The economic impact of water reductions during the Millennium Drought in the Murray-Darling Basin
2012
The recent drought saw the lowest inflows on record in the Murray-Darling Basin in 2006. Water use by irrigation in 2007-8 and 2008-9 was about one third that of pre-drought levels. Understanding how irrigation adapted to less water is key both to provide information to help plan for the future and data for model calibration. Complicating this objective was the concurrent international food price crisis of 2008 and an increase in water trading in the basin. This presents a challenge in unpacking the effects of commodity price changes, input substitution, productivity gains and water trading from the effect of reduced water availability. In this paper we seek Our objective is to unpack the various effects. We used publicly available price and production data to calculate a price index and adjust gross value data in actual dollars using this index; some price and volume data are not available, so the adjustment is approximate for total irrigation. We calculated productivity both in terms of output volumes per unit of water and in terms of adjusted gross value per unit of water. In 2007-8 and 2008-9, overall water use in irrigation was down to about 31 % and 33 % respectively of the 2000-01 value. In 2008-9, the gross value of irrigated agricultural production was down to 86 % in unadjusted terms, but 80 % in commodity price adjusted terms. The gross value (adjusted) per unit of water more than doubled (at 241 %). The aggregated data obscure the variation of water use in different industries. Water use by cereals, grapes and fruit and nuts changed little. Rice, cotton, meat (pasture) and dairy all reduced their water use substantially (to as little as 1 % of the 2000-1 value in the case of rice in 2007-8). Dairy, cereals, rice and meat all experienced significant price rises in 2007-8, whereas prices of cotton and grapes fell. In cereals, the higher prices and the modest change to water use resulted in a large increase (to 187 %) in gross value; some of this was due to higher prices, the remainder to productivity gains. Cereal production increased in the north of the MDB and fell in the south; we speculate that cotton growers swapped to winter cereals, whereas rice growers did not. For rice, which is a high water use crop, the price rise was insufficient to outweigh the decline in water availability, and production fell. All industries show increases in productivity by value or by volume per unit of water. The greatest increase was in dairy: dairy farmers adapted to water scarcity and high water prices by substituting bought-in feed for irrigated pasture. Water trading increased after 2006; importantly, inter-regional trade increased greatly, from a few tens of gigalitres (GL) per year before 2006 to more than 500 GL/yr in 2008-9. The source of traded water was from the Murrumbidgee and to a lesser extent Murray NSW; buying regions were South Australia and to a lesser extent Murray Victoria. Much of this trade was away from rice and dairy and towards horticulture. Trade thus offset some of the impact of reductions in water availability, buffering South Australia and the Victorian Lower Murray from very low allocations.
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