New water productivity targets for each rice growing valley Kathryn Bechaz1 & John Lacy2 1 Technical Officer, NSW DPI, Yanco; 2 Industry Leader, Rice Farming Systems, NSW DPI, Yanco IN A NUTSHELL z Rice yields, water use and water productivity vary between varieties and rice growing valleys z New water productivity targets have been established for individual valleys based on yield, irrigation water use and rainfall records from Ricecheck since 1999 Using data collected about real rice crops over eight seasons has enabled water productivity targets to be established for each rice growing valley in the southern Murray-Darling Basin. Valley-specific targets provide growers with a more realistic target rather than an industry wide benchmark that has been averaged across many varieties, production environments and regional climates. Since 1999, both irrigation water use and rainfall have been recorded in the Ricecheck database. This has allowed growers to calculate their own specific water productivity results – ie tonnes of rice produced per megalitre of water used for individual crops. Increasing water productivity is important and can be achieved either through higher yields or reducing water use, or both. The industry benchmark for productivity has been quoted as 0.8 t/ML which is not credible because there are yield potential, variety and water use differences between valleys. Therefore new water productivity benchmarks for Amaroo and Langi have been established based on valley yields and water use (irrigation plus rainfall). trends were found when looking at Ricecheck data for Amaroo and Langi. Water use between the valleys also varies depending on the soil type, the amount of rainfall received and the variety. Langi uses approximately 1.0 ML/ha of water less than Amaroo, however is lower yielding by about 0.9 t/ha. It is difficult to determine the industry water use for Amaroo and Langi since the irrigation companies cannot decipher between the varieties grown when determining their average water use for a season. However, the advantage of the Ricecheck database is that more detailed crop information, such as variety, is known. With this in mind, Figures 4 and 5 clearly show that there are water use differences between valleys and varieties. With the expectation that there will be less water available for irrigation, water productivity becomes crucial in allowing growers to remain viable. Growers should either increase their yield per megalitre of water used or decrease their water use per tonne of grain produced. An important consideration with declining water availability is to improve profit per megalitre. Yield and water use variations Differences in yield, variety performance and water use occur between valleys in any one year but also between years because of weather conditions encountered. Low temperatures and drought conditions since 1999 have severely impacted on both yield and water use for all rice growing valleys. The greater yield potential in the Murrumbidgee Valley compared with the Murray Valley is attributed to the higher minimum temperatures in the northern valley. This has generally meant that average industry yields for Amaroo and Langi have been superior in the Murrumbidgee Valley over most years (Figures 2 and 3). Similar 16 Figure 1. New valley-specific water productivity targets provide growers with a more realistic target rather than industry wide benchmarks. Photo: B Clark IREC Farmers’ Newsletter – Large Area No 179: Spring 2008 rice water targets Figure 2. Average industry yields for Amaroo in the CIA, MIA and Murray Valley since 1998. Source: SunRice Figure 3. Average industry yields for Langi in the CIA, MIA and Murray Valley since 1998. Source: SunRice Figure 4. Average Ricecheck water use for Amaroo in the CIA, MIA and Murray Valley since 1998 Figure 5. Average Ricecheck water use for Langi in the CIA, MIA and Murray Valley since 1998 IREC Farmers’ Newsletter – Large Area No 179: Spring 2008 17 rice water targets Figure 6. Average industry water productivity results for Amaroo in the CIA, MIA and Murray Valley since 1998. Source: SunRice and respective irrigation companies for each valley Figure 7. Average industry water productivity results for Langi in the CIA, MIA and Murray Valley since 1998. Source: SunRice and respective irrigation companies for each valley Figure 8. Average Ricecheck water productivity results for Amaroo in the CIA, MIA and Murray Valley since 1998 Figure 9. Average Ricecheck water productivity results for Langi in the CIA, MIA and Murray Valley since 1998 18 IREC Farmers’ Newsletter – Large Area No 179: Spring 2008 rice water targets Table 1. Water productivity targets (t/ML) for Amaroo and Langi by region Variety Target water productivity (t/ML) MIA CIA/EMV WMV Amaroo 0.80 0.75 0.70 Langi 0.75 0.70 0.65 Note: Reiziq water productivity targets follow those of Amaroo Water productivity targets Since it is easily established that there are yield and water use variations amongst varieties and valleys, it is appropriate to have specific water productivity targets for each rice growing valley. Figures 6–9 show the differences in water productivity on an industry basis and from Ricecheck data for Amaroo and Langi in all regions. As a consequence of these differences, new water productivity targets have been produced for Amaroo and Langi. The new water productivity targets are set approximately 10% above the overall average for each valley since 1998 for Amaroo and Langi (Table 1). The Murrumbidgee Irrigation Area (MIA) IREC Farmers’ Newsletter – Large Area No 179: Spring 2008 and the Western Murray Valley (WMV) have separate targets, however the Coleambally Irrigation Area (CIA) and Eastern Murray Valley (EMV) are grouped together. When collating the data it was evident that the CIA and EMV had very similar average figures and hence they have the same water productivity targets. At this stage, water productivity targets have not been evaluated for other varieties, due to the lack of data. However, it is reasonable to assume that Reiziq targets follow those of Amaroo because of their similar growing season, yield and water use. These new targets replace the draft targets in the 2007 Ricecheck Recommendations publication. Hopefully seasonal rainfall will soon return to normal to allow rice growers to benchmark themselves against these new targets. Further information Kathryn Bechaz Technical Officer NSW Department of Industries, Yanco Agricultural Institute T: 02 69 512 623 M: 0409 230 458 E: [email protected] 19
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