LAMP lights way to pre-emptive weed strikes

A portable tool kit, with the power to identify the DNA of invasive weeds when they first appear in the landscape, could soon transform weed management.

(DPI) scientists, David Gopurenko, Aisuo Wang and Hanwen Wu, have developed a field kit which uses LAMP technology to identify serrated tussock and Chilean needle grass in the field.

(DPI) scientists, David Gopurenko, Aisuo Wang and Hanwen Wu, have developed a field kit which uses LAMP technology to identify serrated tussock and Chilean needle grass in the field.

NSW Department of Primary Industries (DPI) scientists, David Gopurenko, Aisuo Wang and Hanwen Wu, have developed a field kit which uses LAMP technology to identify serrated tussock and Chilean needle grass in the field.

"The advantage of LAMP, the name given to loop-mediated isothermal amplification of DNA, is that we can quickly and easily identify trace amounts of leaf tissue within an hour at a cost less than $10 per test," Dr Gopurenko said.

"Early detection is the key to managing serrated tussock and Chilean needle grass.

"Weed seedlings and young plants are difficult to distinguish from similar looking native grasses and the development of this DNA-based tool will help accelerate their detection.

"When these weeds first emerge in new locations they often remain undetected until well-established and become difficult to control.

Department of Primary Industries scientist Hanwen Wu with the LAMP DNA tool that can be used for the early detection of serrated tussock and Chilean needle grass.

Department of Primary Industries scientist Hanwen Wu with the LAMP DNA tool that can be used for the early detection of serrated tussock and Chilean needle grass.

"These invasive tussock grasses can quickly take over vast areas, competing with valuable pasture species.

"If land managers can detect these weeds when they first appear, control measures can be effectively initiated to get rid of the weeds before they become a huge problem."

In the past four months DPI has delivered workshops demonstrating the new tool to more than 150 biosecurity officers and land managers from NSW, ACT, Queensland and Victoria.

Further development of the technology could see the method modified for diagnostics of other target weeds, insect pests and pathogens.

Chilean needle grass, Nassella neesiana and serrated tussock, N. trichotoma, are introduced weeds, which cost more than $40 million in lost farm production each year.

The project, funded by the Australian Government through the Control Tools and Technologies

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