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Research project

Lean Leaders Program

This investment provides the opportunity for turf levy payers to participate in the Moshie National Lean Leaders program. The program …

Funded by
Hort Innovation
Project date
23 Jun 2022 -
1 Dec 2024
Research organisation
Moshie Pty Ltd

Fruits

Research project

Quality Improvements in the Melon Supply Chain

This investment is developing minimum quality standards for seedless watermelon, rockmelon and honeydew melon to improve consumer acceptance of Australian …

Funded by
Hort Innovation
Project date
23 Jun 2022 -
1 Dec 2023
Research organisation
Delytics

Multiple industries

Aquaculture technology

Research project

Aquatic Animal Health and Biosecurity Coordination Program: strategic planning, project management and adoption

The Aquatic Animal Health and Biosecurity Coordination Program (AAHBRCP) provides several benefits. Firstly, it coordinates the identification and prioritization of …

Funded by
Fisheries Research and Development Corporation (FRDC)
Project date
23 Jun 2022 -
31 May 2026
Research organisation
Commonwealth Scientific and Industrial Research Organisation (CSIRO)

Fruits

Multiple technology areas

Research project

Opportunities to improve labour use efficiency through automation and improved management practices

This investment is identifying opportunities to improve labour use efficiency in the rubus industry through automation and improved management practices. …

Funded by
Hort Innovation
Project date
22 Jun 2022 -
4 Jul 2023
Research organisation
The Growth Drivers

Fruits

Input management

Research project

Growing robust avocados

This project is increasing the quality of Australian avocado production by supporting the industry to grow robust produce through targeting …

Funded by
Hort Innovation
Project date
20 Jun 2022 -
8 Jan 2025
Research organisation
Queensland Department of Agriculture and Fisheries (QDAF)

Other rural industries

Imagery

Research project

Australian Industrial Hemp (Cannabis sativa) agronomic scoping studies

The Australian industrial hemp industry, which currently is focused predominantly on the use of fibre and seed, is …

Funded by
AgriFutures Australia
Project date
20 Jun 2022 -
10 Mar 2023
Research organisation
Growfield Agricultural Consultancy

Wine

Research project

Improving viticulture and oenology practice through extension and communication

The Australian wine sector operates in a dynamic and competitive environment, both domestically and overseas. It is critical that stakeholders have up-to-date information to ensure that their contributions to the sector reflect best practices and their businesses are sustainable, efficient and competitive.

Funded by
Wine Australia
Project date
17 Jun 2022 -
30 Jun 2026
Research organisation
The Australian Wine Research Institute (AWRI)

Wine

Multiple technology areas

Research project

Volatile compound insights: Flavour attributes of current and future commercial significance to growers and winemakers

Understanding the formation and fate of key volatile compounds is a core capability that requires continuation in our sector, as these compounds provide researchers and producers with quality targets for improvements in vineyard and winemaking practices. Volatiles contribute specific varietal and regional characters and contribute greatly to the overall in-mouth sensory experience. The volatiles of wine can be the mark of its quality for a consumer when drinking or the basis of its rejection and are influenced at every stage of handling or processing. At the core of an innovative sector is the ability to understand and measure key volatiles, while developing practices to influence or control flavours associated with wine quality and style.

Funded by
Wine Australia
Project date
17 Jun 2022 -
30 Jun 2026
Research organisation
The Australian Wine Research Institute (AWRI)

Wine

Plant science

Research project

Genetic diversity of Australian wine grapevine germplasm

Grapevine planting material represents a major investment and critical production asset for the Australian wine industry, but the genetic diversity that is present in Australia is poorly understood. Furthermore, while grapevine cultivars can be unequivocally typed by ampelography and/or genetic tests, clonal identification solely relies on the tracing of supply records to the point of origin. Such records are not always available or reliable, particularly for older accessions. Whole genome sequencing (WGS) provides the most highly detailed methodology for defining grapevine cultivars and more importantly, clones of those cultivars.

Funded by
Wine Australia
Project date
17 Jun 2022 -
30 Jun 2024
Research organisation
The Australian Wine Research Institute (AWRI)

Wine

Plant science

Research project

Fermentation management through optimal microbial consortia

An ideal fermentation for wine is short, typically lasting no longer than a week. When fermentations become protracted, the delays can have a direct effect on the scheduling of winery operations. Worst-case scenarios may see residual sugar concentrations failing to meet production specifications, resulting in time-consuming and potentially expensive remediation actions. Fermentation management is complicated by the different types of fermentation employed (alcoholic and malolatic), the mode of those fermentations (concurrent or sequential, inoculated or not), the styles of wine being made (red or white, cellar bright juice or high solids) and the composition of the fermentation substrate (high YAN or high sugar) to name a few. These choices have the potential to shape fermentation outcomes and can lead to unpredictability in both the overall duration and completeness of fermentation.

Funded by
Wine Australia
Project date
17 Jun 2022 -
30 Jun 2026
Research organisation
The Australian Wine Research Institute (AWRI)

Wine

Food processing technology

Research project

Addressing production challenges through the management of wine non-volatiles

Non-volatile compounds such as anthocyanins, tannins, polysaccharides, proteins, amino acides and organic acids are present in wine at high concentrations relative to other components. Adequate extraction and retention of non-volatile compounds are critical to wine quality (colour, texture). However, due to both their larger size and tendency to interact, non-volatile compounds cause problems in wine processing, like haze formation, precipitation, crystallisation and adsorption.

Funded by
Wine Australia
Project date
17 Jun 2022 -
30 Jun 2026
Research organisation
The Australian Wine Research Institute (AWRI)

Wine

Plant science

Research project

Wine components and interactions influencing the in-mouth sensory properties of Australian wine

The primary tastes of sweet, salty, sour, bitter and savoury (umami) are well defined and understood to direct our food choices. Overt bitterness in wine is generally considered acceptable and it is important to identify and learn to control bitterants in wine. Savoury characters in wine, although commonly reported in tastings are virtually unstudied. Sweet taste, even at low level, can strongly drive consumer preferences of beverages. Although wine sweetness is often ascribed to residual sugar it does not explain the sensation often described by winemakers as 'fruit-sweetness', which appears in 'dry' red wines. Beyond these basic tastes, there are the mouth-feel sensations, such as astringency, fullness (body) and viscosity, which together elicit the more complex experience of wine texture.

Funded by
Wine Australia
Project date
17 Jun 2022 -
30 Jun 2026
Research organisation
The Australian Wine Research Institute (AWRI)

Wine

Plant science

Research project

Transformative microbiological inputs for innovative winemaking

Wine is the ultimate culmination of a plethora of complex biological processes. Accordingly, most inputs (even when excluding grape must) are biologically based and include commercial yeasts, bacteria and enzymes used in processing. Classically, the development of improved biological inputs has resolved around phenotypic selection, in which organisms with improved characteristics are specifically chosen for further use or as a breeding stock. As selection relies on genetic variation, mutagenesis is often used to increase the pool of variation available. However, standard mutagenesis/selection is a random process, in which isolates with the required alteration must be identified from a background of thousands of strains. Classical strain development is therefore resource intensive, which ultimately limits the scope of research that can be undertaken.

Funded by
Wine Australia
Project date
17 Jun 2022 -
30 Jun 2026
Research organisation
The Australian Wine Research Institute (AWRI)

Multiple industries

Animal technology

Research project

Informed Modeling of Blowfly Chemical Resistance

Outcomes from the analysis of the genetic characteristics of resistant blowfly phenotype and fitness values and the genes and mutations identified by UoM will be shared with UTAS. NSW DPI will also provide up to date resistance information, in the form of calculated resistance factors for field blowfly populations to the listed insecticides, the associated insecticide usage and flystrike management information (if available) to UTAS. These will inform evidence-based enhancements of UTAS’s Resistance Model, with review from UQ.

Funded by
Australian Wool Innovation (AWI)
Project date
16 Jun 2022 -
30 Jun 2024
Research organisations
New South Wales Department of Primary Industries (NSW DPI), The University of Melbourne, The University of Queensland (UQ), The University of Tasmania (UTAS)

Aquaculture

Research project

Seaweed Policy Review

Australian Seaweed Institute recently completed the Australian Seaweed Industry Blueprint Implementation project, funded by AgriFutures, which included a workstream to …

Funded by
AgriFutures Australia
Project date
16 Jun 2022 -
12 Feb 2023
Research organisation
Australian Seaweed Institute Pty Ltd

Nuts

Input management

Research project

Optimising almond production systems

This project is building confidence in the almond industry by improving the efficiency of production through transitioning to higher density …

Funded by
Hort Innovation
Project date
14 Jun 2022 -
18 Dec 2026
Research organisation
South Australian Research and Development Institute (SARDI)

Multiple industries

Aquaculture technology

Research project

Artificial Reefs: Suitability of recycled materials for integration into purpose built artificial reefs for enhancing marine productivity, biodiversity and social outcomes

The project on recycled materials in artificial reefs aims to maximize marine benefits by exploring use of alternative materials. It …

Funded by
Fisheries Research and Development Corporation (FRDC)
Project date
14 Jun 2022 -
14 Feb 2024
Research organisation
Recfishwest

Multiple technology areas

Research project

Nutritional Qualities of Black Soldier Fly Larvae

As the global population continues to grow towards a predicted 9.5 billion by 2050, a critical shortage of animal proteins is increasingly …

Funded by
AgriFutures Australia
Project date
12 Jun 2022 -
2 Jul 2023
Research organisation
Western Sydney University (WSU)

Multiple industries

Data and AI

Research project

Embedding animal disease reporting and benchmarking into Future Feedback

This project focuses on further developing the necessary structures, systems and resources to embed disease and defect reporting that is linked to carcase performance within Future Feedback to provide for robust benchmark reporting.

Funded by
Meat and Livestock Australia (MLA)
Project date
10 Jun 2022 -
15 Dec 2023
Research organisation
Herd Health Pty Ltd

Multiple industries

Research project

Forewarned is Forearmed: Videos demonstrating use of extreme climate forecasts for northern Australia

Four short videos will be professionally produced to demonstrate the 'Forewarned is Forearmed' products and their use in decision making and risk mitigation within the red-meat, sugar, grains and cotton industries. This is part of the Rural R&D for Profit project 'Forewarned is Forearmed'.

Funded by
Meat and Livestock Australia (MLA)
Project date
10 Jun 2022 -
16 Jun 2023
Research organisation
University of Southern Queensland (USQ)

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