autumn 2024
BIO-3021 Sustainability Science - 10 ECTS

Type of course

The course is mandatory for MSc students in biology on the Ecology and Sustainability specialization.

The course is available as a singular course.


Admission requirements

Local admission, application code 9371 - Master's level singular course.

Admission requires a Bachelor`s degree (180 ECTS) or equivalent qualification, with a major in biology of minimum 80 ECTS.

Recommended prerequisites: coursework in either ecology or sustainability science at BSc level.


Course overlap

If you pass the examination in this course, you will get an reduction in credits (as stated below), if you previously have passed the following courses:

BED-6018NETT Environment and substainability 4 ects
BIO-8621 Sustainability Science 6 ects

Course content

In this course, we explore the causes and consequences of global ecological changes and the sustainability challenges that society is facing as a result of these changes. The course introduces students to sustainability science and some of the key concepts and ideas articulated in global environmental assessments (IPBES, IPCC and Arctic Council working groups) and environmental policies (the 2030 Agenda for Sustainable Development, UN Convention of Climate Change, the Paris Agreement, and Convention on Biological Diversity and The Kunming-Montreal Global Biodiversity Framework (GBF)). We emphasize the need to understand interactions between ecological and social systems in the pursuit of addressing sustainability challenges. The aim is to integrate theory, practice and reflections. The course is divided into the following modules:

  • Sustainability: concepts, principles and practices,
  • Socioecological systems: methods and analysis
  • Tackling the dual crisis of climate change and loss of biological diversity. Global environmental policies and assessments promote inclusiveness with respect to indigenous - and local communities and therefore are a cross-cutting issue in all these modules.

Objectives of the course

Knowledge and understanding:

  • Can reflect upon the scientific ideas and practices of sustainability
  • Summarize the human-induced changes of the global ecology, including the risks of surpassing thresholds defined as planetary boundaries.
  • Explain the key concepts and ideas underlying the Paris Agreement and the International Panel of Climate Change, including strategies and actions for mitigating and adapting to climate change.
  • Explain the key concepts and ideas underlying the Post-2020 Biodiversity Framework and the International Panel of Biodiversity and Ecosystem Services, including nature-based solutions for mitigating and adapting to climate change.
  • Appraise the role of resilience of socio-ecological systems for sustainability.

Skills:

  • Evaluate and compare different models, metrics and indicators of sustainability including relevant trade-offs and synergies between UN’s Sustainability Development Goals.
  • Apply systems thinking by designing and selecting research methods for analyzing interactions between ecological and social systems to better understand the challenges of sustainability.
  • Discuss and critically analyze strategies and actions to meet the goals set in the Paris agreement and the Post-2020 Biodiversity Framework, including the values and ethics underpinning these different choices.
  • Identify drivers that erode or build resilience of socio-ecological systems.

Competence:

  • Reflect on ethical perspectives of sustainability and UN’s 2030 Agenda for Sustainable Development.
  • Participate in science-policy dialogues relating to biological diversity, climate change and the UN’s Sustainable Development Goals.
  • Communicate sustainability science by using infographics, podcasts scientific blogs, oral presentations or other forms of dissemination.
  • Work collaboratively by planning team meetings and deliverables by using a Gantt chart, assigning roles and tasks, apply code of collaboration, and evaluate the team and personal performance.
  • Write short scientific essays about sustainability.

Language of instruction and examination

English.

Teaching methods

We employ a diversity of teaching methods using online resources, readings and group activities combined with video and seminar for each module (300 hrs).

The time estimates are as follows: lectures - 24 hrs; preparations and participation in seminars work assignment for each module - 72 hrs; work assignments - 50 hrs; group exam and individual assignments are estimated to 75 hrs. The rest includes reading of syllabus associated with these activities


Information to incoming exchange students

This course is open for inbound exchange students who meet the admission requirements.

Do you have questions about this module? Please check the following website to contact the course coordinator for exchange students at the faculty: https://en.uit.no/education/art?p_document_id=510412


Schedule

Examination

Examination: Date: Weighting: Duration: Grade scale:
Off campus exam 29.11.2024 09:00 (Hand out)
13.12.2024 14:00 (Hand in)
7/10 2 Weeks A–E, fail F
Assignment 05.11.2024 14:00 (Hand in) 3/10 A–E, fail F

Coursework requirements:

To take an examination, the student must have passed the following coursework requirements:

Group report - sustainability module Approved – not approved
Report on the climate game Approved – not approved
Certificate of introduction to the Convention of Biological Diversity Approved – not approved
Science communication contribution Approved – not approved
Pre-survey on values and views about sustainability Approved – not approved
UiT Exams homepage

More info about the coursework requirements

The following work assignments need to be delivered before taking the individual home exam and delivering the final group exam:

  • One small group report relating to the sustainability module
  • Short report on the climate game
  • Certificate of introduction to the Convention of Biological Diversity
  • A science communication contribution relating to your group exam topic
  • Pre-survey on values and views about sustainability

All students need to prepare for the supervision seminars together with their team.

Approved work requirements are valid for three years


More info about the assignment

One group exam of research plan using socioecological systems analysis to address a sustainability challenge that you select together with your team.

Re-sit examination

Re-sit exam is offered to those who have already delivered the group assignment, but that still need to complete the individual home exam.
  • About the course
  • Campus: Tromsø |
  • ECTS: 10
  • Course code: BIO-3021