BS707-7-AP-CO:
Methods in Tropical Marine Biology
2020/21
Life Sciences (School of)
Colchester Campus
Autumn & Spring
Postgraduate: Level 7
Current
Thursday 08 October 2020
Friday 26 March 2021
15
10 September 2020
Requisites for this module
(none)
(none)
(none)
(none)
(none)
MSC C16112 Tropical Marine Biology,
MPHDC16148 Tropical Marine Biology,
MPHDC16184 Tropical Marine Biology,
PHD C16148 Tropical Marine Biology,
PHD C16184 Tropical Marine Biology
The UK Natural Environment Research Council recently listed the most wanted Postgraduate and Professional Skills Needs in the Environment Sector. Multi-disciplinarity, Data Management, Numeracy, and Translating Research into Practice were among the top most wanted and cross-disciplinary skills identified. This module aims to widen the skill base in practical research by introducing a range of methodologies to aid in the investigation of tropical marine processes.
The seminars (6hours each) and practicals (7 hours each) address the most wanted skills and support the material delivered in theory modules by focusing on the components biogeochemistry and physiology. Students will acquire many of the fundamental and some specialised practical skills to effectively operate as professional tropical marine biologists.
Biogeochemistry component: Trace gas production
Tropical coastal environments are important sources and sinks for climate-active trace gases including dimethyl sulfide (DMS) and isoprene. Corals and anemones, and their symbiotic dinoflagellate (Symbiodinium sp.) are among the highest producers of the DMS-precursor dimethylsulfoniopropionate (DMSP). This osmolyte can be enzymatically converted to DMS and forms part of a stress-induced anti-oxidant cascade that protects cells from harmful reactive oxygens. You will use gas chromatography to quantify DMS production and consumption patterns in Symbiodinium sp. and its symbiotic host, the anemone Aiptasia pallida. Taken together, this will enable you to construct a budget on the flow of sulfur in symbiotic cnidarians.
Physiology Component: Photophysiology and Impacts of Environment
Macroalgae play a fundamental role in coastal environments around the globe. They sustain high levels of productivity, providing nourishment directly for grazers and indirectly, as particulate and dissolved organic material, for filter feeders, detrital feeders and engulfers. Measurements of algal productivity provide important information as to the rate at which algal biomass (carbon or energy) can accumulate to be available to higher trophic levels as well as the ability of aquatic systems to sequester CO2 from the atmosphere. This practical will introduce you to (1) conventional (O2) and modern (active fluorescence) techniques for assaying physiology and productivity and (2) the effect of elevated CO2 on photosynthesis.
The main aim of the module is to sharpen the skill base in practical research by introducing a range of methodologies that aid in the investigation of tropical marine processes.
By the end of this course you should be able to:
1. Demonstrate an ability to follow science-based methodologies to undertake a research task
2. Count microorganisms using a haemocytometer
3. Explain the basic components used in gas chromatography
4. Employ gas chromatography for the quantification of dimethyl sulphide (DMS) and its precursor dimethylsulfoniopropionate (DMSP)
5. Explain how tropical coastal environments contribute to the production of DMS and discuss its effect on climate
6. Explain the basic principles of active fluorescence-derived measures of marine productivity
7. Analyse data collected by a PAM fluorometer
8. Employ oxygen electrode techniques for measuring marine productivity
9. Discuss the effects of environment and climate change on photosynthesis and primary production
Employability and Transferable Skills
Communicating scientific information
Planning and executing teamwork to set deadlines
The School has a policy which ensures all lecturers opt-in to making lectures available via Listen Again. Therefore, in teaching rooms where the facility is available, lectures will be recorded via this service.
12h seminars, 14h practicals
This module does not appear to have any essential texts. To see non-essential items, please refer to the module's reading list.
Assessment items, weightings and deadlines
Coursework / exam |
Description |
Deadline |
Coursework weighting |
Coursework |
Moodle Quiz (Biogeochemistry) |
12/02/2021 |
10% |
Coursework |
Scientific Report (Biogeochemistry) |
05/03/2021 |
40% |
Coursework |
Moodle Quiz (Physiology) |
16/03/2021 |
10% |
Coursework |
Scientific Report (Physiology) |
27/04/2021 |
40% |
Exam format definitions
- Remote, open book: Your exam will take place remotely via an online learning platform. You may refer to any physical or electronic materials during the exam.
- In-person, open book: Your exam will take place on campus under invigilation. You may refer to any physical materials such as paper study notes or a textbook during the exam. Electronic devices may not be used in the exam.
- In-person, open book (restricted): The exam will take place on campus under invigilation. You may refer only to specific physical materials such as a named textbook during the exam. Permitted materials will be specified by your department. Electronic devices may not be used in the exam.
- In-person, closed book: The exam will take place on campus under invigilation. You may not refer to any physical materials or electronic devices during the exam. There may be times when a paper dictionary,
for example, may be permitted in an otherwise closed book exam. Any exceptions will be specified by your department.
Your department will provide further guidance before your exams.
Overall assessment
Reassessment
Module supervisor and teaching staff
Dr Michael Steinke, email: msteinke@essex.ac.uk.
Prof Tracy Lawson, Dr Michael Steinke
School Graduate Office, email: bsgradtaught (Non essex users should add @essex.ac.uk to create a full email address)
No
No
No
Dr Nicholas Kamenos
University of Glasgow
Reader
Available via Moodle
Of 391 hours, 2 (0.5%) hours available to students:
389 hours not recorded due to service coverage or fault;
0 hours not recorded due to opt-out by lecturer(s).
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