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Stopping herbicide resistance in Queensland

Key messages


  • remains for many years, until all resistant weed seeds are gone from the soil seed bank
  • evolves more rapidly in paddocks with frequent use of the same herbicide group, especially if no other control options are used.

Action points: 

  • Assess your level of risk with the online glyphosate resistance toolkit.
  • Aim for maximum effectiveness in control tactics, because resistance is unlikely to develop in paddocks with low weed numbers.
  • Do not rely on the same mode of action group.
  • Monitor your weed control regularly.
  • Stop the seed set of survivors
Screenshot of the online Glyphosate Resistance Toolkit

Online glyphosate resistance toolkit

The online glyphosate resistance toolkit enables growers and advisors to assess their level of risk for developing glyphosate-resistant weeds on their farm.

Why be concerned about herbicide resistance?

Herbicide resistance is an increasing threat for growers and agronomists across Australia's northern grain region. There are already 10 cropping weeds that have been confirmed as resistant to herbicide in various parts of the region. Others have been identified as at risk of developing resistance, particularly to glyphosate.

In southern Queensland (SQ), 7 weeds are confirmed resistant to Group A, B or C herbicides (see Table 1). A further 4 weeds are confirmed resistant to glyphosate (e.g. Roundup).

In central Queensland (CQ), the first case of herbicide resistance was confirmed in 2014 with a sweet summer grass population found to be resistant to glyphosate.

Table 1. List of confirmed resistant weeds in SQ
Weed Herbicide group Extent of resistance in SQ Future risk Detrimental impact
Wild oats A (e.g. Topik & Wildcat) Spread across the main wheat growing areas Areas growing predominantly winter crops High
  • African turnip weed
  • Black bindweed, 
  • Common sowthistle, 
  • Indian hedge mustard,
  • Turnip weed
B (e.g. Glean & Ally) Spread across the main wheat growing area Areas growing predominantly winter crops Moderate
Liverseed grass C (e.g. atrazine) A few paddocks in eastern Darling Downs Areas growing predominantly sorghum High
Barnyard grass M (e.g. glyphosate) Western Downs Summer fallows Very High
  • Flaxleaf fleabane
  • Common sowthistle
M (e.g. glyphosate) Eastern and Western Downs  Fallows  Very High

In central Queensland (CQ), the first case of herbicide resistance was confirmed in 2014 with a sweet summer grass population found to be resistant to glyphosate.
Liverseed grass and wild oats are also at risk of developing resistance to Group M (glyphosate) herbicides (see Table 2). While no populations of glyphosate-resistant liverseed grass have been identified in Queensland yet, 4 paddocks in the Liverpool Plains area of northern New South Wales have liverseed grass that is resistant to glyphosate treatment.  

Table 2. List of potential new resistant weeds in CQ and SQ
Weed Herbicide group Future risk Detrimental impact
Wild oats M (e.g. glyphosate) Zero and minimum tilled systems (only SQ) High
Barnyard grass C (e.g. atrazine) Areas growing predominantly sorghum High
Parthenium B (e.g. Ally) Areas growing predominantly winter crops High
Other Brassica weeds B (e.g. Glean & Ally) Areas growing predominantly winter crops Moderate

Other broadleaf and grass weeds are also at risk of developing resistance, depending on weed numbers and management practices used. Read more about preventing herbicide resistance in specific weeds. .

Resistance is a costly problem. If resistance develops, growers will have to use other control measures or different herbicides, and these may be more expensive or less effective. In some cases, growers will not be able to grow certain crops, or may have to change their farming system to include more tillage. The impact will be greater in the more marginal cropping areas with lower and less reliable returns.

Prioritising the prevention of glyphosate resistance is particularly important to give priority to preventing resistance to glyphosate, as this is likely to have the most adverse impact on cropping viability and sustainability. The measures needed to prevent or slow the development of herbicide resistance could be equated to the payment of an insurance premium. The cost of this premium is proportional to the risk level to be avoided.

How does resistance start?

Resistance starts in a paddock in several ways. Some rare mutations can occur naturally in weeds already in the paddock, with the likelihood varying from 1 plant in 10,000 to 1 in a billion plants, depending on the weed and herbicide. A grower may also import weed seed with the herbicide-resistant gene in contaminated feed, seed or machinery. 

Resistance may also be introduced by natural seed spread by wind and water or by pollen, which may blow short distances from a contaminated paddock.

How does resistance become a problem?

Once a few resistant plants are in a paddock, they will only become a widespread problem if the grower relies totally on those herbicides for weed control. Frequent applications of the same herbicide or same herbicide mode of action group will kill the susceptible part of the weed population, and eventually allow the rare plants with the resistance gene to increase and dominate. Higher risk management options that will lead to resistant weeds becoming a problem are presented in Table 3.

Table 3. Management options influencing risk of herbicide resistance development
Management option Lower risk Higher risk
Cropping system Varied rotation Crop monoculture
Cultivation system Tillage controlling primary flush and/or weed escapes Continuous zero tillage
Weed control strategy Using integrated weed management principles Relying on herbicides only
Spray regime Many modes of action for each target weed Single mode of action
Herbicide control in previous years 100% control with no seed set A few survivors setting seed
Weed numbers Low High
Monitoring of control level Regular Rare

How long does resistance last?

Herbicide resistance will remain for many years, until all resistant weed seeds have gone from the soil seed bank. 

Research has shown that a small percentage of seeds of annual grasses and common sowthistle persist for 3 to 4 years in the absence of any new seed replenishment (see Table 4). However,   a significant portion of weed seeds with hard seed coats, such as bladder ketmia, climbing buckwheat and turnip weed seeds, will persist for 4 years and possibly longer.

Table 4. Persistence of weed seeds in top 8-10 cm of soil in the Darling Downs
Weed Seed remaining in soil seed-bank (%)
1 year 2 years 3 years 4 years
Barnyard grassA 26 10 - -
Bladder ketmiaA 71 51 - -
Black bindweedB - - - 6
Common sowthistleC 25 7 4 -
Liverseed grassA B 27 11 - < 1
Paradoxa grassD 14 2 < 1 < 1
Turnip weedE 56 28 15 8
Wild oatsE 17 2 < 1 < 1

(Data supplied by Hanwen Wu(A), Bruce Wilson(B), Michael Widderick(C), Ian Taylor(D), Steve Walker(E).)

General principles to avoid resistance

Herbicides have a limited life before resistance develops, if they are used repeatedly and exclusively as the sole means of weed control, particularly in zero and minimum tilled systems. Resistance can develop within four to eight years for Group A and B herbicides and after 15 years for Group L and M herbicides (see Table 5). This can be avoided by:

  • keeping weed numbers low
  • changing herbicide groups 
  • using tillage
  • rotating crops and agronomic practices

We have gained further insight into the impact and efficacy of integrated weed management strategy components through a computer-simulated model.

Table 5. Rules of thumb for the number of years of herbicide application before resistance evolves (Source: Chris Preston, University of Adelaide)
Herbicide group Years to resistance
A 6-8
B 4-6
C 10-15
D 10-15
L 15+
M 15+

Strategies to prevent or minimise the risk of resistance developing are based on IWM principles as outlined below.

  • Ensure survivors do not set seed and replenish the soil seed bank.
  • Keep accurate paddock records of herbicide application and levels of control. Monitor weeds closely for low levels of resistance, especially in paddocks with a history of repeated use of the same herbicide group.
  • Rotate between the different herbicide groups, and/or tank mix with an effective herbicide from another mode of action group. It is important to use effective ´stand-alone´ rates for both herbicides in the mix.
  • Aim for maximum effectiveness to keep weed numbers low. The primary aim of weed control is to minimise their impact on productivity, and resistance is much less likely to develop in paddocks with fewer weeds than in heavily infested paddocks.
  • Use a wide range of cultural weed control tools in your weed management plan. Sowing different crops and cultivars provides opportunities to use different weed management options on key weeds. Tillage is useful when it targets a major weed flush and minimises soil inversion, as buried weed seed generally persists longer than on the soil surface. Competitive crops will reduce seed production on weed survivors.
  • Avoid introduction or spread of weeds by contaminated seed, grain, hay or machinery. Also, manage weeds in surrounding non-crop areas to minimise risk of seed and pollen moving into adjacent paddocks.

Specific guidelines for reducing the risk of glyphosate resistance are outlined in Table 6. Aim to include as many as possible of the risk decreasing factors in your crop and weed management plans.

Table 6. Balancing the risk for weeds developing glyphosate resistance, devised by the national Glyphosate Sustainability Working Group with minor modifications for the Queensland cropping region
Risk increasing Risk decreasing
Continuous reliance on glyphosate pre-seeding Double knock technique
Lack of tillage Strategic use of alternative knockdown groups
Lack of effective in-crop weed control Full-disturbance cultivation at sowing
Inter-row glyphosate use (unregistered) Effective in-crop weed control
Frequent glyphosate-based chemical fallow Use alternative herbicide groups or tillage for inter-row and fallow weed control
High weed numbers Non-herbicide practices for weed seed kill
Pre-harvest desiccation with glyphosate Farm hygiene to prevent resistance movement

Know your herbicide groups

Despite the large number of herbicides marketed to control weeds, there are relatively few mechanisms of herbicide toxicity, which means that many different herbicides may have the same actions on plants.

Learn more about which mode of action group different herbicides fall under (PDF, 244KB).

It is important to rotate between the 19 different herbicide mode of action groups. All herbicides sold in Australia carry a letter code designating the mechanism of herbicide toxicity of that herbicide, which corresponds with the group in the mode of action table linked above

Table 7. Herbicides are classified into mode of action groups, denoted by letters A-N, based on their main target activity
Herbicide groups Examples (registered trade names)
A Achieve, Correct, Decision, Falcon, Fusilade, Fusion, Puma Progress, Select, Shogun, Spear, quizalofop (e.g. Targa), Topik, Tristar Advance, Wildcat, haloxyfop (e.g. Verdict)
B metsulfuron (e.g. Ally), Atlantis, Broadstrike, Express, Flame, chlorsulfuron (e.g. Glean), Harmony M, Hussar, Spinnaker, Sempra
C atrazine (e.g. Gesaprim), Basagran, bromoxynil (e.g. Bromicide), fluometuron (e.g. Cotoran), prometryn (e.g. Gesagard), simazine (e.g. Gesatop), diuron (e.g. Diurex)
D trifluralin (e.g. Treflan), pendimethalin (e.g. Stomp)
E Avadex
F Balance
G Affinity, Blazer, oxyfluorfen (e.g. Goal, Hammer)
I 2,4-D amine, 2,4-D ester, MCPA amine, MCPA LVE, Surpass, 2,4-DB (e.g. Buticide), Tordon 242, Banvel, Cadence, Starane, Tordon 75D, triclopyr (e.g. Garlon)
K Dual Gold,
L Spray.Seed, paraquat, diquat
M glyphosate
N glyphosinate (e.g. Basta)
Z Mataren

It is important to rotate between the different herbicide modes of action groups. All herbicides sold in Australia carry a letter code designating their mode of action (mechanism of herbicide toxicity of that herbicide).

If you think you have resistant weeds

When resistance is first suspected, we recommend that growers contact their local agronomist.

The following steps are then recommended:

  1. Consider the possibility of other common causes of herbicide failure by asking:
    • Was the herbicide applied in conditions and at a rate that should kill the target weed?
    • Did the suspect plants miss herbicide contact or emerge after the herbicide application?
    • Does the pattern of surviving plants suggest a spray miss or other application problem?
  2. Has the same herbicide or herbicides with the same mode of action been used in the same field or in the general area for several years?
  3. Has the uncontrolled species been successfully controlled in the past by the herbicide in question or by the current treatment?
  4. Has a decline in the control been noticed in recent years?
  5. Is the level of weed control generally good on the other susceptible species?

If resistance is still suspected:

  1. Contact our crop and food science researchers via the Customer Service Centre for advice on sampling suspect plants for testing of resistance status..
  2. Ensure all suspect plants do not set any seed.
  3. If resistance is confirmed, develop a management plan for future years to reduce the impact of resistance and likelihood of further spread.

Further information