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Climate Futures for Tasmania:

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Title: Climate Futures for Tasmania:

1
Climate Futures for Tasmania Prospects, Impacts
and Information for Adaption Options Nathan
Bindoff et al. ACE CRC, DPIW, Hydro
Tasmania,SES,BoM, GA, TIAR, TPAC, CSIRO MAR
2
Introduction

The Players
Key user questions
Research Activities
Downscaling and global signals
Tasmanian context
Research outcome and outputs
Resources

3
Key User QuestionsClimate Change

Water policy and legislation
Water management and infrastructure
Power Generation
Reservoirs, winds
Power Distribution (heat waves)
Emergency planning
Bushfires, floods
Protection of high value assets
From tourism
Impacts on power and water
dependent industry
Agriculture
Crops, wine, other horticulture, disease
Sea level surges
(from wind changes)

4
The Players
5
Research Modules

Research activities
Fine scale climate projections
Modelling water flows and reservoirs
Key climate variables
Planning, agriculture,
utility sectors and environment
Extreme events
Changes in occurrence
Consequence of change
Eg drought, flood, frosts, heat waves
Storms/winds

6
Fine Scale Climate Projections

What is downscaling
CCAM Cubic Conformal Atmosphere Model
CSIRO MAR (John McGregor)
Validation phase
IPCC models are used
Interpolation of pre-existing IPCC scenarios

7
Climate models, and climate model credibility
Observations 1980-2000
Mean Model 1980-2000
8
Projections of Future Changes in Climate
Best estimate for low scenario (B1) is 1.8C
(likely range is 1.1C to 2.9C), and for high
scenario (A1FI) is 4.0C (likely range is 2.4C
to 6.4C). Broadly consistent with span quoted
for SRES in TAR, but not directly comparable
9
Projections of Future Changes in Climate
Tasmania

Precipitation increases are very likely in high
latitudes in 2090-2099
Decreases are likely in most subtropical land
regions in 2090-2099

Figure SPM-6, TS-30, 10.9
10
Example from South West Australia
11
Drought is increasing most places
The most important spatial pattern (top) of the
monthly Palmer Drought Severity Index (PDSI) for
1900 to 2002. The time series (below) accounts
for most of the trend in PDSI.
12
Tasmania Water Catchment Models
AWBM
Assumption no change in land use
Assumption no change in land use
13
Example Hydro Tasmania Inflow Prediction
Most important lake

Factor of 1.0 represents no change in inflows
Factors lt1.0 represents drying
Factors gt1.0 represents wetter
Great Lake factors well below 1.0 and thus drying
predicted
Others have drier Summers/Autumns and wetter
Winters

14
Key Outputs

Outputs
Assessments of climate conditions to 2100
Reports on future projections
Estimates of uncertainties, and mean projections
Input to operational models (Hydro, DPIW, TIAR)
Model outputs more generally.
Communication
Engagement from start, users and researchers
Liason officer
Governance model

15
Resources

5 new postdoctoral fellows, 1 liason officer,
project management team
Engagement of skills and expertise from the
consortia members, including Tasmanian State
Departments and business enterprises
8 million over three years (cash inkind)
Data Management (TPAC Digital Library)
Potential Collaborations
CERF funded projects
Other initiatives (eg SEACI).

16
Calibration
17
Projections of Future Changes in Climate
Low Emissions
High Emissions

Spatial patterns greater warming over land,
greater warming at high latitudes
Albedo changes in high latitudes, less snow and
sea-ice.

Figure SPM-5,TS-28, 10.8, 10.28
18
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19
Scenarios for Extremes- frost, heat waves, growth
20
National Action Plan (NAP) Region
14 surface water hydrological models were
developed.