Expected future horticultural demands for water

16Expected future horticultural demands for water

In 1995/96, pears were the Goulburn Broken region’s main pome fruit, but declining market demand for pears and comparatively higher prices for other crops meant plantings were not replaced and production steadily declined. As pear production declined, apple production increased by 58% between from 1995/96 to 2012/13 when the Goulburn Broken region accounted for 70% of the value of Victorian apple production and 96 per cent of the value of Victorian pear production Victorian stone fruit production grew strongly between 1995/96 and 2005/06, but production declined by 21% for nectarines and 39% for peaches between 2005/06 and 2012/13 due to shortages in water allocations, drought, hail and frost, coupled with shrinking margins and reduced market demand for stone fruit, particularly for processing and canning. The Goulburn Broken region accounted for 55% and the North Central region 13% of the value of Victorian peach production (DEDTJR, 2014).

Revenue from fruit growing in the Goulburn Valley has increased over time although production volumes have reduced. For example, Goulburn Valley growers have planted trees at a faster rate due to the increase in density of plantings, and value of production increased by 120% from 2001 to 2011, which is faster than the rest of Victoria or Australia (APCG, 2013, cited by RMCG, 2013).

Nut tree plantings in the Victorian Mallee went from 1,900 ha in 1997 to 20,900 in 2015. By contrast grapevines went from 20,500 ha in 1997 to a peak of 25,600 in 2006 (shortly before the Basin Plan commenced) before declining, as a result of low wine prices, low water availability and high water prices, to 20,500 ha in 2015. Those same factors resulted in a vacant land peak of 20% in 2009 (Argus, 2016).

The grapevine story is better understood as a decline in dried grape plantings from 6,300 ha in 1997 to 3,000 ha in 2015, an increase in table grape plantings from 4,100 ha to 7,300 ha in the same period and an oscillation in wine grape plantings from 9,900 ha in 1997, through 15,600 ha in 2006 returning to 10,100 ha in 2015 (Argus, 2016). In effect, table grapes have replaced dried grapes, while the post 1997 increase in wine grape plantings has been reversed.

It is important to note that total water use per hectare for grapevines varies markedly with varieties and production systems. Many varieties of red wine grapes, in particular, were produced with small canopies with total irrigation requirements around 5 ML/ha. Traditional dried vine fruit production involved volumes up to 9 ML/ha while many table grape varieties are grown with large canopies with irrigation requirements in the order of 12 to 15 ML/ha. Almonds are being developed in growing systems using more than 14 ML/ha. Consequently, while the area of irrigated horticulture has grown significantly, irrigation intensity, in terms of ML/ha, has grown even more significantly since 1997.

In Table we multiply the area for each horticultural crop (Argus, 2016) by the maximum irrigation application rates outlined in DSE (2007), to arrive at total annual average horticultural irrigation demands in the Victorian Mallee of 587.4 GL. Applying the same approach to crop area data for South Australia, the Lower Darling and the NSW Murray (MDBA, 2015b) we arrive at a total there of 548.9 GL (workings available on request from Tim.Cummins@bigpond.com). As shown in Table , when we combine this with RMCG’s (2016) estimate for average annual water use by horticulture in the GMID and the data recorded for Murrumbidgee horticulture in Chapter 8, we arrive at a grand total for average horticultural demand of 1,393.3 GL.

Using a different approach, RMCG (2016) arrive at a total of 1400 GL. Our figures therefore help to triangulate theirs.

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