Long lead rainfall forecasts for the Australian sugar industry
Journal Publication ResearchOnline@JCUAbstract
Rainfall variability is a crucial element that impinges on the success of sugarcane growing regions around the world. As the scientific community and industry personnel gain more experience at working participatively, the ability of long-range rainfall forecasts to reduce the risk and uncertainty associated with decisions impacted by rainfall variability has become increasingly recognized. Some important decisions, however, require knowing the chances of rain at early lead times that span the austral autumn period. These types of decisions remain largely unassisted by climate forecasting technologies owing to the boreal spring (austral autumn) persistence barrier. Taking the Australian sugar industry as a case study example, this article explores the capability of a long lead statistical El Niño Southern Oscillation phenomenon (ENSO) prediction model to reduce the risk associated with decisions that must be made before autumn and are effected by rainfall anomalies post-autumn. Results shown across all regions considered in this study indicated a higher risk of obtaining an above-median rainfall index when the statistical model predicted La Niña type conditions to emerge post-spring. For selected regions, this risk was reduced when the model predicted El Niño type conditions for the same period. In addition, the model would have provided an earlier indication of the likelihood of disruption due to wet harvest conditions in a year that devastated the Australian sugar industry. This benchmark study has highlighted the potential of an ENSO prediction model to aid industry decisions that have previously been made in isolation of probabilistic knowledge about future rainfall conditions.
Journal
International Journal of Climatology
Publication Name
N/A
Volume
28
ISBN/ISSN
1097-0088
Edition
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Issue
1
Pages Count
7
Location
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Publisher
Wiley-Blackwell
Publisher Url
N/A
Publisher Location
Chichester, United Kingdom
Publish Date
N/A
Url
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Date
N/A
EISSN
N/A
DOI
10.1002/joc.1513