Spatial Information Technologies
Major Funded projects

An evaluation of multispectral imagery of dryland crops as an aid to field agronomists

Using airborne video to map winter weeds in emerging crops

Developing a rapid, cost effective method of assessing algal biomass in the riverine environment

Use of airborne digital imaging to assess within-paddock variability in rice production

Mapping blackberry thickets with airborne video data

Determining flow/inundation relationships for the Murrumbidgee River using satellite remote sensing

Monitoring Regional Scale Water Balance & Rice Crop Yield using Remote Sensing

Assessment of Environmental Flows for the Murrumbidgee River

Response of diagnostic bioindicators of river red gum (Eucalyptus camaldulensis) health to changes in flow

Mapping of forest moisture stress using high resolution spectral data

An evaluation of airborne video for mapping moisture stress in the Barmah-Millewa river red gum forest

Scoping study of correlations between chlorophyll fluorescence, spectral reflectance and canopy dieback at Olney State Forest, NSW

Ground calibration of River Red Gum health associated with airborne video imagery

Determining flow/inundation relationships for the Murrumbidgee River using satellite remote sensing

Research Supervisor:
Mr Paul Frazier

Funding:
$4,980 (DLWC)

Duration:
1998-1999

Project Summary:
This project aims to develop a model for predicting wetland inundation on the Murrumbidgee River given a known flow magnitude. Historical satellite data (Landsat and SPOT) will be used to map the areal extent of inundation after know flood events. These data will then be used to create a predictive flow/inundation model.