Browsing Pest, disease and weed management by Title
Now showing items 100-119 of 181
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Integrated pest management of stem borers and insect vectors of viral diseases of sugarcane : final report 2006/147
(BSES, 2009)This report provides detail on an ACIAR-funded project (HORT/2006/147) meeting between Australian and Indonesian staff to review project activities, and to plan further research, development and extension for the next 12 ... -
Integration of klerat rodenticide into the IPM program for rodent control in sugarcane : SRDC final report BS78S
(BSES, 1995)The second-generation antocoagulant rodenticde Klerat (0.005% w/w brodifacoum) was evaluated for inclusion in the integrated pest management (IPM) program for rodent control in Queensland sugarcane. IPM for Rattus sordidus ... -
Keeping our chemicals in their place – In the field
(2021-07-01)This project specifically examined whether off-site movement of pesticides could be managed through the use of a range of tools and techniques including adjuvants, product formulations, product placement and application ... -
Key factors in control of Greyback Canegrub populations : SRDC final report BS120S
(BSES, 1998)Greyback canegrub outbreaks with severe losses in sugar production have persisted for more than six years in the Burdekin district, but population densities of the pest have declined at locations in the Herbert Valley, ... -
Leaf sucrose: The link to diseases, physiological disorders such as YCS and sugarcane productivity : final report 2015/016
(Sugar Research Australia Limited, 2020)Yellow canopy syndrome (YCS) is a physiological disorder expressing as yellowing of the mid-canopy. Rapid growth following a stress period where growth rate of the top internodes has been compromised creates a supply demand ... -
Management of greyback canegrub in sugarcane; from research to practice : SRDC Final Project Report BSS223
(BSES, 2002)This project was designed to involve and educate growers and advisory staff of the long-term benefits and increased profitability of greyback canegrub IPM systems. The project facilitated the adoption of IPM principles ... -
Management strategies for rhyparida in southern Queensland : SRDC final report BSS236
(BSES, 2002)Larvae of rhyparida beetles bore into the bases of newly ratooning shoots, causing dead hearts. Very minor damage will kill 'surplus' shoots. More intense damage appears to set plant growth back and cause some yield loss. ... -
Managing the plant protection aspects of the canelands rural/urban interface
(BSES, 1997)Australia is a highly urbanised country with an ever-increasing urban population. As the cities expand, they continue to encroach upon areas of rural land use. The result is a constantly moving interface between urban and ... -
Maximising the resistance of sugarcane to soldier fly : SRDC final report BS61S
(BSES, 1996)Infestations of soldier fly (Inopus spp.) cause losses to sugarcane in areas from Innisfail to New South Wales. Cane losses attributable to soldier fly in Queensland in 1995 were estimated at 24 000 t, and the annual ... -
Measuring the susceptibility of Canegrubs to chlorpyrifos insecticide : SRDC final report BS49S
(BSES, 1997)Keith Chandler developed a bioassay system more efficient than any used previously, and used it to measure the susceptibility of 10 canegrub species to chlorpyrifos. The data were reviewed for evidence of resistance. The ... -
Methods for accurate identification of canegrubs : SRDC final report BS97S
(BSES, 1999)The objectives of the project were; determine morphological characters for accurate identifica6tion of larvae and adults of all species of canegrubs; validate the usefulness of morphological characters through DNA analysis; ... -
Molecular assay of major soilborne sugarcane pathogens for better exploitation of commercial varieties : final report 2016/047
(Sugar Research Australia Limited, 2018)A commercial assay service, based on specific DNA tests for soil-borne pathogens, has been developed for various cropping industries by the South Australian Research and Development Institute (SARDI), Adelaide. A unique ... -
Mulgrave cane growers strategic grub management; implementing BSES decision-making tools : SRDC Grower Group innovation project
(BSES, 2010)This project was a continuation of previous SRDC/BSES GrubPlan projects in which the importance of a thorough grub monitoring program was highlighted. Essentially, the need for more grower involvement led to the creation ... -
Optimising spot spraying for controlling Guinea Grass : ASSCT peer-reviewed paper
(ASSCT, 2019)Established Guinea grass stools are commonly found in our sugarcane-farming system. No registered herbicides that are both effective on perennial Guinea grass stools and selective to sugarcane are available. Directed-spray ... -
Optimum canegrub management within new sustainable cropping systems : SRDC final report BSS266
(BSES, 2010)This project addressed the issue of canegrub management in new farming systems. Many cane growers are adopting or planning to adopt one or more components of 'new farming systems' - legume rotations, reduced tillage and ... -
Overseas sugarcane quarantine and emergency response planning : SRDC final report BSS280
(BSES, 2005)The aim of this trip was for Dr Mohamed Sallam, BSES entomologist, to gain experience in sugarcane biosecurity and to learn about sugarcane pest and disease problems in the United States. In addition Dr Sallam participated ... -
Pachymetra awareness project for Condong Mill area: final report 2012/064
(Sugar Research Australia Limited, 2016)Objectives: Use innovative approaches to motivate and demonstrate the potential benefits to improve Pachymetra management for farmers. Build capacity in growers to better manage Pachymetra on their farms. . Increase farm, ... -
Pachymetra chaunorhiza as a factor involved in stool tipping in North Queensland : SRDC final report BS33S
(BSES, 1991)The objectives of this project were to determine the soil and environmental factors favouring Pachymetra root rot, and how these contributed to stool tipping in the moderately resistant and susceptible varieties Q117 and Q124.