Completed projects and reports
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Sugar Research Australia, Sugar Research Development Corporation and BSES reports from completed research projects and papers.
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Item Increased profitability and water use efficiency through best use of limited water under supplementary irrigation : SRDC Final report CSE001(SRDC, 2005) Inman-Bamber, NGThe objectives of this project towards increased profitability and water use efficiency was to:Item Irrigation risk management strategies to reduce water use and maximize profitability; a paradigm shift in performance to $ per unit of water : Final report CTA038(SRDC, 2003) Inman-Bamber, NGThe Australian sugar industry is predisposed to maximize the benefits of irrigation because of its geographic and climatic location. However mistakes of older irrigation schemes elsewhere in Australia, need to be avoided. Performance criteria such as $ produced per unit of water used 'which have the long term aim of very closely matching plant water use with water applied, will be the single most important factor ensuring longevity of irrigation areas' (Meyer, 1997). Matching plant water use and irrigation, requires knowledge of climatic demand for water, soil water supply, and crop response to water deficits.Item Implementation of irrigation practices for profitable resource efficient sugarcane production in the Ord : Final report CSE007(SRDC, 2006) Inman-Bamber, NGSugarcane is currently the major crop in the Ord River Irrigation Area (ORIA) in terms of area, occupying approximately 4000 hectares or a third of the irrigable area. It is also possible that further expansion could occur soon within the Ord Stage 2 area. The new industry is continuing to develop guidelines for and to initiate implementation of best management practice, to ensure the development of a profitable and sustainable industry. This project contributed to the provision of an extension service which is critical in assisting the industry in this development. Irrigation water application in excess of 30 ML ha-1 yr-1 was common commercial practice when sugarcane production commenced in 1995. High irrigation application not only impacted on profitability but also contributed to rising water tables and land degradation. Consequently this project aimed to build capacity in the community to save water and labour and to reduce rising water tables.Item Pathways to exploiting enhanced photosynthetic efficiency for higher sucrose and biomass yield(2011) Inman-Bamber, NGAustralia has one of the highest commercial cane sugar (CCS) levels in the world but unfortunately CCS appears to have plateaud at about 14% of fresh cane weight over the past 20 years. Up to now in breeding programs, increased fibre has been considered to have negative economic impacts because of adverse effects on sugar extraction and milling rate. It is possible that high fibre genotypes can produce higher biomass yields than high sucrose types because high sucrose content in the stalk may feedback negatively on photosynthesis either through end-product suppression or through sugar signalling compounds. This is now an assumption which is gaining acceptance through recent publications. Prior to this project this assumption had not been tested using high fibre and high sucrose clones. Feedback inhibition is also suspected to be the cause of the ‘reduced growth phenomenon’, a term applied to lower than expected biomass accumulation after a certain stage in crop development. This project aimed to establish the role of cane stalk sucrose in feedback inhibition of photosynthesis in order to reveal existing limitations to increasing sucrose content and biomass yield.Item Efficient use of water resources in sugar production; optimising the use of limited water under supplementary irrigation(2000) Inman-Bamber, NG; Robertson, MJ; Muchow, RC; Wood, AW; Wegener, MK; Spillman, MFAbout 60% of sugar produced in Australia depends on irrigation. In some regions, production would be impossible without irrigation; in others, irrigation is used to supplement rainfall. It can improve production and reduce risks in the more variable rainfall environments. The whole subject of supplementary irrigation has taken on a new focus in recent years as termsof- trade for cane growers continue to deteriorate, and as pressure mounts for more efficient management of a scarce national resource. Best practice with limited water, however, depends on complex biophysical and economic factors as well as sensitive off-site impacts. From a biophysical point of view, questions arise as to the probability of achieving the desired irrigation responses in the various regions and seasons, and the extent to which this is affected by crop water requirements at various stages and by variety and soil type. From a management point of view, the questions concern source of the water, the amounts available, and the best crop type and block on which to apply it. Finally, from an economic point of view, the questions concern the interactions between the above factors and the size of the investment required, the likely price of cane, and the probability of achieving sustained profitability from the investment during its lifetime. The aim of this project, therefore, was to address this complexity by developing and applying a generic methodology for assessing the payoffs of supplementary irrigation, taking account of the above factors.