91545 Environment Research Project A

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Subject handbook information prior to 2024 is available in the Archives.

Description

Students undertake a short research investigation under the supervision of a member of academic staff. Students contribute, in collaboration with their UTS supervisor and, where appropriate, an industry or external co-supervisor, to formulating the scope of the research project, including planning the research work. The student is responsible for carrying out the work, including appropriate and critical analysis of the data or information obtained, and writing up their findings in a formal written report (3000–5000 words approx.) which includes an introduction to the project, a description of the methods used, a presentation of the results obtained plus any analysis undertaken and a discussion of the results in the context of the relevant literature. They may also be required to present a seminar to other students, staff and industry or external partners.

Due to supervisory and infrastructure constraints, places in this subject are limited and it can only be undertaken with faculty approval. Students should approach their program adviser and potential supervisors about project availability in the first instance. A project proposal, written in consultation with, and signed by the proposed supervisor and countersigned by the program adviser must be sent to the Master of Science course director for formal approval. Where the project involves laboratory or fieldwork, a completed risk assessment form must also be provided with the approval request. Ethics approval is required for certain projects.

Subject learning objectives (SLOs)

Course intended learning outcomes (CILOs)

This subject also contributes specifically to the development of following course intended learning outcomes:

• Demonstrate critical engagement with the appraisal of advanced knowledge and demonstrate advanced application of knowledge and technical skills to conduct research and generate new knowledge relevant to professional practice in science. (1.1)
• Assess, argue for, and conduct appropriate approaches to independent research and solving complex problems and apply a research methodology to address a research need in a relevant professional context. (2.1)
• Develop, prepare, and engage, at times collaboratively, in work practices that demonstrate an understanding of health and safety requirements, ethical conduct, risk management, organisation, record keeping and collaborative skills in the context of science. (3.1)
• Present and communicate complex ideas and justifications using appropriate communication approaches from a variety of methods (oral, written, visual) to communicate with discipline experts, scientists, industry, and the general public. (5.1)

Contribution to the development of graduate attributes

Graduate Attribute 1 - Disciplinary knowledge

Develop a professional identity through engagement with scientific knowledge to demonstrate depth, breadth, application and interrelationships of relevant discipline areas.

Students will apply the disciplinary knowledge and practical skills they have developed during the Master of Science (Marine Science and Management) program and related knowledge from their undergraduate studies to a research question in order to contribute to the development of new knowledge or environmental science processes. To successfully complete their research project, students will build a deeper understanding of their focus area by critiquing and/or using existing scientific literature to complete aspects of their project such as data analysis, experiments, or interpretation of results.

Graduate Attribute 2 – Research, inquiry and critical thinking.

An ability to hypothesise, apply the scientific method and solve problems, incorporating evidence-based knowledge acquisition, deduction, inference and induction to contest current scientific knowledge through critical evaluation and data analyses.

Students will learn how to structure and investigate a research project from the design stage to the final report and seminar by using scientific method. They will formulate scientific hypotheses and learn how to design appropriate experiments to test and evaluate these hypotheses with guidance from their supervisors. Students will also develop problem-solving skills by applying existing knowledge or literature to solve unknown or unfamiliar problems. Students will be trained on and gain expertise with state-of-the-art instruments, software and processes used in forensic science industry and research, setting them up to apply their technical skills to new workplace or research scenarios.

Graduate Attribute 3 – Professional, ethical and social responsibility.

A capability to autonomously and collaboratively acquire technical, practical and professional skills within the context of work integrated learning and apply these in ethical ways to meet the current and future needs of society.

Students will develop their professional skills and ability to learn collaboratively with other scientists - necessary for continued career development in modern science - through independent research, participating in research group meetings, working with other researchers and students in the laboratory, and managing the day-to-day aspects of their project. Students will have an opportunity to practice key professional attributes such as time management, researching scientific literature, problem solving, and personal organisation required for a successful career. Students will learn other professional skills such as laboratory risk assessment and management, conducting ethical research, maintaining thorough laboratory notes, and scientific communication during their project work.

As students investigate their project, they will build an awareness of the current limitations and issues within their chosen focus area, and aid in the development of a solution to these limitations, whether it is the development of a new method or an industry-based validation or interpretation framework project.

Students will gain an awareness of the role of science within a global culture and willingness to contribute actively to the shaping of community views on complex issues where the methods and findings of science are relevant. This will be demonstrated in the student's ability to explain the significance of their research project, and how it contributes to needs of the global community within their field of research.

Graduate attribute 5 – Communication.

Communicate effectively and professionally across all domains (written/oral/visual/graphical) to a range of audiences using appropriate media.

The communication of a student's project findings is an essential part of their professional development. Students will get an opportunity to develop their written scientific communication skills by writing a technical scientific report at the end of their project, which requires students to critically analyse various data and sources into a coherent body of work. Students will also practice their oral communication skills via the presentation of their findings in the final seminar.

Teaching and learning strategies

Guided learning

Teaching and learning in this subject is on an individual level and linked to your project. You will acquire crucial laboratory skills in formal training sessions with supervisors, professional research technical officers and/or industry supervisors. With assistance from your supervisors, you will learn other practices required in a professional research environment, such as preparing risk management plans, project plans, designing experiments, and research ethics. Supervisors will provide guidance and personalised feedback on assessments to help you refine your academic writing, literature critique and presentation skills. You may also request one-on-one meetings with your supervisors to discuss specific problems or progress. More detailed information on student feedback modes is presented in the Assessment Feedback section.

Independent learning

You will be responsible for the day-to-day activities in your research project, including balancing research time and coursework commitments, providing draft work for critique in a timely manner, and providing regular updates to your supervisors. You will use online resources such as scientific literature, webinars or tutorials to develop a deeper understanding of their research topic and results. Online support materials are provided on Canvas and are designed to complement the supervisors' guidance on literature review and presentation writing and general research practices.

Research group meetings and collaborative learning

You will be seen as an active participant of your research group, and you are expected to show 'good citizenship' within your respective groups. Research group meetings are one channel for receiving regular feedback and guidance from your supervisors and other research students. This includes attending and giving updates at group meetings and participating in other activities such as journal clubs or practice seminars, which will help you develop your critical review, scientific and presentation skills. You will have the opportunity to actively learn from senior research students in the laboratory.

Content (topics)

The topic for this research project is developed in your research plan. Your research plan is the result of a process of consultation and feedback with your project supervisor and must be approved by him / her. Your supervisor will be able to provide ongoing feedback in regard to the progress of your project throughout the term.

Assessment

Assessment task 1: Final Report

Assessment task 2: Seminar

Other resources

Additional resources for the subject will be made available on Canvas.