MB3199 - Coral Reef Ecology (Advanced)
|Student Contribution Band:
||School of Marine & Tropical Biology (pre 2015)
Only available to students enrolled in BSc (Marine Biology - Advanced)
A treatment of the major aspects of coral reef ecology, including population dynamics,
reef community structure and diversity, effects of environmental disturbances, competition
and predation, and reef management. Emphasis is on the mechanisms and processes that
shape coral reef communities and how they respond to environmental change. The course
combines the presentation of theoretical quantitative and conceptual models in lectures
with laboratory computer exercises and a 3-day field project. Students will be required
to attend supplementary tutorials in additional to lectures and practicals for MB3190.
The course content complements that of MB3210.
- become familiar with the key processes underlying patterns of recruitment, abundance,
and community diversity on coral reefs;
- understand the link between resources and environmental stressors at the level of
the organism and demographic processes;
- develop insight into the role of species interactions in the dynamics, diversity and
resilience of coral reefs;
- develop an understanding of the interactions between different types of environmental
disturbances and the responses of coral reef systems.
|Students enrolling in this subject should have an excellent understanding of general
biology and ecology (not necessarily for coral reef organisms), an ability to manipulate
data and conduct basic statistical analyses (including ANOVA, Chi-square, and Regression
analyses), and comprehensive understanding of major considerations for designing ecological
sampling programs and experiments. A minimum mark of Credit in MB2060 is required
for entry in this subject.
||Credit or better in MB2060
|MB3190 AND MB5190
Study Period 2
|Census Date 28-Aug-2014
||<Person not found>
||Professor Andrew Hoey, Professor Sean Connolly, Assoc. Professor Mia Hoogenboom, Professor Morgan Pratchett.
- 25 hours lectures
- 2 hours tutorials
- 18 hours practicals
- 24 hours fieldwork
||end of semester exam (45%); tutorial attendance and participation (5%); assignments (15%); field project (20%); poster presentation (15%).
An enrolment quota applies to this offering.
Enrolment in this offering is restricted.
Minor variations might occur due to the continuous Subject quality improvement process,
and in case
of minor variation(s) in assessment details, the Subject Outline represents the latest