Cynlluniau Astudio

N/A

Biosciences

August 2024

The foundation year provides opportunities for students to develop further the foundation of their interest and knowledge in the biological sciences. It aims to develop the intellectual and practical skills of the student in preparation for the DLS degree schemes and the wider range of disciplines open to the graduate biologist. It provides the skills necessary to allow students to adapt and to respond to change, and to engage in life-long learning. Students will develop an appreciation of the social responsibilities of graduates in biological sciences in general.

Provide knowledge and enable critical understanding of key academic disciplines which comprise genetics.

Develop a detailed knowledge and systematic understanding of genetic themes, especially the mechanisms underpinning inheritance, the control of gene expression, and the dynamics of populations and species relationships.

Subject specific skills

• To integrate theory, experiment and investigation into the study of model genetic organisms.

• To develop a detailed and comprehensive understanding of genetic research, its current practice, applicable techniques, and future potential.

• Enable students to assimilate and evaluate the role of genetics in the context of human society.

• Equip students to engage fully in informed debate concerning the impact of genetics upon human society.

• Generic and graduate skills

• To develop a critical and analytical approach in all aspects of study and problem solving, including the ability to deal with complex issues both systematically and creatively, and communicate to specialist and non-specialist audiences.

• Develop creativity

• Provide opportunities for specialisation in selected theoretical and applied topics.

• Enhance student employability through the development of knowledge, subject-specific skills, transferable skills, and opportunities for work experience.

Overall aim of the scheme

The course aims to provide students with a holistic, in-depth knowledge of theoretical and applied aspects of genetics, from the laws of inheritance laid down by Mendel, through to evolutionary theory and the post-genomic analyses of organisms across the phylogenetic spectrum.

A1 Describe, discuss and understand the key biological concepts and phenomena relevant to Genetics confidently, accurately and in detail, using appropriate terminology.

A2 Be aware of the full breadth of the Biosciences, from molecular to cellular, and from organism to ecosystem.

A3 Engage with literature in Genetics to develop insight into the subject.

A4 Appreciate the contribution of Biosciences to the innovations that characterise the modern world, and the potential of Genetics graduates to develop sustainable solutions to current and future challenges.

A5 Stay up to date with advances in Genetics, including aspects of sustainability, and appreciate the fluid nature of knowledge that evolves as new findings emerge.

A6 Understand the key concepts and techniques in general systems biology. Underpinning basic sciences including mathematics and computing (word processing, spreadsheets, presentation software, etc.), biological chemistry, microbiology, analytical techniques and genetics (evolution, phylogeny, taxonomy, etc.).

A7 Gain knowledge and understanding of cellular biology, cell division, organelles and cellular homeostasis. Interactions of microbes, plants and animals with each other and with the environment.

Learning and Teaching
Student development towards these outcomes is promoted through a range of teaching activities. These include: small group tutorials, laboratory practical classes, one-to-one tutoring for the research project, lectures and problem-based learning scenarios. Additionally, feedback from assessments, literature-based research and computer-assisted learning also support the teaching and learning of these outcomes.

Assessment Strategies and Methods
Written examinations and coursework to include: Unseen examination, essays, multiple choice questions and short answer examinations, exercise-based and essay assignments, project work, practical laboratory reports, posters, the dissertation project and presentations.

10.2.1 Intellectual Skills

By the end of their programme, all students are expected to be able to:

B1 Recognise the relationships and interfaces between Genetics and other subjects (both scientific and outside of the sciences), such that they are able to operate effectively in a multidisciplinary environment.

B2 Apply ethical awareness to working in the Biosciences, appreciate the historical context of the subject and the societal impacts of advances in the Biosciences.

Learning and Teaching
Student development towards these outcomes is promoted through a range of teaching activities. These include: small group tutorials, laboratory practical classes, one-to-one tutoring for the dissertation project, lectures and problem-based learning scenarios. Additionally, feedback from assessments, literature based research and computer-assisted learning also support the teaching and learning of these outcomes.

Assessment Strategies and Methods
Intellectual skills are assessed by a variety of methods throughout the degree scheme. Depending upon the module and the nature of the specific assessment, they are assessed using essay assignments, project work, practical laboratory reports, the research project, presentations, seen examination essays, unseen examinations essays and unseen short answer examinations.

10.2.2 Professional practical skills / Discipline Specific Skills

By the end of their programme, all students are expected to be able to:

C1 Apply knowledge and understanding of biological systems and methodologies to design experiments and to solve theoretical and practical problems within the area of genetics, with awareness of appropriate controls, possible bias, ethics and sustainability.

C2 Describe, document and enact safe working practices in terms of managing biological, chemical, laboratory or field-based risk, through knowledge-based risk assessments and practical activities.

C3 Select and carry out appropriate quantitative and qualitative practical (laboratory, field or computational) techniques to solve problems relevant to Genetics, including consideration of the theoretical basis and limitations of various techniques.

C4 Complete independent open-ended investigative work through a project/research-based assignment relevant to the course. This could be a laboratory or field-based project, an evidenced-based review, and/or collecting and evaluating data from a variety of sources.

C5 Collect qualitative and quantitative data from investigations relevant to the course and analyse and interpret these data to allow testing of hypotheses, contextualising of findings, presentation of findings, and suggestions for further lines of investigation.

Learning and Teaching
The teaching and learning of these skills are promoted during laboratory practical classes, small group tutorial classes, feedback from assessments, lectures, tutorials, student-led seminars, problem-based learning scenarios and case studies, literature-based research, computer-assisted learning and experimental research during the dissertation.

Assessment Strategies andMethods
Discipline-specific skills are assessed by a variety of methods throughout the degree scheme. Depending upon the module and the nature of the specific assessment, they are assessed using essay assignments, project work, practical laboratory reports, the dissertation project, seminar presentations, seen examination essays, unseen examinations essays and unseen short answer examinations.

By the end of their programme, all students are expected to be able to:

D1 Acquire skills in research and data analysis.

D2 Deploy mathematical and statistical concepts, processes and tools, such as the manipulation of equations and graphical and statistical analysis, to solve problems or evaluate data.

D3 Develop problem-solving and creative thinking skills.

D4 Develop a thorough grounding in information technology skills and use appropriate databases, computational techniques and tools to aid further understanding of and insight into biological processes.

D5 Demonstrate the ability to work independently.

D6 Demonstrate time-management and organisational skills, including the ability to meet deadlines.

D7 Develop the ability to express ideas and communicate effectively, in both written and oral forms, selecting appropriate content, media and methods for the audience, purpose and subject.

D8 Demonstrate self-motivation and self-reliance.

D9 Collaborate and work successfully and inclusively in a group environment, contributing positively and flexibly to team outputs.

D10 Act professionally, with due regard for legal, ethical and societal responsibilities, modelling good practice that promotes positive, sustainable and inclusive perceptions of the Biosciences and of Bioscientists.

Learning and Teaching
Transferable/key skills are incorporated within modules and related to relevant assessments as appropriate. Students learn and develop skills through student and tutor-led seminars; problem-based learning scenarios; self-directed learning, oral presentations and experimental dissertation work. Students will be encouraged to undertake work experience, including access to the Year in Employment Scheme. Students will also have access to an optional study exchange programme which will also develop transferable skills of communication, personal development and career planning.

Assessment Strategies and Methods
The skills listed above are assessed using exercise-based and essay assignments, project work, practical laboratory reports, the dissertation project, seminar presentations, unseen examinations essays and unseen short answer examinations.