Soil health and nutrient management

Permanent URI for this collectionhttp://elibrary2.sugarresearch.com.au/handle/11079/13842

Research outcomes: Soil health is improved with a resulting positive impact on the environment and yield growth. Improved reputation and relationship between industry and environmental groups.

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1994 - 199912010 - 20191

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Subject: search.filters.subject.Potassium

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    Effect of long-term application of potassium on sugarcane and soil properties in the Herbert River district : ASSCT peer-reviewed paper
    (ASSCT, 2019) Park, G; Schroeder, BL; Wood, AW; Skocaj, DM
    Excess potassium (K) fertiliser use can have a significant effect on sugar quality and refining costs but offers no benefit to sugarcane crop yield. Potassium fertiliser guidelines are based on soil texture and two measures of soil potassium: readily available or exchangeable K and reserve K. The maximum recommended K rate for the Herbert is 120 kg/ha. A long-term K trial was established on a sandy loam soil at Macknade. High K application rates increased soil exchangeable K levels and resulted in luxury K consumption by the sugarcane plant. This significantly increased juice conductivity and third-leaf K levels. It also resulted in significant reductions in third-leaf values for Ca and Mg.
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    The physiological and growth response of sugarcane to the sodium absorption ratio in flowing solution sand culture
    (1994) Crema, AT
    The growth of sugarcane variety Q117 in sand culture using nutrient solutions with sodium absorption ratios of 0, 5, 10, 15, 20 and 30, each with a constant electrical conductivity of 1.5 dS/m was determined under glasshouse conditions. Increasing the SAR of nutrient solutions from 0 to 30 while holding EC and ionic strength constant, was found to have no significant effect on sugarcane grown in coarse sand for 12 weeks. Thus, sugarcane growth was not inhibited by Na+ concentrations up to 12 mM when Ca2+ and mg2+ were each present at 76uM. It can be tentatively concluded from these results that increasing levels of sodium, in the absence of high levels of soluble salts are not toxic to the variety Q117, as long as other major cations are present at concentrations uninhibitative to plant growth. The major growth effect on sugarcane of sodic soils occurs as a result of the physical limitations associated with soil structure deterioration.