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Modelling hydrological change due to wildfires
D. Partington
, M. Thyer
, M. Shanafield
, D. McInerney
, S. Westra
, H. R. Maier
, C. T. Simmons
, B. F.W. Croke
, A. J. Jakeman
,
H. V. Gupta
, D. Kavetski
Hydrology and Atmospheric Science
Global Change - GIDP
Remote Sensing / Spatial Analysis - GIDP
Research output
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Chapter in Book/Report/Conference proceeding
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Keyphrases
Hydrological Change
100%
Wildfire
100%
Water Resources
22%
Water Quality
22%
Streamflow
22%
Dominant Processes
22%
Water Resources Planning
22%
Physically Based Model
22%
Hybrid Method
11%
Scale Change
11%
Conceptual Model
11%
Physically-based
11%
Extended Period
11%
Levels of Abstraction
11%
Regrowth
11%
Ecohydrology
11%
Water Allocation
11%
Baseflow
11%
Historical Records
11%
Reduced Order Model
11%
Spatiotemporal Scales
11%
Flood Risk
11%
Warm Climate
11%
Planning Scenarios
11%
Computational Cost
11%
Change Assessment
11%
Catchment Scale
11%
Local Change
11%
Recovery Phase
11%
Dry Climate
11%
Computationally Efficient
11%
Hydroclimate
11%
Historical Analysis
11%
Computational Requirements
11%
Reservoir Operation
11%
Prefire
11%
Fire Effects
11%
Perceived Ability
11%
Fire-induced
11%
Fire Spread
11%
Hydrological Impacts
11%
Data Cost
11%
Water Planning
11%
Vegetation Recovery
11%
Hybrid Modeling
11%
Implicit-explicit Methods
11%
Process Representation
11%
Critical Water
11%
Hydrological Functioning
11%
Hydrological Disturbance
11%
Wildfire Impacts
11%
Earth and Planetary Sciences
Vegetation
100%
Water Resource
100%
Hydrological Change
100%
Streamflow
50%
Smoke
25%
Regrowth
25%
Base Flow
25%