Land Surface Processes
|Course code CIVL6430||Units 10||Level 6000||Faculty of Engineering and Built EnvironmentSchool of Engineering|
Brings together a general understanding of environmental physics, acquisition and use of environmental data and numerical modelling of transport of particles and nutrients. Students will gain experience with several management tools for addressing environmental degradation, focussing on erosion, salinity, disposal of effluents, and mine site rehabilitation.
Not available in 2014
|Previously offered in 2011, 2010, 2009, 2008, 2007, 2006, 2005, 2004|
|Objectives||1. To give students a broad understanding of the Australian environment, with particular emphasis on the atmospheric environment and soils.|
2. To provide students with knowledge of the theoretical background of land surface transport processes.
3. To ensure that students obtain adequate skills in environmental monitoring (including data collection, storage, retrieval and analysis).
4. To expose students to environmental models of land surface processes and to give them hands-on experience with soil-vegetation-atmosphere transfer models and erosion models.
5. To provide students with a working knowledge of model-based tools for management of major environmental issues, including salinity, disposal of effluents and mine site rehabilitation.
Climate and weather (principles; Australian climates
Soils (physical, chemical, biological characteristics, soil formation, Australian soils)
Environmental modelling (introduction to distributed models; heterogeneity); effective parameters; sub-grid parameterisations; model fitting; scale effects)
Modelling soil-vegetation-atmosphere transfer processes (SVATs)
Soil erosion (principles, comparison of models, applications) (SOILOSS)
Soil fertility and vegetation modelling
|Assumed Knowledge||CIVL2050 Engineering Computations and Probability; CIVL3330 Hydrology; SURV2650 Spatial Data Systems and Remote Sensing.|
|Modes of Delivery||Internal Mode|
|Contact Hours||Lecture: for 3 hour(s) per Week for Full Term|
Tutorial: for 2 hour(s) per Week for Full Term