Course Title: The Hydrosphere

Part A: Course Overview

Course Title: The Hydrosphere

Credit Points: 12.00


Course Code

Campus

Career

School

Learning Mode

Teaching Period(s)

ENVI1008

City Campus

Undergraduate

135H Applied Sciences

Face-to-Face

Sem 1 2007,
Sem 1 2008,
Sem 1 2009,
Sem 1 2011,
Sem 1 2012,
Sem 1 2013,
Sem 1 2014,
Sem 1 2015,
Sem 1 2016

ENVI1008

City Campus

Undergraduate

171H School of Science

Face-to-Face

Sem 1 2017

Course Coordinator: Dr Peter D Carpenter

Course Coordinator Phone: +61 3 99253372

Course Coordinator Email: peter.carpenter@rmit.edu.au

Course Coordinator Location: Building 3 Level 2 Room 12

Course Coordinator Availability: Email or phone to check availability


Pre-requisite Courses and Assumed Knowledge and Capabilities

You should have gained a first-year level knowledge of basic earth sciences by completing the course ENVI1146 The Changing Environment or equivalent studies.

 You may be able to demonstrate that you already have the skills and knowledge gained in The Hydrosphere. Contact the course coordinator if you think you may be eligible for recognition of prior learning. For further information go to Recognition of prior learning (RPL) in Higher Education

 


Course Description

This course covers the principles and mechanisms whereby water cycles through and interacts with the atmosphere, lithosphere, hydrosphere and biosphere. Field work provides skills in in-situ measurement of water quality parameters and sampling in rivers, estuaries, wetlands and groundwaters; and first-hand knowledge of our local water supply systems.

 Topics covered typically include:

 Universal Water – formation of water, isotopic fractionation, distribution in the universe, our solar system and on Earth. Global water cycle compartments and the concept of residence time. Common water quality parameters.

 Rivers – Catchments, river structure, channels, riparian zones. Sources of water, discharge, ratings curves and hydrographs. Flow profiles and principle of continuity. Pool and riffle zones, mass transport, global averages and periodic trends.

 Groundwater – surface infiltration, percolation, unsaturated and saturated zones, porosity and permeability, water table. Groundwater flow, Darcy’s Law, potentiometric surface. Aquifer types, recharge, discharge, depletion, saline intrusion.

 Estuaries & Wetlands – Estuarine types, stratification and mixing, indexes of mixing, conservative and non-conservative solutes. Wetlands – types: natural and constructed, physical, chemical and biological processes.

 Lakes & Reservoirs – lake basins, nutrient status and life cycle.

Water sources and water composition; residence time calculations for lake waters; thermal stratification, turnover and inverse stratification, thermal classifications; chemical stratification; water circulation; difficulties in obtaining representative lake water samples.

 Water Supply – protected and unprotected catchments, collection and distribution system, surface water potabilisation; desalination.

 The Ocean – Seawater composition and uniformity; salinity, surface variability; temperature, thermocline, halocline and pycnocline; properties of water bodies (masses). Surface currents, gyres, convergence and divergence, upwelling and downwelling; thermohaline circulation. Arctic Ocean circulation and vertical stratification; Southern Ocean and Antarctica; equatorial and Australian currents.

 


Objectives/Learning Outcomes/Capability Development

This course contributes to the development of the following Program Learning Outcomes at AQF level 7:

  • PLO-1   Understanding science. Demonstrate a coherent understanding of environmental science.
  • PLO-2   Scientific knowledge. Exhibit depth and breadth of environmental science knowledge.
  • PLO-3   Inquiry and problem solving. Critically analyse and solve problems in environmental science.
  • PLO-4   Communication. Be an effective communicator of environmental sciences.
  • PLO-5   Personal and professional responsibility. Be accountable for individual learning and scientific work in environmental science

 


.On successful completion of this course you should be able to:

  1. demonstrate a broad and coherent knowledge and understanding of the hydrosphere;
  2. gather, synthesize and critically evaluate information from a range of sources;
  3. collect, record, interpret and draw conclusions from scientific data;
  4. communicate effectively results, information or arguments on the hydrosphere, in writing;
  5. be an independent and self-directed learner
  6. work effectively, responsibly, ethically and safely in an individual or team context.

 


Overview of Learning Activities

This course offers you the following learning opportunities:

  • lectorials where syllabus material will be presented, explained and illustrated with examples;
  • participation in field work;
  • briefing and debriefing sessions for fieldwork which develop an integrated understanding of the subject matter;
  • completion of on-line tests and written structured field reports
  • private study, working through the coursework and other learning materials and gaining practice at solving conceptual and numerical problems.

These activities will help enhance your employability by further developing your knowledge and skill sets, teamwork, oral and written communication and independent learning skills.

Total Study Hours

RMIT stipulates that your total workload for a 12cp course should be 120 hours (Course Design Procedure, Section 3.2).

This course is typically 4hr/week for lectorials, briefing and debriefing sessions and fieldwork (which is concentrated into six activities).

You should devote the remaining time (up to 6hr/week) to private study, including exam preparation and completion of on-line tests and field reports.

 

 


Overview of Learning Resources

The course Blackboard site will give you easy access to learning materials such as theory notes, field trip details, briefing and debriefing notes and other resources, assessment task details and electronic submission folders.

The library has a subject guide for Environmental Science.

There is no textbook for this course. You may find that introductory texbooks on physical hydrology and on oceanography useful.

 


Overview of Assessment

Note:

All hurdle requirements for this course are indicated clearly in the assessment regime that follows, against the relevant assessment task(s) and all have been approved by the College Deputy Pro Vice-Chancellor (Leaning & Teaching).

Assessment for this course consists of:

Field Work - including assignment, reports and tests (50%), which assess CLOs 2, 3, 4, 5 & 6. For OHS and professional practice reasons, field work has an assessment hurdle:

Assessment Hurdle: You must achieve a minimum of 25% out of the 50% allocated to the fieldwork in order to pass this course.

Quantitative Test (10%) which assess CLOs 1, 2 & 5.

An end of semester examination (40%), which assess CLOs 1, 2, 4 & 5.