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LATEST NEWS & MEDIA

Read ALL NEWS/MEDIA »

20 Mar 2020 - Factsheet - Tea Tree Oil Antiviral Properties March 2020

In response to the current coronavirus outbreak the ATTIA Board have approved the release of a Factsheet to help anyone interested to have access to research conducted on the antiviral properties of TTO. More »»

01 Jan 2020 - Biosecurity Plan for the Tea Tree Industry

A Biosecurity Plan for the Tea Tree Industry has been prepared and released by Plant Health Australia. More »»

01 Nov 2019 - Essential Oils of the Pacific: Australian Tea Tree

CNN have recently released a video titled 'Essential Oils of the Pacific: Australian Tea Tree'. Please share this as widely as possible and help get the message out there. More »»

18 Aug 2019 - Future Drought Fund

The Australian Government has committed $3.9 billion to the Future Drought Fund; public consultation. To help design the Drought Resilience Funding Plan, register for the upcoming consultation. More »»

Myrtle Rust – Austropuccinia psidii

Myrtle Rust is fungal rust that infects most Myrtaceae – Australia has many native plants from this family – but since it is a new disease (first identified in Apr 2010 in Gosford, NSW) very little was known about it, this is slowly changing as researchers find out more about the pest.
The CSIRO conducted host testing on 100 + species in 2011 finding 95%+ are susceptible. We know that Melaleuca alternifolia is susceptible from both CSIRO host testing and field observations. What we now know is that while the pesat is endemic in Australia the impact on production of 100% pure TTO is minimal and relatively easy to control using a suite of fungicides and integrated pest management strategies.

3rd generation (elite stock) Melaleuca alternifolia seedling infected with Myrtle Rust (Uredo rangelii)
Symptoms induced under experimental conditions only Images © Dr Louise Morin CSIRO Ecosystem Sciences

Closely related to Guava Rust (Puccinia psidii) which is the same as Eucalyptus Rust, P. psidii  and A. psidii both affect many Myrtaceous genera including Eucalypts (Eucalyptus & Corymbia spp) Bottlebrush (Callistemon spp) and Paperbark (Melaleuca spp), as well as many native Australian under-storey and amenity (ornamental) species.
Many scientists believed these werethe same but there is now good evidence (https://biotaxa.org/Phytotaxa/article/view/phytotaxa.297.1.5)  that while both are the same family of Fungi, they are two distinct species. The biology and lifecycle of A. psidii is now better known and much research has been conducted on this species (see http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0188058).

Myrtle Rust (MR), which originated in South America, was first identified in April 2010 on the Central Coast of NSW:

Apr 2010     MR first identified and reported to the National Management Group (NMG)
May 2010    Plant Health Australia (PHA) make a submission to the NMG to attempt eradication despite the probable low chance for success
Jul 2010      The NMG supports the Interim Response Plan (IRP) to attempt eradication
Aug 2010    MR found outside the quarantine area in NSW
Nov 2010    MR found in bushland in NSW
Dec 2010    NMG determine eradication impossible in NSW
Dec 2010    MR confirmed in QLD
Jan 2011    MR confirmed in 15 sites in QLD including parkland at Noosaville
July 2011   MR declared endemic and a Transition to Managemet plan implemented

The latest information on MR is available from the Plant Health Australia and a dedicated MR page:
http://www.planthealthaustralia.com.au/national-programs/myrtle-rust/
http://myrtlerust.net.au/

Working closely with I & I NSW, ATTIA Ltd has produced a Biosecurity Manual to assist members control the spread of the pathogen. Please apply to join ATTIA here if you want more information and to be kept up to date.

ATTIA and I & I NSW have also produced flyers for printing and display or distribution. These are available HERE.

While much is still not known about the disease  its lifecycle has nowbeen mapped and we know from observations that:

• Humans, are prime vectors
• It can be spread by insects: like many fungal spores, honeybees (Apis mellifera) are attracted to the spore bodies, collecting them in the same way they collect pollen.
• Under the right conditions (warm & dry after a moist, humid spell) the spores become windborne and can spread many kilometres.
• Birds, bats, native marsupials etc are also vectors.

We also have evidence that the spores can last up to 3 months until conditions favour germination.
Ideal germination is in dark, moist or humid conditions at around 20 Celsius. Strong sunlight appears to inhibit growth.

More information is available from the links above.