Modules

• Year 1

  Core Modules

  Molecular Basis of Life (40 credits)

  ×

  Molecular Basis of Life

  Overview

  Genetics and the Molecular Toolbox is a Stage 1 20 CAT module that runs in semester 2. The module provides a comprehensive introduction to the concepts of Genetics from fundamental to applied and builds on the knowledge gained through the pre-requisite module BIO1103 Molecular Basis of Life.  Students will develop broad knowledge of genetics, genomics, and associated molecular tools and technologies.  The course begins with an introduction classical genetics (chromosome structure, cytogenetics, diploid inheritance, allelic and epistatic interactions, aneuploidy, polyploidy, cytoplasmic inheritance) and population genetics to understand the importance of natural selection and evolutionary processes.  This will be followed by the introduction to modern genetics tools and molecular techniques through a series of Toolbox sessions.  Focus will be on ‘omics technologies including bioinformatics, and practical methods in molecular and cellular biology including genetic engineering tools and biochemistry techniques.  The applications of genetic engineering, biotechnology, and tools/assays will be explored in the form of case studies.  Students will also gain an understanding of the genetic/molecular basis of disease.

  Learning Outcomes

  On successful completion of this module students will be able to:
  
  
  
  LO1: Demonstrate knowledge and understanding of the molecular basis of genetics (classical, population and evolutionary)
  
  LO2: Demonstrate understanding of bioinformatics and how to use software to interrogate datasets
  
  LO3: Describe recent advances in genetic, molecular, and biochemical tools including genetic manipulation and ‘omics’ technologies
  
  LO4: Discuss the applications of genetics and genetic tools to biotechnology, medicine and scientific research
  
  LO5: Develop problem solving skills and the ability to analyse data.
  
  LO6: Demonstrate Good Laboratory Practice (GLP), and appropriate health and safety in the laboratory and ethical practices.
  
  LO7: Demonstrate competence in specific laboratory practical and manipulative skills
  
  LO8: Develop an awareness of steps required to translate basic scientific research into commercial and/ or practical applications.

  Skills

  Development of laboratory skills related to molecular biology, biochemistry and genetics as evidenced through Practical Skills Portfolio; Group project work; Report writing; Critical and logical analysis of data; Peer and self-assessment; Computational analyses of genome/transcriptome data

  Coursework

  40%

  Examination

  60%

  Practical

  0%

  Stage/Level

  1

  Credits

  40

  Module Code

  BIO1304

  Teaching Period

  Full Year

  Duration

  24 weeks

  Pre-requisite

  No

  Core/Optional

  Core

  Biodiversity (40 credits)

  ×

  Biodiversity

  Overview

  Biodiversity (BIO1305) is a 1st semester, 20 CAT module that provides a fundamental introduction to the diversity in form, function and biology of eukaryotic organisms. The course material is taught through lectures, laboratory practicals and tutorials. This course builds on previous fundamental knowledge and provides an essential foundation for future learning.).  A quantitative approach is emphasised throughout the module and practical data analysis methods are taught during tutorial sessions.
  
  The module begins with a primary overview of the evolution of life, the concept of populations and the mechanisms of speciation.  A comparative evolutionary approach is taken to present the modern classification of life and the evolutionary relationships between organisms.  Using the phylogenic history of life as a structural framework, the course systematically tracks through the evolution of major lineages and their defining functional traits - from simple organisms like prokaryotes all the way through to the vertebrates.  Information is given for each group of organisms on classification, evolutionary history, life cycles, morphology and physiology.   First the prokaryotes (bacteria and archaea) are explored, then protist groups including algae are next, followed by the evolution of higher plants and finally fungi.  Animals then follow and are dealt with on a group by group basis in a sequential fashion, starting with the invertebrates and finishing with the chordates and human evolution.
  
  At the end of the module students should have a basic understanding of biological diversity and evolution and be able to apply this knowledge to more advanced studies in biology.

  Learning Outcomes

  On successful completion of this module students will be able to:
  
  LO1: Demonstrate a knowledge and understanding of the diversity in form, function and biology of living organisms.
  LO2: Apply skills of observation, recording, statistical analysis, microscopy, dissection, experimental design and structure-function interpretation through practical laboratory
  LO3: Describe the role of biotic and abiotic factors in determining the distributions and abundance of organisms; their organisation into populations, communities, ecosystems and biomes.
  LO4: Describe the theories and mechanisms relating to the interactions of organisms with their environment.
  LO5: Develop problem solving ability and the ability to analyse data.
  LO6: Demonstrate the ability to work as part of a team.
  LO7: Develop an understanding of health and safety in the laboratory and ethical practice.

  Skills

  Development of laboratory skills as evidenced through practical skills portfolio; report writing; critical and logical analysis of data, peer and self-assessment

  Coursework

  50%

  Examination

  50%

  Practical

  0%

  Stage/Level

  1

  Credits

  40

  Module Code

  BIO1305

  Teaching Period

  Full Year

  Duration

  24 weeks

  Pre-requisite

  No

  Core/Optional

  Core

  The World of Microorganisms (40 credits)

  ×

  The World of Microorganisms

  Overview

  The World of Microorganisms (BIO1301) is a 20 CAT module that is underpinned by the semester 1 module ‘Fundamentals of Microbiology’. In this module students will explore: microbial interactions examining their role in food, health and the environment; study aspects of microbial pathogenicity in humans and animals and their impact on the immune system; and learn about some aspects of microbial biotechnology. Case studies will be used to relate learning to real-world context.

  Learning Outcomes

  On successful completion of this module students will be able to:
  
  
  
  LO1: Describe and explain how microorganisms relate to production and use of food
  
  LO2: Discuss aspects of biogeochemistry including marine microbiology’s role in maintaining a healthy Earth 
  
  LO3: Discuss microbial adaptations to extreme environments 
  
  LO4: Demonstrate the biotechnological potential of microorganisms for the benefit of humankind.
  
  LO5: Discuss how microorganisms may contribute to the manifestation of disease and how this can be prevented
  
  LO6: Demonstrate competence in microbiology specific laboratory practical and manipulative skills.
  
  LO7: Develop problem solving skills.
  
  LO8: Demonstrate the ability to work as part of a team.

  Skills

  By the end of the module, students should have developed competence in practical laboratory skills related to microbiology, as well as reading, numerical, and scientific problem-solving skills. In addition to effective assimilation of knowledge they will gain experience of word processing, numerical procedures, interpretation of data, team working and problem solving.

  Coursework

  40%

  Examination

  60%

  Practical

  0%

  Stage/Level

  1

  Credits

  40

  Module Code

  BIO1301

  Teaching Period

  Full Year

  Duration

  24 weeks

  Pre-requisite

  No

  Core/Optional

  Core

• Year 2

  Core Modules

  Animal Biology and Physiology (40 credits)

  ×

  Animal Biology and Physiology

  Overview

  This module provides an introduction to the structure and function of the major organ systems, their interrelationships and adaptations to the environment. Topics covered include the endocrinology of digestion, blood sugar and metabolism, internal and external respiration, gas transport; the heart and circulatory system; nitrogen excretion, salt and water balance, the nervous system, including action potentials, synaptic transmission, glia, types of muscle and mechanisms of muscle contraction; immune system organisation, molecular basis of the immune response, immune system evolution, immunotechnology, visual information processing and an introduction to environmental physiology. A comparative approach will be taken wherever possible to examine the biology of vertebrates; with focus on the nature of endothermy; adaptations to extreme (hot/cold/arid) environments; locomotion (in particular flight), aquatic adaptations and diving; orientation and migration; sensory capabilities, communication and ecological significance.

  Learning Outcomes

  On successful completion of this module students will be able to:
  
  LO1: Demonstrate knowledge and understanding of the key aspects of animal structure and function
  
  LO2: Discuss the physiological processes central to animal biology.
  LO3: Describe and explain the structures, roles and activities of the major anatomical systems.
  
  LO4: Demonstrate a knowledge and understanding of physiological processes at different scales ranging from sub-cellular to tissues, organs, whole animal and populations.
  
  LO5: Demonstrate a knowledge and understanding of endocrinology, metabolism, respiration, gas transport; circulatory systems; nitrogen excretion, osmoregulation, nervous systems, muscle systems; immune system organisation, sensory processing.
  
  LO6: Develop problem solving skills and the ability to analyse data.
  
  LO7: Develop written and oral communication skills including scientific report writing
  
  LO8: Develop an understanding of Good Laboratory Practice (GLP), health and safety in the laboratory, and ethical practice.
  
  LO9: Demonstrate competence in specific laboratory practical and manipulative skills
  
  LO10: Demonstrate the ability to work as part of a team and reflect on their role in the team.

  Skills

  Practical training with specialist equipment to investigate animal physiology/anatomy and the evolution and adaptations of animals, particularly vertebrates; report writing; use of library and literature sources. Students will gain experience in the use of specialised equipment used to investigate physiology.
  Skills will be enhanced with regard to assimilation and interpretation of scientific literature especially with regard to integrating information from different sources; students will gain further experience in preparing and delivering reports; there will be further experience of working towards deadlines.

  Coursework

  40%

  Examination

  60%

  Practical

  0%

  Stage/Level

  2

  Credits

  40

  Module Code

  BIO2306

  Teaching Period

  Full Year

  Duration

  24 weeks

  Pre-requisite

  No

  Core/Optional

  Core

  Marine Systems (20 credits)

  ×

  Marine Systems

  Overview

  The objective of this course is to provide students with an overview of the marine environment, and especially the management of the oceans in the Anthropocene. The course text is based partly on the United Nations World Ocean Assessment, which represents a comprehensive review of the state of the marine environment, including socioeconomic aspects, and is updated by world experts on a regular basis. We will discuss:
  
  (1) Key marine habitats and associated biological diversity
  (2) Species and places under threat
  (3) Major ecosystem services from the marine environment
  (4) Human activities and impacts on the marine environment
  (5) An introduction to marine policy
  
  
  This course reflects the content and expert advice that global governments need and use to make decisions about the use and protection of the oceans. It is therefore suited to those wishing to pursue careers in research and management alike.
  http://www.worldoceanassessment.org

  Learning Outcomes

  On successful completion of this module students will be able to:
  
  LO 1. Describe the major marine habitats and where they occur around the world
  LO 2. Explain what benefits we get from the world’s oceans and seas, and how such benefits are distributed
  LO 3. Explain some major threats to ocean systems and major faunal groups today
  LO 4. Describe how human activities affect the oceans and seas
  LO 5. Understand the ways that we quantify the state of the oceans and marine resources
  LO 6. Explain how informed decision-making can contribute to managing oceans in a sustainable manner
  LO 7. Apply skills of data interpretation, critical thinking, and communication, in order to explain complex problems to diverse audiences
  LO 8. Demonstrate competence in specific laboratory practical and manipulative skills
  LO 9. Demonstrate the ability to work as part of a team

  Skills

  Group working; creative problem solving; critical thinking; data interpretation; evidence-based analysis; numeracy; ICT; communication skills

  Coursework

  100%

  Examination

  0%

  Practical

  0%

  Stage/Level

  2

  Credits

  20

  Module Code

  BIO2108

  Teaching Period

  Autumn

  Duration

  12 weeks

  Pre-requisite

  No

  Core/Optional

  Core

  Coastal and Oceanic Biology (20 credits)

  ×

  Coastal and Oceanic Biology

  Overview

  Module structure
  
  ‘The oceans are a key element for the existence of life on Earth. 97% of all the water on Earth, and 99% of the habitable space on this planet, is in the ocean’ (source: NASA).
  
  Coastal and Oceanic Biology (BIOL 2206) provides a fundamental introduction to marine environments including the species and processes found there. The module takes a holistic view of marine systems by first exploring the oceans themselves and how they shape the global climate and patterns of productivity (from plankton to migratory megafauna). The second half the course focusses on the key ecological processes (e.g. competition, predator-prey interactions) that underpin the functioning of some of the world’s most biodiverse ecosystems.
  
  The material is taught through lectures, data tutorials and a residential field-trip including time at sea on the departmental research vessel, and visits to four unique coastal habitats (five days overall at Queen’s Marine Laboratory). A quantitative approach is emphasised throughout the module that will ensure students are analytically confident prior to starting their honour’s projects in level 3. The module has three main themes: oceanic biology, marine ecology and applied marine biology.
  
  Oceanic Biology
  The module begins with an introduction to the principles of oceanography including atmospheric and ocean interactions, thermohaline circulation patterns and global currents, waves and tides. How this is affects primary productivity is also discussed.
  
  Marine Ecology
  This section of the module focuses on the key ecological processes of marine ecosystems; including how competition, succession, predation and parasitism operate in marine systems (relative to terrestrial environments) and examines the consequences for individuals, populations and communities. It also looks at unique aspects of marine life cycles such as larval dispersal, metamorphosis and settlement, and their impacts and importance.
  
  Applied marine biology
  The module finally looks at practical and applied aspects of marine biology. This focusses on key advances in the research such as in tracking and biologging devices; stable isotope analysis; genomics; eDNA and other cutting edge tools in the study of marine organisms. These will be covered in-depth using relevant case studies from the island of Ireland and globally.
  Students are also given hands-on practical experience during an intensive 5-day field course to the Queen’s Marine Laboratory, where they are given the opportunity to conduct their own independent research projects (Easter Break).

  Learning Outcomes

  On successful completion of this module students will be able to:
  
  LO1: Demonstrate and knowledge and understanding of the basic principles of oceanography, including the identification of the physical and chemical factors that affect organisms living in marine environments.
  LO2: Outline the key ecological processes that underpin marine ecosystems and describe their role with examples from pelagic and benthic systems.
  LO3: Understand a range of cutting edge research tools; and demonstrate how they can be applied.
  LO4: Be able to synthesise the key findings of marine ecological research
  LO5: Be able to identify and distinguish between common marine species.
  LO6: Successfully apply field-based and laboratory-based practical marine techniques and quantitative methods.
  LO7: Employ problem solving abilities and the capability to analyse data using numerical and statistical skills.
  LO8: Demonstrate the ability to work as part of a team.
  LO9: Successfully employ communication skills in the form of report and essay writing.
  LO10: Successfully employ communication skills in the form of a short video presentation

  Skills

  Group working;
  problem solving;
  numeracy;
  ICT;
  communication;
  learning development

  Coursework

  40%

  Examination

  60%

  Practical

  0%

  Stage/Level

  2

  Credits

  20

  Module Code

  BIO2206

  Teaching Period

  Spring

  Duration

  12 weeks

  Pre-requisite

  No

  Core/Optional

  Core

  Applied Genetics (20 credits)

  ×

  Applied Genetics

  Overview

  Darwinian and non-Darwinian theories of evolution; Revision of Basic Genetic Concepts and Terminology; Integration of Population Genetics and Evolution; Genetic Variation and Polymorphism; Allele Frequencies, Genetic Equilibria, Natural Selection and Adaptation; Mutation; Non-Random Mating; Genetic Drift and Gene Flow; Species, Speciation and Reproductive Isolating Mechanisms; Population Structure; Hybridization and Introgression; The Inheritance and Analysis of Qualitative and Quantitative Characters; Transgression, Environmental Effects and Heritability; Correlations Between Characters, Genotype, Phenotype and Breeding Values; Types and Uses of Selection; Recombination, Mapping and Genomics; Genetic Variation in Wild and Agricultural Populations; DNA Profiling; Behavioural Genetics; Genetic Conservation; Plant and Animal Breeding Methods and Examples.

  Learning Outcomes

  From the lectures, tutorials and computer simulations sessions, continual assessment and associated reading, students should understand and be able to provide a synthesis of current knowledge on the following topics: concept of biodiversity; Darwin's theory of evolution; neo-Darwinian theory and the modern synthesis; species concepts; reproductive isolating mechanisms; modes of speciation; gene pools; Hardy-Weinberg law; natural selection; genetic drift; effective population size; gene flow; founder effect; bottleneck; inbreeding; non-random mating; population genetic structuring; genome mapping; selective breeding; importance and practical applications of population genetics theory and genetic techniques in agriculture, terrestrial and marine environments.

  Skills

  The module should provide students with following transferable skills: Critical appraisal of conflicting theories and literature; Summarising and evaluating data from research papers; Essay and report writing; Extracting information from multimedia sources; Problem solving; Experimental design; Knowledge and understanding of laboratory techniques for population genetics studies; Analysing and evaluating experimental data; use of computer simulated investigations; Bioinformatics; Accuracy / thoroughness; Time management; Teamwork; Social and Economic impact of population genetics.

  Coursework

  40%

  Examination

  60%

  Practical

  0%

  Stage/Level

  2

  Credits

  20

  Module Code

  BIO2205

  Teaching Period

  Spring

  Duration

  12 weeks

  Pre-requisite

  No

  Core/Optional

  Core

  Optional Modules

  Applied Ecology (20 credits)

  ×

  Applied Ecology

  Overview

  Environmental change, spatial ecology, grassland ecology, upland ecology, climate change, conservation biology, ecosystem services, pollination biology, exploitation of natural populations.

  Learning Outcomes

  Students should gain further practical experience in field ecology methods and an appreciation of how human activities have influenced local, regional and global populations and communities of biological species.

  Skills

  Aural, oral and written communication. Practical field work. Computer applications in univariate and multivariate statistics. Use of computers in ecological modelling.

  Coursework

  100%

  Examination

  0%

  Practical

  0%

  Stage/Level

  2

  Credits

  20

  Module Code

  BIO2107

  Teaching Period

  Autumn

  Duration

  12 weeks

  Pre-requisite

  No

  Core/Optional

  Optional

  Cell Biology (20 credits)

  ×

  Cell Biology

  Overview

  Detailed coverage of cell structure and function from the perspective of individual organelles and their interactions including:
  
  The variety of cells
  The cell cycle
  Cell Signalling
  The nucleus & the cytoplasm
  The mitochondrion & energy production
  Ribosomes & protein synthesis
  The secretory pathway
  Exosomes
  Membrane pumps and transporters
  Cytoskeleton
  Blood cells & pathologies
  
  How breakdown of normal organelle function can lead to disease and how a knowledge of cell biology has helped to develop appropriate treatments, e.g.:
  
  Cystic fibrosis
  Cancer
  Lysosomal storage diseases
  Sickle cell anaemia

  Learning Outcomes

  On successful completion of this module students will be able to:
  
  LO1: Describe the structure and function of the major cell organelles and their interactions with each other
  LO2: Demonstrate knowledge of how a better understanding of cell biology can lead to the development of new therapeutic strategies in various disease states
  LO3: Appreciate the importance of experimental approach and the practical methodologies employed in cell biology
  LO4: Develop independent learning, critical thinking and problem solving ability

  Skills

  Observation, recording, data analysis, microscopy, basic haematology, image analysis and experimental design. Practical skills in laboratory investigations including use of specialised software in data analysis, professional technical report writing and team-work.
  ------------------------

  Coursework

  100%

  Examination

  0%

  Practical

  0%

  Stage/Level

  2

  Credits

  20

  Module Code

  BIO2104

  Teaching Period

  Autumn

  Duration

  12 weeks

  Pre-requisite

  No

  Core/Optional

  Optional

• Year 3

  Core Modules

  Professional Studies (120 credits)

  ×

  Professional Studies

  Overview

  1. Preplacement preparation including; the selection of placement,
  application forms, CV's and interviews. Evaluation of placement by student,
  including potential to relate academic theory to the work place, skills
  development and project development.
  2. On placement work including; relating academic theory to the workplace, recording activities and reflection in a log book. 3. Post placement reflection of learning and career prospects.
  
  
  
  
  1. Preplacement preparation including; the selection of placement,
  application forms, CV's and interviews. Evaluation of placement by student,
  including potential to relate academic theory to the work place, skills
  development and project development.
  2. On placement work including; relating academic theory to the workplace, recording activities and reflection in a log book. 3. Post placement reflection of learning and career prospects.

  Learning Outcomes

  On successful completion of this module students will be able to:
  
  LO1: Apply subject knowledge of theoretical and practical concepts to provide solutions in the work-related environment
  LO2: Evidence development in work related transferable skills
  LO3: Manage and deliver project type work in the workplace setting
  LO4: Demonstrate employability skills and an enhanced career plan.
  LO5: Demonstrate an understanding of the importance of Health and Safety in the work environment.
  LO6: Exhibit effective communication skills in both the academic and work environment.
  LO7: Demonstrate the ability to work as part of a team and reflect on your role in the team.
  LO8: Evaluate and reflect upon your learning experience in the work environment

  Skills

  Students will identify and evaluate the skills which they have developed
  during the placement, which may include: communication (oral and written); problem-solving; team work; IT; presentational; personal development and reflection.

  Coursework

  100%

  Examination

  0%

  Practical

  0%

  Stage/Level

  3

  Credits

  120

  Module Code

  BIO3303

  Teaching Period

  Full Year

  Duration

  40 weeks

  Pre-requisite

  No

  Core/Optional

  Core

• Year 4

  Core Modules

  Conservation Biology (20 credits)

  ×

  Conservation Biology

  Overview

  The objective of this module is to provide an awareness of conservation issues worldwide, and built an understanding of the different approaches that exist to approach these issues.
  Students will learn the basics of Conservation Biology in a way that is tailored for the different pathways taking the course. Learning outcomes (see below) take a logical, sequential approach that go from defining and measuring biodiversity, understanding the threats to its maintenance, and ways to protect it (with protected areas and/or sustainable management). A strong interactive and critical thinking component will be emphasized, with a discussion of Conservation Biology as a field (why do we do it?) and topical conservation debates (group activity, first assignment).

  Learning Outcomes

  After completing this course, a student should be able to:
  LO1 Appreciate the different facets of biodiversity
  LO2 Critically discuss drivers of species and population decline
  LO3 Evaluate contrasting conservation practices
  LO4: Demonstrate the ability to work as part of a team
  LO5: Demonstrate critical thinking and problem solving ability.
  LO6: Demonstrate the ability to construct a clear argument and engage in debate.

  Skills

  S1 ability to interrogate and comprehend scientific literature
  S2 critical thinking utilizing the theory and major concepts learnt during their course of study
  S3 oral and written communication to argue sides to a topic
  S4 work in teams

  Coursework

  50%

  Examination

  50%

  Practical

  0%

  Stage/Level

  4

  Credits

  20

  Module Code

  BIO3206

  Teaching Period

  Spring

  Duration

  12 weeks

  Pre-requisite

  No

  Core/Optional

  Core

  Global Change Biology (20 credits)

  ×

  Global Change Biology

  Overview

  The objective of this course is to provide a deeper understanding of the linkages between global change and biological systems. Students will be guided to integrate knowledge of these systems from elsewhere in their course and to predict, interpret and attribute impacts of global change on them, and vice versa. The module will focus on the following themes:
  • Drivers of global climate, and other environmental, change
  • Impacts of global change on organisms and biological systems
  • Range shifts, altered phenology, and land use transformation
  • Invasive species and emerging diseases
  • Ocean systems and interactions with global climate
  • Drivers of marine global change, and consequences
  • Biological responses to past and future global changes climate
  • Implications for conservation and international policy

  Learning Outcomes

  On successful completion of the module students will be able to:
  
  LO1: Define global environmental change and give examples of consequences for biological organisms and systems.
  LO2: Discuss how biological organisms and systems respond to global environmental change, including through adaptation, movement and demographic change.
  LO3: Critically evaluate the attribution of changes in biological systems to global environmental change, and discuss how data analysis, experiments and modelling are used to this end.
  LO4: Integrate existing knowledge of specific biological systems to predict how global change affects them, how those effects can be elucidated, and how the consequences might be managed.
  LO5: Identify key areas of uncertainty in predictions of how global environmental change might affect biological systems in future, and explain how these can be addressed.
  LO6: Successfully employ communication skills in the form of oral presentations to demonstrate knowledge of global environmental change.
  LO7: Demonstrate the ability to work as part of a team and reflect on their role in the team.

  Skills

  Critical analysis of scientific literature on global change biology.
  Ability to evaluate evidence and identify misinformation and false news stories.
  Principles of simulation modelling in global change biology; associated quantitative skills.
  Develop of communication skills (oral, presentations and written).

  Coursework

  100%

  Examination

  0%

  Practical

  0%

  Stage/Level

  4

  Credits

  20

  Module Code

  BIO3205

  Teaching Period

  Autumn

  Duration

  12 weeks

  Pre-requisite

  No

  Core/Optional

  Core

  Behavioural Ecology (20 credits)

  ×

  Behavioural Ecology

  Overview

  The module examines the manner in which natural selection acts to maintain or change animal behaviour and social organisation. Topics include co-operative breeding and the development of complex social groups in insects, parental investment strategies, decisions about mates, sexual selection, the theory of sex ratios, conflict within families, infanticide, brood parasitism, evolutionarily stable strategies as applied to contest behaviour, reproductive decisions, economic decisions, competition for resources, decisions about living in groups, territoriality, communication, signal design and the role of behaviour in speciation.

  Learning Outcomes

  On successful completion of the module students will be able to:
  
  LO1: Demonstrate a critical understanding of natural selection as applied to animal behaviour and how the latter can drive the evolution of morphological characters
  LO2: Demonstrate the ability to critically evaluate of behavioural ecology investigations;
  LO3: Apply the scientific method by use of behavioural ecology models, comparative analyses and experimental method.
  LO4: Effectively communicate knowledge of behavioural ecology both orally and via written report.
  LO5: Employ problem solving skills.
  LO6: Demonstrate the ability to work as part of a team.

  Skills

  Critical evaluation of the relevant scientific literature. Problem solving skills, oral and written communication skills. Time management and effective IT skills.

  Coursework

  40%

  Examination

  60%

  Practical

  0%

  Stage/Level

  4

  Credits

  20

  Module Code

  BIO3108

  Teaching Period

  Spring

  Duration

  12 weeks

  Pre-requisite

  No

  Core/Optional

  Core

  Sustainable Oceans (20 credits)

  ×

  Sustainable Oceans

  Overview

  1. Skills in Oceanography (research cruise)
  2. Food from the Oceans
  3. Deep Sea Exploration
  4. Energy from the Oceans
  5. Contemporary Skills in Animal Tracking

  Learning Outcomes

  LO1: Develop a high critical judgement and confident grasp of fisheries management.
  LO2: Exhibit a thorough and systematic knowledge and understanding of deep-sea exploration.
  LO3: Demonstrate critical analysis of the methods relevant to contemporary oceanography.
  LO4: Demonstrate the ability to critically evaluate contemporary research and scholarship in relation to energy from the oceans
  LO5: Employ a critical understanding of the methods relevant to marine environmental impact assessment
  LO6: Develop a marine monitoring programme utilising appropriate methods and showing awareness of their limitations.

  Skills

  Critical analysis, written and oral communication, field skills, marine megafauna tacking skills, Survival at Sea Certification (STCW95 industry standard).

  Coursework

  100%

  Examination

  0%

  Practical

  0%

  Stage/Level

  4

  Credits

  20

  Module Code

  BIO3102

  Teaching Period

  Autumn

  Duration

  12 weeks

  Pre-requisite

  No

  Core/Optional

  Core

  Research Project (40 credits)

  ×

  Research Project

  Overview

  This module allows students to complete an independent piece of research that is allied to their programme pathway, employment aspirations and specific academic interests. The final year allows choice from a range of specialised topics that are informed and inspired by the research being carried out in the School of Biological Sciences. This module will provide an understanding of how to conduct an independent, hypothesis driven research project. It allows the student to: find, evaluate and synthesise information from a variety of sources; apply their skills of critical analysis to a ‘real world’ research and apply awareness of ethics/legal/policy aspects in context in the field of Biological Science. This module must be passed in order for students to be awarded a BSc Honours Degree.

  Learning Outcomes

  On successful completion of this module students will be able to:
  
  LO1: Demonstrate the ability to analyse problems in their field, formulate hypotheses, evaluate and apply evidence-based solutions.
  LO2: Plan, carry-out and report on a relevant scientific investigation including the application of health and safety procedures and ethical considerations in research.
  LO3: Demonstrate critical analysis of literature and data collected either in the laboratory, field or collated from published sources.
  LO4: Innovatively apply their skills to tackling relevant scientific problems.
  LO5: Demonstrate effective time-keeping, self-management and the ability to work independently.
  LO6: Demonstrate an appreciation of the limits and significance of scientific findings.
  LO7: Effectively communicate knowledge of the biological sciences to both a scientific audience and the general public.
  LO8: Demonstrate understanding of Good Laboratory Practice (GLP).
  LO9: Effectively execute laboratory practical and analytical skills.

  Skills

  Plan, carry out and report a relevant scientific investigation. Time-management skills, initiative and independence. Ability to carry out a risk assessment of a project, appreciate the need to work safely and ethically. Effective IT skills, including Word Processing, retrieval of
  information from electronic databases, data analysis and where appropriate statistical analysis

  Coursework

  100%

  Examination

  0%

  Practical

  0%

  Stage/Level

  4

  Credits

  40

  Module Code

  BIO3308

  Teaching Period

  Full Year

  Duration

  24 weeks

  Pre-requisite

  No

  Core/Optional

  Core

• Year 5

  Core Modules

  Research Project (MSci) (120 credits)

  ×

  Research Project (MSci)

  Overview

  This module enables students to complete an extended piece of research in a research-intense environment. Students will have the opportunity to apply the laboratory and/or field-based experience gained during stages 1-3, and to develop new skills in cutting edge techniques and scientific platforms. The project areas offered to students span research specialities within the School of Biological Sciences and include projects on diverse topics ranging from animal behaviour to microbiology and parasitology. Students are trained by the project supervisor and research team to facilitate the accrual of technical and practical skills and the development of research independence. In this rich learning environment, students readily accumulate deep understanding of the research topics and in-depth knowledge of current progress in the area. Students are normally based in research laboratories in the School of Biological Sciences or, exceptionally, in another school within the University or externally (subject to the module coordinator’s approval). Specific attendance requirements will be negotiated between students and supervisors, however, students should expect to spend approximately 35 hours per week on research activities with additional hours devoted to reading research literature, attending seminars and completing assignments.
  
  Students will be expected to: develop a research proposal and plan; maintain a comprehensive research notebook; meet regularly with supervisor; undergo a midterm and final review including giving a presentation [symposium] and produce a final research dissertation. This module must be passed in order for students to be awarded a MSci Honours Degree.

  Learning Outcomes

  On successful completion of this module students will be able to:
  LO1. Innovatively plan and carry out an extended research project work under limited supervision, to include formulation of research hypotheses, design of research experiments and analysis of research findings that address key scientific problems relevant to the discipline.
  LO2. Demonstrate the ability to synthesise, critically evaluate and interpret primary and secondary scientific literature, and research data.
  LO3. Effectively execute laboratory, field based, and/or bioinformatics research skills to include the application of health and safety procedures and ethical consideration in research
  LO4. Demonstrate understanding of Good Laboratory practice (GLP)
  LO5. Demonstrate the ability to effectively record and communicate scientific research findings in a variety of formats including laboratory notebooks and records, short reports, extended dissertations and oral presentations to a specialist and non-specialist audience.
  LO6: Demonstrate effective time-keeping, self-management and the ability to work independently.
  LO7: Demonstrate an appreciation of the limits and significance of scientific findings.

  Skills

  Students will develop: Cognitive Skills (including the ability to analyse, synthesise and critically evaluate scientific literature and plan, manage and report a significant scientific investigation with an appreciation for the need to work safely and ethically); Transferable Skills (time-management, communication, team-working, IT, retrieval of information from electronic databases, data analysis and application of statistical analysis); Knowledge and Understanding Skills (through research-led discovery) and Subject-Specific Skills (comprehension of relevant scientific literature, and management of scientific research).

  Coursework

  100%

  Examination

  0%

  Practical

  0%

  Stage/Level

  5

  Credits

  120

  Module Code

  BIO4301

  Teaching Period

  Full Year

  Duration

  24 weeks

  Pre-requisite

  No

  Core/Optional

  Core