, which involves spending a year between Levels 2 and 3 in paid work for a graduate-level employer. The completion of these degrees is conditional on students being accepted onto and fulfilling an appropriate placement. If they do not find such a placement, they will transfer onto a degree programme without a Placement Year (e.g. BSc students will typically transfer to APSU03). They will be supported by the School of Biosciences and the University Careers Service to help them find and apply for a Placement, but as these are awarded in open competition we cannot guarantee success. 16. Programme aims The BSc and MBiolSci Biology Programmes aim to:A1Provide teaching that is informed and invigorated by the research and scholarship of staff, is stimulating to and enjoyed by students.A2Develop in students an independence of thought, intellectual curiosity and critical approach to evidence, theories and concepts.A3Enable students to maximise their academic potential in all aspects of their programme.A4Assess students over a range of skills and identify, support and encourage academic excellence.A5Impart to students an awareness of the importance of commitment to and skills relevant for life-long learning.A6Provide a supportive environment for students with effective mechanisms for referral to specialist services when required.A7Develop a broad understanding of ecology and conservation biology together with a more detailed and critical understanding of selected areas in ecology and conservation biology.A8Develop in students a range of subject-specific and generic skills appropriate to employment both within and outside of biology.A9Prepare students for postgraduate work and a professional career in biology.A10Help students to secure, prepare for and reflect on a Placement, where they spend a year gaining valuable and relevant work experience, which will help them develop awareness of the workplace and secure a rewarding career on graduation.In addition the MBiol Sci programme aims to:A11Develop in students an ability to carry out independent research, to critically review biological manuscripts and to write grant proposals. 17. Programme learning outcomes Knowledge and understanding On successful completion of the programme, students will be able to demonstrate knowledge and understanding of:Links to Aim(s)K1A broad range of ecological and conservation biology subjects (including ecological identification, biodiversity, population and community ecology, climate science, sustainability, conservation issues and management).A1-A9K2A choice of specific subject areas in depth (including organismal interactions, population dynamics, urban ecology, tropical forest ecology, behavioural ecology, climate change, food security, marine conservation, environmental microbiology).A1-A9 K3The social, economic and global impact and utility of biological understanding in a choice of areas of interest (including inter alia biodiversity loss, pollution, agriculture and crop protection, climate change, sustainability, conservation issues and management).A1-A9K4Essential biological concepts and facts across a range of organisms and levels of organisation, through form and function, to interactions between individuals and within and between communities and ecosystems.A1-A9K5The relationship between the information base in a subject area, the theory that arises from it and the genesis of empirical tests of the defining theory.A1-A9K6Biostatistical techniques and their application.A1-A9K7Biological terminology, nomenclature and classification.A1-A9K8The ethical and philosophical issues related to biology and science.A1-A9K9The applicability of biological skills and knowledge to careers.A1-A9In addition MBiolSci Students will be able to demonstrate knowledge and understanding of:K10Specialist research-led areas of ecology and/or conservation.A1-A9K11Advanced biostatistics.A1-A9K12The processes underpinning the securing of funding and the publishing of biological research.A1-A9K13The role of leadership in research.A1-A9Skills and other attributes On successful completion of the programme, students will be able to:S1Recognise and apply ecological and conservation biology theories, concepts, principles and/or paradigms to their work.A1-A9S2Execute basic lab and field techniques in a safe, effective and precise manner.A1-A9S3Carry out health and safety risk assessments and devise safe systems of working.A1-A9S4Use first principles in biology and factual knowledge of systems to identify novel problems in ecology and conservation.A1-A9S5Use the scientific method to formulate hypotheses and testable predictions.A1-A9S6Design observational and experimental studies that allow the testing of predictions.A1-A9S7Collect, organise, analyse and interpret qualitative and quantitative empirical field and laboratory data to address biological questions.A1-A9S8Use commercial software and programming systems for the management, analysis and presentation of data.A1-A9 S9Assess theories, concepts and empirical evidence from the biological literature and from observational and experimental studies in an objective and critical manner.A1-A9S10Locate, critically evaluate, synthesise, summarise and cite printed and electronic information, including from the primary literature.A1-A9S11Communicate effectively in writing and orally, identifying an appropriate method of communication depending on the material to be delivered and the audience.A1-A9S12Produce a range of written materials (including inter alia scientific papers, literature reviews, essays, abstracts).A1-A9S13Recognise the moral and ethical issues of a particular approach and appreciate the need for ethical standards and appropriate codes of conduct.A1-A9S14Work effectively as part of a team, recognising and respecting the views and opinions of other team members, identifying collective goals and adjusting and applying appropriate approaches.A1-A9S15Make informed / justifiable evidence-based decisions.A1-A9S16Identify individual goals and responsibilities, exercise independent thought and judgement, act effectively, and reflect on ongoing individual performance.A1-A9S17Implement the skills underpinning life-long learning and employment (time-management, independent learning, organisational skills).A1-A10S18Identify and work towards targets for personal, academic and career development using an adaptable, effective and resilient approach to study and work.A1-A10S19Apply appropriate knowledge and skills from their course of study in a workplace environment and identify factors influencing organisational practice in their workplace.A1-A10In addition MBiolSci Students will be able to:S20Organise and manage practical and literary research projects to a high standard.A1-A9S21Write grant proposals for scientific research projects.A1-A9S22Apply advanced, practical and statistical techniques to research.A1-A9S23Communicate their science to a public audience via written and oral media.A1-A9 18. Learning and teaching methods Students learn in a research-embedded framework, in which they use the scientific method to explore biological questions in a constructively critical manner. In the early years, lectures are the principal means of imparting knowledge and demonstrating critical analytical skills, while understanding is gained through a combination of tutorials, example classes, laboratory classes and formatively assessed assignments. Skills are acquired mainly through self-directed, assessed work conducted during tutorials, laboratory classes, online data sessions, and group projects. Field courses, with a strong emphasis on self-directed, autonomous use of acquired skills and the need to work efficiently in groups, develop field and transferable skills. In the later years, more emphasis is placed on student centred learning exercises, workshops, seminars and project work (small group and individual) as methods by which knowledge and understanding are gained, skills are acquired and improved and biological questions are rigorously explored. 19. Assessment and feedback methods Students knowledge, understanding and skills are assessed by end-of-semester examinations, coursework and continuous assessment. Types of assessments are matched to each modules subject matter and learning objectives. Lecture Modules Most lecture modules at levels 1 and 2 are assessed by formal examinations, which provide effective tests of knowledge, problem solving skills and conceptual and synthetic thinking. At Level 1, lecture modules are examined by multiple-choice papers. Level 2 lecture modules are primarily assessed using a combination of essay or short answer questions, or a combination of these and multiple-choice questions; some L2 modules involve coursework assessments. At level 3 lecture modules are assessed either by formal examination and/or coursework. Coursework may take the form of essays, problem-based questions or POST notes. Subjected to deadlines, these forms of assessment encourage students to manage their workloads, learning schedules and time productively. Most Level 2 and Level 3 examination papers offer a choice of questions and are designed to enable students to demonstrate their knowledge of the subject matter and concepts as well as to integrate specific aspects of their knowledge and skills base. There are no formal written examinations at Level 4 but there are formal data handling examinations, oral presentations and coursework. Skills Modules The skills module at L1 is examined by continuous assessment throughout the year. Such assessment develops skills of self-motivation, organisation and self-discipline whilst indirectly stimulating the students ability to harvest and collate information from the literature, whilst working to a deadline. Because a number of self-developed skills contribute to the standard of the assessed work, the assessment inevitably encapsulates these, as well as knowledge, logical and structured thinking and argument development. These assessments typically occur throughout the module and involve feedback. Formats include written work, oral and poster presentations, laboratory notebook assessment and data handling and analysis exercises. Most data collection and processing skills are assessed via this form of assessment. Assessments, both formative and summative consider scientific content, logical structure, synthesis, level of critical evaluation, inclusion of literature, clarity of exposition, language and style. Selected modules at all levels have an element of formative assessment. Field Courses, Projects, and Dissertations Level 2 and Level 3 field courses are assessed by talks and written reports. Detailed formal feedback is given on field course assessments to prepare students for L3 and L4 projects. Level 1 practical projects and Level 3 and Level 4 research projects and dissertations are assessed on the basis of written reports in the style of formal scientific papers or reviews. Placement Year The Placement Year is assessed through submission of a written Placement Report describing what has been learned and achieved throughout the year. Feedback Formative individual written and oral feedback will be provided in L1 and L2 tutorial exercises, and in L3 and L4 field course reports, dissertations and projects. Oral individual and group feedback will be provided in practicals and staff will be available in lecture modules for students to ask questions and receive feedback. 20. Programme structure and student development The programme is modular and offered as full-time study only. Students gain subject knowledge and practical, communication and data skills. These are applied in later years in capstone research projects and literature reviews. In Level 1 students are introduced to a broad range of ecological theory, phenomenology, foundation practical skills and data collection methods that build on and consolidate skills and knowledge previously acquired. Tutorial work develops information processing and data interpretation skills and builds a solid base for conceptual thinking, logical argument, professional judgement, the development of communication skills, teamwork and skills for life-long learning. By the end of level 1 students will have an appreciation of the complexity and diversity of ecological processes. In Level 2 students develop a wider knowledge and deeper understanding of generic areas of ecology and conservation biology as well as subject areas that build on Level 1 experience. Core work includes practical skills that emphasise objective design and execution of empirical biological practical investigation. This is integrated with the development of a core statistical skill-base that informs design and enables analysis. Teamwork and interpersonal skills, time-management, conceptual thinking, logical argument and communication is developed in tutorials. Optional modules available at this level permit students to broaden and deepen their interests in more specialised areas of ecology and conservation biology. Modules at this level employ a range of teaching and assessment techniques that are designed to foster and test the analytical and critical faculties of students and encourage autonomy in learning. Students undertake the placement between Levels 2 and 3. The placement report must demonstrate skills obtained during the placement in order for the student to pass the year. Students who fail to secure a placement or fail to pass the placement year may transfer to the non-placement Biology programme. In Level 3 teaching and learning exploits the increasing sophistication our students are developing in their knowledge base and critical/analytical skills. The core modules are a research project and a literature review, both of which rely on, and further develop good transferable skills and a solid understanding of empirical biology/ information gathering, synthesis and critical evaluation. Students also choose from a wide range of optional modules in selected, research-led areas of ecology and conservation biology and field courses. These modules develop knowledge, understanding and a critical approach to evidence, theories and concepts and utilise a range of teaching and assessment methods appropriate to their learning aims. Level 4 exploits and develops the self-confidence, knowledge base and capacity for autonomous study students have acquired during the preceding 3 years. During this year they acquire advanced subject-specific and generic transferable skills appropriate to employment within and outside of ecology and conservation biology. The core modules in year four teach communicating science to the public, advanced biostatistics, and the processes underpinning successful fund-raising and publishing in biology. Students also conduct laboratory and library research that requires the application of technical and conceptual knowledge and understanding gained in the earlier years. Students work in active research groups and are expected to learn from, and contribute to, those groups, displaying appropriate levels of creativity, originality and judgement.Detailed information about the structure of programmes, regulations concerning assessment and progression and descriptions of individual modules are published in the University Calendar available online at HYPERLINK "http://www.sheffield.ac.uk/calendar/" \hhttp://www.sheffield.ac.uk/calendar/. 21. Criteria for admission to the programme BSc - AAB including Biology and a second science. MBiolSci - AAA including Biology and a second science. Information obtained from HYPERLINK "http://www.shef.ac.uk/courses/" \hhttp://www.shef.ac.uk/courses/. 22. Reference points The learning outcomes have been developed to reflect the following points of reference: Subject Benchmark Statements HYPERLINK "https://www.qaa.ac.uk/quality-code/subject-benchmark-statements" \hhttps://www.qaa.ac.uk/quality-code/subject-benchmark-statements Framework for Higher Education Qualifications (2014) HYPERLINK "https://www.qaa.ac.uk/docs/qaa/quality-code/qualifications-frameworks.pdf" \hhttps://www.qaa.ac.uk/docs/qaa/quality-code/qualifications-frameworks.pdf University Vision and Strategic Plan HYPERLINK "/vision"/vision 23. Additional information Teaching facilities include modern teaching laboratories, lecture theatres and excellent IT systems. The departments are within walking distance of a vibrant 24-hour city centre an also within easy reach of the Peak District National Park, an area of outstanding natural beauty. This specification represents a concise statement about the main features of the programme and should be considered alongside other sources of information provided by the teaching department(s) and the University. In addition to programme specific information, further information about studying at 91ֱ can be accessed via our Student Services web site at HYPERLINK "http://www.shef.ac.uk/ssid" \hhttp://www.shef.ac.uk/ssid.     apsu41 - ver23-24 PAGE1 Programme Specification A statement of the knowledge, understanding and skills that underpin a taught programme of study leading to an award from 91ֱ  -.:defwx + 4 5 C D E r s w x y ׽׵⫣h[h>K>*h[hN;>*h[h>K5>*hCJaJh[hN;B*CJaJphh[hN;CJaJh[h>KCJaJ hN;>* h>K5>*hN;jh[UmHnHu= .e$If $d<1$$<a$ efxre_$If (($Ifgd[kd$$IfH0x (   0n(4d4 Hapyt[rl^ d$1$Ifgd[$Ifkd$$IfH0x (   0n(4d4 Hapyt[rl` d$Ifgd[$Ifkd|$$IfH0x (   0n(4d4 Hapyt[rl` d$Ifgd[$Ifkd:$$IfH0x (   0n(4d4 Hapyt[5 D rl^ d$1$Ifgd[$Ifkd$$IfH0x (   0n(4d4 Hapyt[D E s x reW d$1$Ifgd[ (($Ifgd[kd$$IfH0x (   0n(4d4 Hapyt[x y reW d$1$Ifgd[ (($Ifgd[kdt$$IfH0x (   0n(4d4 Hapyt[ rlaaa $$Ifgd[$dkd2$$IfH0x (   0n(4d4 Hapyt[        - . / 0 1 2 3 4 5 D E U V ĸx,jh[hw6>*B*CJUaJphU#h[h>K6>*B*CJaJphUjn 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