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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Start date: 2010Subject: search.filters.subject.Soil health

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    Improvement of internal soil drainage and yield on heavy clay soils in the Herbert.
    (2015) Russo, V
    The Herbert consists of large areas of clay soils being approximately 60% of soils being sugarcane farmed within the region. These soils are usually nutritionally fertile; however yield potential is limited due to waterlogging. Surface drainage has been improved through laser levelling throughout the district, however yield potential is not fully realised due to limitations associated with internal soil drainage. The soils are prone to significant nitrogen losses associated with denitrification and anaerobic conditions which limit crop growth when waterlogging does occur. The project investigated biological, mechanical and cultural practices which may increase the productivity of these soils. The project has clearly shown that yields can be increased on heavy clay soils in the Herbert through the use of mill ash as a soil amendment. The use of mill ash has also clearly shown that the product will enhance germination, crop establishment and increase stalk density leading to increases in cane yield on heavy clay soils in the Herbert. Qureshi et.al (2000) highlighted that there was significant environmental benefits for transporting and applying mill by-products further from the mill site, to manage environmental hazards. This project has highlighted both the economic and environmental benefits of using mill by-products more effectively in a farming system. During the duration of the project SnE Plant Hire constructed a GPS zonal mill mud and ash applicator and has modified its fleet of trucks to allow for zonal application of mill by-products; this has been a very positive step in the handling and distribution of mill by-products in the Herbert.
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    SRDC Research Project final report Improved methods of compost generation
    (2012) Walker, B
    This report explores different techniques and management principles and the results of compost production specifically for sugar-cane in tropical agriculture. Our earlier research using the Lubke Methodology developed in Austria for temperate and cold climates and reported on in GGP034 provides a background of basic compost production principles using community and sugar industry organic wastes, tractor drawn turning equipment and Lubke monitoring tools and principles. The Lubke system turns compost once weekly, more often in the first month, when CO2 content of the pile reaches 16%, but many composters claim loss of carbon and nitrogen as high as 50%, with constant turning. Some major USA composters use Static Pile composting principles to reduce turning costs and conserve nutrient losses from turning. The Ecology Action Group in the USA use 40% fresh green feed stocks to improve nutrient content because plants remobilise nutrients before foliage dies and weather continues to reduce minerals in organic mater materials. Dr Fiona Robertson in a CRC research found cane trash left on the surface looses much of its nutrition to the atmosphere as it decomposes. Hawaiian research found losses, through plant nutrient remobilisation of 30 – 50% of N, P, K and B in sugar cane leaf blade before its death. GGP062 reports on our experiences with static pile composting, our first experience of composting sugar-cane bagasse, using selected green feed stocks and a change in brix levels, i.e. greater nutritional content of vegetables grown with compost and liquid calcium, also, trials with producing the nitrogen component on-farm. A brief overview of world population trends at the end of this report implies a need for a change in agricultural practices and results, if we are to feed our population by 2100 AD.
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    SRDC Grower Group innovation project final report Profits through Recycling: Pilot processing of sugar industry and community by-products to improve on-farm sustainability
    (2010) Ross, NJ
    GGP034 set out to establish if cane farmers could produce on farm a percentage of their farm’s nutrient requirement from sugar industry and community wastes at a competitive cost and thus reduce off farm inputs. It was hoped that the development of an appropriate formula for a quality compost might reverse negative aspects of current agricultural practices, especially leaching of nitrates and phosphorus into underground acquifers as established by analysis in the Mackay and Burdekin districts, and assist in the reduction of compaction of soils whilst improving nutrient, oxygen and water retention. If a practical compost formula result could be developed, this practice could prove of significant benefit in protecting the natural pureness of water acquifers with possible follow-on benefits to the Great Barrier Reef and Global Climate Change. The experiment conducted within this project compared compost, compost plus granular and granular treatments as a nutrient source which determined that the plant cane yield and quality was not influenced by the type and rate of applied nutrients. If there has been a real difference in productivity between these treatments, the trial design has not been able to capture it.