| #1 |
Evaluating hyperspectral sensing for the rapid detection of smoke taint in grapes |
Kerry Wilkinson, University of Adelaide |
#2 |
Discrimination of healthy and B. cinerea-infected grapes using untargeted metabolomic analysis with direct mass spectrometry |
Leigh Schmidtke, Charles Sturt University |
#3 |
Evaluating the Potential for Smoke from Prescribed Burning to Taint Grapes |
Song Yan, University of Adelaide |
#4 |
Benefits of collaborative trials: producers’ experiences |
Katherine Evans, University of Tasmania |
#5 |
Can Smoke-Derived Volatile Phenols be Translocated from Leaves to Grapes? |
Tingting Shi, University of Adelaide |
#7 |
Wine Industry Smoke Detectors (WISDs) Predict Smoke Taint Risk for the Australian Wine Industry during Bushfires |
Ian Porter, La Trobe University |
#8 |
A homoclime approach to vineyard establishment in Tasmania’s Tamar Valley |
Ursula Kennedy, University of Southern Queensland |
#9 |
Alteration of pruning time to manage fruit composition in a warming climate |
Ursula Kennedy, University of Southern Queensland |
#10 |
ASSESSING THE DROUGHT TOLERANCE OF SELECTED GRAPEVINE SCION CULTIVARS UNDER DRYLAND CONDITIONS IN THE SWARTLAND REGION OF SOUTH AFRICA |
Carolyn Howell, Agricultural Research Council |
#11 |
Bacterial Inflorescence Rot in Grapevines: Threats and Future Directions |
Andrea Roberts-Davison, Melbourne Polytechnic |
#12 |
Partially replacing synthetic N fertiliser with under vine legumes |
Pippa French, Tasmanian Institute of Agriculture |
#13 |
Combined soil Coring modelling approach demonstrates grapevine rooting patterns varies significantly as a result of contrasting ground management and growing environment in cover cropped vineyards. |
Calvin Wong, Gubali Institute, Charles Sturt University |
#14 |
Bayesian‐Network Insights for Sustainable Viticulture in Australia |
Bryce Boyd, Queensland University of technology |
#15 |
The status of fungicide resistance in Australian vineyards |
Ismail Ismail, South Australian Research and Development Institute |
#16 |
Development the new method to detect the fungicide resistance using aseptically cultured plants |
Takuro Iwaya, Kirin |
#17 |
Dispersal of Eutypa dieback pathogen spores from an infected vineyard |
Tarita Furlan, South Australian Research and Development Institute |
#18 |
Early detection of grey mould infection by Botrytis cinerea via a simple “RAT test” |
Aude Gourieroux, Charles Sturt University |
#19 |
Vineyard management practices: effects on winegrape composition |
Wendy Cameron, University of Melbourne |
#20 |
Vineyard management practices: effects on winegrape yield components |
Wendy Cameron, University of Melbourne |
#21 |
Evaluating Pinot Noir clones in the context of Western Australia |
Richard Fennessy, Department of Primary Industries and Regional Development |
#22 |
Exploring the grapevine defence mechanisms against Shiraz Disease |
Cristobal Onetto, AWRI |
#23 |
From SOIL – VINE – BERRY: δ¹³C and δ¹⁵N show biochar improves vineyard water and nitrogen use efficiency in Southeast Queensland |
Kate Kingston, Griffith University |
#24 |
Fungicide resistance screening of a Botrytis cinerea population from Australian vineyards |
Ismail Ismail, South Australian Research and Development Institute |
#25 |
Geology, soils and climate of Western Australia’s wine regions |
Richard Fennessy, Department of Primary Industries and Regional Development |
#26 |
Grapevine clonal genetic testing |
Chris Ward, AWRI |
#27 |
Grapevine trunk disease spore dispersal patterns in three geographically diverse regions of Australia |
Jared Hrycan, Charles Sturt University |
#28 |
Indigenous Grapevines as a Novel Source of Bio-pesticides for Viticulture |
Erik Baker, University of Newcastle |
#29 |
Indigenous Grapevines as a Novel Source of Bio-pesticides for Viticulture |
Erik Baker, University of Newcastle |
#30 |
Grazing sheep in NSW vineyards |
Penny Flannery, NSW DPIRD |
#31 |
Modelling Vineyard Yield |
Paul Petrie, South Australian Research and Development Institute |
#32 |
Monitoring trunk disease pathogen spore deposits on grapevine pruning wounds |
Tarita Furlan, South Australian Research and Development Institute |
#33 |
Nitrogen Use Efficiency (NUE) in cool climate vineyards |
Harriet Walker, Tasmanian Institute of Agriculture |
#34 |
Performance of Cabernet Sauvignon clones in Margaret River |
Richard Fennessy, Department of Primary Industries and Regional Development |
#35 |
RESPONSE OF VITIS VINIFERA L. CV. TO IRRIGATION STRATEGY AND TRELLIS SYSTEM IN THE BREEDE RIVER VALLEY REGION (SOUTH AFRICA): VEGETATIVE GROWTH, YIELD AND WINE QUALITY |
Carolyn Howell, Agricultural Research Council |
#36 |
Source to table: Isotope analysis in irrigated vineyards |
Ellyse Bunney, CSIRO |
#37 |
Techniques for resting vineyards |
Paul Petrie, South Australian Research and Development Institute |
#38 |
The effect of compost addition on soil fertility and grapevine performance |
Sylvana Iacuone, Melbourne Polytechnic |
#39 |
Airborne detection of grapevine fungicide resistance |
Isamil Isamil, South Australian Research and Development Institute |
#40 |
Understanding the risk of spring shoot thinning on grapevine trunk disease |
Tarita Furlan, South Australian Research and Development Institute |
#41 |
Untargeted genetic identification of grapevine pests and their predators |
Chris Ward, AWRI |
#42 |
Vineyard Irrigation with Brackish Groundwater Water |
Paul Petrie, South Australian Research and Development Institute |
#43 |
Screening and Evaluation of Enzymatic Activities of Wine Related Yeast Species |
Rowland Adetayo Adesida, Wine Research Center, University of Nova Gorica |
#45 |
Investigating the Impact of Heat Extremes on Cabernet Sauvignon: A study of Long-Term Weather Data and Historical Yield and Fruit Composition |
Pietro Previtali, E&J Gallo |
#46 |
Introducing emerging AI and cyber technologies to vineyard management |
Jian Liu, Charles Sturt University |
#47 |
IoT Bunch weight measurement in real time |
Amanda Mader, Ripen Tech Pty Ltd |
#48 |
Can Membrane Filtration and Adsorbent Resin be Used for Remediation of Smoke Tainted Wine? |
Yiming Huo, The University of Adelaide |
#49 |
INNOVATIVE & SUSTAINABLE WINE FINING: THE SCIENCE BEHIND PLANT PROTEINS MANAGEMENT |
Andrea Campos Andaur, Enartis Pacific |
#50 |
Revealing volatile thiols in red wines |
Eveline Bartowsky, Lallemand |
#51 |
Exploring the microbial landscape of No- and Low- alcohol wines |
Andrea Bustos, University of Adelaide |
#52 |
From Bush to Glass: Unlocking the Potential of Indigenous Microbes in Australian Wines |
Tea Knezevic, The University of Adelaide |
#53 |
HOW TEMPERATURE AND NUTRITION IMPACTS THE FERMENTATION AND THE SENSORY PROFILE OF A CHARDONNAY? |
Coline Leriche, Fermentis |
#54 |
Aromatic and fermentative performance of Hanseniaspora vineae and Saccharomyces cerevisiae in co-inoculation protocols for winemaking |
Adelaide Gallo, Oenobrands |
#55 |
Automated MOG measurement at the weighbridge using cheap AI image analysis |
Alexander McClafferty-Jackson, AWRI |
#56 |
Can we increase the flavour in dealcoholised wine by ramping up flavours in the base wine prior to distillation? |
Sheridan Barter, AWRI |
#57 |
Closing the loop: Recycling yeast lees to enhance fermentation and sustainability |
Cristobal Onetto, AWRI |
#58 |
EFFECTS OF SUGARS IN QUALITY WINEMAKING: THE STUDY |
Andrea Campos Andaur, Enartis Pacific |
#59 |
Electrodialysis for metal reduction: a novel approach to control Brettanomyces spoilage and preserve wine quality |
Yanina Giordano, University of Adelaide |
#60 |
Enhancing malolactic starter culture propagation - a novel application for non-Saccharomyces yeast |
Peter Costello, AWRI |
#61 |
From Downgraded to Premium: Valorisation of Heavy Press Juice Fractions by Ultrafiltration |
Yihe Sui, AWRI |
#62 |
From vineyard to bottle: Natural oxidation control strategies in winemaking |
Eveline Bartowsky, Lallemand |
#63 |
Hanseniaspora uvarum dominance in fermentation is driven by a rapid growth rate |
Cristobal Onetto, AWRI |
#64 |
Investigating Multiple Stuck Fermentations in a Winery: A Case Study |
Ben Cordingley, AWRI |
#65 |
IS COMPLEX NUTRITION MORE ADVANTAGEOUS THAN MINERAL NITROGEN FOR THE FERMENTATIVE CAPACITIES OF S. CEREVISIAE? |
Stéphanie Rollero, Fermentis |
#66 |
The Nano Edge: Surface Science Solutions for Winemaking |
Agnieszka Mierczynska-Vasilev, AWRI |
#67 |
Natural Bioprotection solutions as an alternative to SO2 use in wines |
Eveline Bartowsky, Lallemand |
#68 |
NEW KIDS ON THE BLOCK: NOVEL MALIC ACID PRODUCING SACCHAROMYCES CEREVISIAE STARTERS |
Ana Hranilovic, Laffort |
#69 |
Remediation of Smoke Tainted Wine using Molecularly Imprinted Polymers |
Yiming Huo, University of Adelaide |
#70 |
Remediation of smoke tainted wine via a combination of spinning cone column distillation and adsorbent treatment |
Ysadora Mirabelli-Montan, University of Adelaide |
#71 |
Spinning Cone Column distillation – where does all the flavour go? |
Sheridan Barter, AWRI |
#72 |
Targeting metal limitation: a novel approach to controlling Brettanomyces bruxellensis in wine |
Yanina Giordano, ARC Training Centre for Innovative Wine Production |
#73 |
The protective capacity of red wine pigments against bitartrate crystallisation is retained during ageing |
Keren Bindon, AWRI |
#74 |
Use of exogenous CS lyase in winemaking: a new tool to increase thiol levels in wine? |
Remi Schneider, Oenobrands |
#75 |
Real-time Monitoring of wine fermentation: precision, process control and wine consistency |
Andrea Campos-Andaur, Enartis |
#76 |
Yeasts for wine bioacidification |
Eveline Bartowsky, Lallemand |
#77 |
Ethyl Carbamate in Wine: Formation, Risks, and Mitigation strategies |
Ben Cordingley, AWRI |
#78 |
Can indoor air purification technology remove smoke odours or only particles? |
Mango Parker, AWRI |
#79 |
Are winemaking adjustments to reduce alcohol in wine accepted? A survey of Australian naïve and expert wine consumers |
Billy Xynas, University of Melbourne |
#80 |
From genes to glass: How Brands and Institutions Shape Perceptions of Genome Edited Grapes |
Syuzanna Mosikyan, University of Adelaide |
#81 |
Consumers response to additional ingredients in No-and-low-alcohol wines |
Eleanor Bilogrevic University of Adelaide |
#82 |
From Risk to Reward: Understanding Consumer Engagement with Zero-, Mid- & Full- Strength Wines Across Cultures |
Hannah Ford, University of Adelaide |
#83 |
How much is too much? From smoke testing in grapes to smoke characters in aged wine |
Mark Solomon, AWRI |
#84 |
SENSORY BENCHMARKING OF AUSTRALIAN NO ALCOHOL WHITE AND ROSÉ WINES: EXPLORING OPTIMISATION USING ADDITIVES |
ZHIXUAN AN, University of Adelaide |
#85 |
The ‘Where’s Wally’ of Wine: Why finding smoke-sensitive tasters is crucial for navigating your way through the haze after smoke events |
Eleanor Bilogrevic, AWRI |
#86 |
Sensory, Chemical and Preliminary Hedonic Insights of Wines made from Australian First-Generation Mildew Resistant Cultivars |
Jacob Alan Long, University of Adelaide |
#87 |
Using various sensory methods to navigate new product development, quality assurance and market potential |
Eleanor Bilogrevic, AWRI |
#88 |
Where to from here? Shaping tomorrow’s wine market |
Anthony Robinson, University of Adelaide |
#89 |
Photo-degradation of riboflavin in white wine: Impacts of light sources and ethanol concentrations |
Isara Vongluanngam, ARC Training Centre for Innovation Wine Production |
#90 |
The influence of non-volatile matrix components on the perception of aroma compounds in wine |
Deanna Langone, AWRI |
#91 |
Towards the Prediction of Red Wine Mouthfeel through AI-Guided Process Metrics |
Yingxin Miao, University of Adelaide |
#92 |
Application of an Electronic Nose for Objective Wine Quality Assessment and Fault Detection |
Tom Brown, Flavoractiv |
#93 |
The evolution of ‘struck flint’ aroma in wine: Formation and degradation of PMT and 2-FMT conjugates |
Deanna Langone, AWRI |
#94 |
Machine Learning Model Stability for Sub-Regional Classification of Barossa Valley Shiraz Wine Using A-TEEM Spectroscopy |
Han Wang, University of Adelaide |
#95 |
From wine additive classification to monitoring red wine maturation and ageing: Novel approaches based on spectrofluorometric fingerprints |
Shuyue Fan, University of Adelaide |
#96 |
Is it smoky or just oaky? Smoke marker concentrations in oaked and smoked wine |
Alex Schulkin, AWRI |
#97 |
New breakthrough on the molecular characterization of the aging bouquet of old Cabernet Sauvignon wines |
SUHAS Emilie, University of Bordeaux |
#98 |
Prevalence of oak-related aroma compounds in premium wines |
Tracey Siebert, AWRI |
#99 |
Struck by flint: how to form ‘struck flint’ character in Chardonnay wine |
Allie Kulcsar, AWRI |
#100 |
A new age for sulfur dioxide testing |
Alana Seabrook, Winechek |
#101 |
A new age for YAN testing |
Alana Seabrook, Winechek |
#102 |
Analysis of polymeric phenolic materials separated from 22 Pinot noir wines of a single producer |
Bin Tian, Lincoln University |
#103 |
NMR as a robust tool for quantitative metabolite analysis and unknown identification |
Flynn Watson, AWRI |
#104 |
Thiophenols and Smoke Taint: Friend or Foe? A Survey of Smoke-Affected Australian Wines |
Julie Culbert, University of Adelaide |
#105 |
Blockchain Smart Packaging for Premium Wines |
Irma Dupuis Day, University Of Adelaide |
#106 |
Long-Term Performance Benchmarking of Wine Closures |
Kieran Hirlam, AWRI |
#107 |
Understanding sulfur compound evolution: Insights from accelerated ageing and real-time cellar ageing in wines |
Yu Hou, University of Adelaide |
