SYNERGISTIC HPPD MIXTURES

Abstract

Provided are combinations of one or more HPPD inhibitors selected from an isoxazole, a triketone, and a callistemone; a cereal crop safener selected from mefenpyr-diethyl, cloquintocet and cloquintocet-mexyl; and one or more of the herbicides, selected from the following groups: i) a PSII inhibitor, including bromoxynil, ioxynil, and chlorotoluron ii) a synthetic auxin, including halauxifen-methyl, fluroxypyr and MCPA iii) a PPO inhibitor, including bifenox iv) a PDS inhibitor, including flurochloridone, diflufenican and picolinafen.
A method for controlling unwanted vegetation applying such a combination to a cereal crop is also described.

Claims

1. A herbicidal composition, comprising an effective amount of: A) one or more HPPD inhibitors, selected from a group comprising: an isoxazole, a triketone, and a callistemone; B) a safener suitable for the cereal crop, wherein the safener is selected from a group comprising mefenpyr-diethyl, cloquintocet and cloquintocet-mexyl; and C) one or more of the herbicides, selected from the groups comprising: i) a PSII inhibitor, including bromoxynil, ioxynil, and chlorotoluron ii) a synthetic auxin, including halauxifen-methyl, fluroxypyr and MCPA iii) a PPO inhibitor, including bifenox iv) a PDS inhibitor, including flurochloridone, diflufenican and picolinafen.

2. The herbicidal composition as claimed in claim 1, comprising an effective amount of one or more HPPD inhibitors selected from a group comprising Pyrasulfotole, Bicyclopyrone, Topramezone and Mesotrione.

3. The herbicidal composition as claimed in claim 2, comprising an effective amount of: A) Pyrasulfotole; B) a safener suitable for the cereal crop, wherein the safener is selected from a group comprising mefenpyr-diethyl, cloquintocet and cloquintocet-mexyl; and C) one or more of the herbicides, selected from the groups comprising: a PSII inhibitor, which includes bromoxynil, ioxynil, and chlorotoluron; a synthetic auxin, which includes halauxifen-methyl, fluroxypyr and MCPA; a PPO inhibitor, which includes bifenox; and a PDS inhibitor, which includes flurochloridone, diflufenican and picolinafen.

4. The herbicidal composition as claimed in claim 2, comprising an effective amount of: A) Bicyclopyrone; B) a safener suitable for the cereal crop, wherein the safener is selected from a group comprising mefenpyr-diethyl, cloquintocet and cloquintocet-mexyl; and C) one or more of the herbicides, selected from the groups comprising: a PSII inhibitor, which includes bromoxynil, ioxynil, and chlorotoluron; a synthetic auxin, which includes halauxifen-methyl, fluroxypyr and MCPA; a PPO inhibitor, which includes bifenox; and a PDS inhibitor, which includes flurochloridone, diflufenican and picolinafen.

5. The herbicidal composition as claimed in claim 2, comprising an effective amount of: A) Topramezone; B) a safener suitable for the cereal crop, wherein the safener is selected from a group comprising mefenpyr-diethyl, cloquintocet and cloquintocet-mexyl; and C) one or more of the herbicides, selected from the groups comprising: a PSII inhibitor, which includes bromoxynil, ioxynil, and chlorotoluron; a synthetic auxin, which includes halauxifen-methyl, fluroxypyr and MCPA; a PPO inhibitor, which includes bifenox; and a PDS inhibitor, which includes flurochloridone, diflufenican and picolinafen.

6. The herbicidal composition as claimed in claim 2, comprising an effective amount of: A) Mesotrione; B) a safener suitable for the cereal crop, wherein the safener is selected from a group comprising mefenpyr-diethyl, cloquintocet and cloquintocet-mexyl; and C) one or more of the herbicides, selected from the groups comprising: a PSII inhibitor, which includes bromoxynil, ioxynil, and chlorotoluron; a synthetic auxin, which includes halauxifen-methyl, fluroxypyr and MCPA; a PPO inhibitor, which includes bifenox; and a PDS inhibitor, which includes flurochloridone, diflufenican and picolinafen.

7. The herbicidal composition as claimed in claim 1, which comprises the components (A), (B) and (C) in a weight ratio of x:y:z, wherein x, y and z are independently 1 to 200.

8. The herbicidal composition as claimed in claim 1, additionally comprising formulating agents customary in crop protection

9. The herbicidal composition as claimed in claim 1, additionally comprising adjuvants.

10. The herbicidal composition as claimed in claim 9, wherein the adjuvants comprising esterified vegetable oil, non-ionic surfactants, paraffinic oil and the mixtures thereof.

11. The herbicidal composition as claimed in claim 10, wherein the non-ionic surfactants adjuvants comprising 1000 g/L alcohol alkoxylates, including BS 1000.

12. A method for controlling unwanted vegetation applying the composition as claimed in claim 1, which comprises applying the components (A), (B) and (C) jointly or separately to the plants, to parts of plants, to plant seeds or to the area on which the plants grow.

13. The method as claimed in claim 12 wherein said unwanted vegetation comprises harmful plants in crops of useful plants.

14. The method as claimed in claim 13 wherein said unwanted vegetation comprises harmful plants in cereal crops.

15. The method as claimed in claim 14 wherein the herbicidal composition is applied to a cereal crop post-emergent.

16. The method as claimed in claim 14 wherein said unwanted vegetation comprises harmful plants in wheat, barley, cereal rye and triticale.

17. The method as claimed in claim 12, wherein the herbicidal composition is applied in an amount of 1 to 1000 g/ha.

18. The method of claim 12 wherein the unwanted vegetation is selected from a group comprising Fumitory (Fumaria spp), Vetch (Vicia sativa), Wild radish (Raphanus raphanistrum), Bifora (Bifora testiculata), Volunteer lupins (Lupinus spp) and Climbing buckwheat (Polygonum convolvulus) weed species.

19. The method as claimed in claim 18 wherein the unwanted vegetation group includes biotypes resistant to one or more herbicide modes of action.

Description

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0114] Table 1 conveniently lists products referred to herein by their Product names:

TABLE-US-00001 TABLE 1 Product active ingredients and concentration Product Form. name Active ingredient(s) Type Adigor Methyl Esters of Canola Oil Fatty Acid 440 g/L EC AG-C6-060 Cloquintocet-mexyl 60 g/L EC EC Arietta Topramezone 336 g/L SC AD-AU-1826 Florasulam 200 g/L SC Precept Pyrasulfotole 25 g/L + LVE MCPA 125 g/L + EC Mefenpyr-diethyl 6.25 g/L Bonanza Elite Diflufenican 500 g/L SC Bronco 400 Bromoxynil 400 g/L EC BS 1000 Alcohol alkoxylates 1000 g/L SL Colt Diflufenican 25 g/L + Bromoxynil 250 g/L EC Elevore Halauxifen-methyl 68.5 g/L SC Flagship 400 Fluroxypyr 400 g/L EC Flight Bromoxynil 210 g/L + Picolinofen 35 g/L + EC MCPA 350 g/L Fox Bifenox 480 g/L SC Frequency Topramezone 60 g/L + Cloquintocet- SC mexyl 60 g/L Hasten 900 Esterified vegetable oils 704 g/L + Non-ionic EC surfactant 196 g/L Ioxynil 250 Ioxynil 250 g/L EC LVE MCPA MCPA present as the 2-ethylhexyl EC 570 ester 570 g/L Mesoflex Mesotrione 480 g/L SC Pixxaro Fluroxypyr 250 g/L + Halauxifen-methyl EC 16.25 g/L + Cloquintocet-mexyl 16.25 g/L Quadrant Bromoxynil 240 g/L + Picolinafen 10 g/L + EC Diflufenican 20 g/L + MCPA 250 g/L Racer 250 Flurochloridone 250 g/L EC Talinor Bicyclopyrone 37.5 g/L + Bromoxynil EC 175 g/L + Cloquintocet-mexyl 9.4 g/L Tolurex 90 Chlorotoluron 900 g/kg WG WDG Toluron 700 Chlorotoluron 700g/kg WG SC Triathlon Diflufenican 25 g/L + LVE MCPA 250 g/L + EC Bromoxynil 150 g/L Uptake Non-ionic surfactant 240 g/L + paraffinic EC oil 582 g/L Velocity Pyrasulfotole 37.5 g/L + Bromoxynil 210 g/L + EC Mefenpyr-diethyl 9.4 g/L

[0115] Each of the above products can be obtained from Adama Australia, St Leonards, New South Wales, Australia, except for:

[0116] Adigor, available from Syngenta Australia, PO Box 886 North Ryde NSW 1670, Australia

[0117] Arietta, obtainable from BASF New Zealand Limited, P.O. Box 407, Auckland 1140, New Zealand;

[0118] BS 1000 and Flight, obtainable from Nufarm, 103-105 Pipe Road, Laverton North, Victoria 3026;

[0119] Elevore, obtainable from Corteva Agriscience, 9330 Zionsville Road, Indianapolis, Ind. 46268, United States of America;

[0120] Fox, obtainable from Adama Agricultural Solutions UK Limited, Unit 15, Thatcham Business Village Colthrop Way, Thatcham, Berkshire RG19 4LW, England;

[0121] Frequency, obtainable from BASF Australia Ltd, Level 12, 28 Freshwater Place, Southbank VICTORIA 3006

[0122] Ioxynil 250, obtainable from Eurochem, TGAC Australia Pty Ltd. 9 Heales Road, Lara, Victoria 3212.

[0123] Mesoflex, obtainable from Adama New Zealand Ltd, Level 1, 93 Bolt Road, Tahunanui, Nelson 7011.

[0124] Pixxaro and Uptake, obtainable from Corteva Agriscience, Chatswood, New South Wales, Australia;

[0125] Racer 250, obtainable from Adama Agan, Ashdod, Israel.

[0126] Talinor, available from Syngenta Australia, PO Box 886 North Ryde NSW 1670, Australia

[0127] Velocity and Precept, obtainable from Bayer Crop Science Australia, Pymble, New South Wales, Australia;

[0128] AG-C6-060 EC is an experimental formulation developed by Adama Agan, Ashdod, Israel;

[0129] AD-AU-1826 is an experimental formulation developed by Adama Australia; and

[0130] Hasten 900, obtainable from Victorian Chemicals, Coolaroo, Victoria, Australia.

[0131] Chlorotoluron is not currently available as Tolurex 90 WDG. However, a sample of the previously commercially available formulation Tolurex 90 WDG, a water dispersible granule containing 900 g/kg chlorotoluron, was supplied by Adama Agan.

[0132] Toluron 700 SC, marketed by Adama Polska Sp.z.o.o., was also included in evaluations and can be used instead of Tolurex 90 WDG.

Example 1

[0133] In this non-limiting example, the efficacy of herbicidal combinations was evaluated on multiple-herbicide resistant wild radish (Raphanus Raphanistrum), when applied post emergent in wheat (Triticum aestivum). Crop safety was assessed for all treatments.

[0134] The treatment details are set out in Table 2.

TABLE-US-00002 TABLE 2 Treatments from Example 1 Trt Treatment Form Form Rate Other Other No. Name Conc Unit Rate Unit Rate Rate Unit 1 Untreated Control 2 Colt 275 g/L 1000 mL/ha 275 g ai/ha 3 Triathlon 425 g/L 1000 mL/ha 425 g ai/ha 4 Bonanza Elite 500 g/L 50 mL/ha 25 g ai/ha 5 Velocity 256.9 g/L 400 mL/ha 103 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 6 Velocity 256.9 g/L 670 mL/ha 172 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 7 Velocity 256.9 g/L 670 mL/ha 172 g ai/ha LVE MCPA 570 570 g/L 350 mL/ha 200 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 8 Velocity 256.9 g/L 200 mL/ha 51.4 g ai/ha Triathlon 425 g/L 500 mL/ha 213 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 9 Velocity 256.9 g/L 300 mL/ha 77 g ai/ha Triathlon 425 g/L 750 mL/ha 320 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 10 Velocity 256.9 g/L 400 mL/ha 103 g ai/ha Triathlon 425 g/L 1000 mL/ha 425 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 11 Velocity 256.9 g/L 670 mL/ha 172 g ai/ha Bronco 400 400 g/L 225 mL/ha 90 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 12 Velocity 256.9 g/L 670 mL/ha 172 g ai/ha Bonanza Elite 500 g/L 50 mL/ha 25 g ai/ha Bronco 400 400 g/L 225 mL/ha 90 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 13 Toluron 700 SC 700 g/L 640 mL/ha 450 g ai/ha 14 Toluron 700 SC 700 g/L 1290 mL/ha 900 g ai/ha 15 Velocity 256.9 g/L 670 mL/ha 172 g ai/ha Toluron 700 SC 700 g/L 640 mL/ha 450 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 16 Velocity 256.9 g/L 670 mL/ha 172 g ai/ha Toluron 700 SC 700 g/L 1290 mL/ha 900 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 17 Precept 156.25 g/L 1500 mL/ha 234 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 18 Precept 156.25 g/L 1500 mL/ha 234 g ai/ha Bonanza Elite 500 g/L 50 mL/ha 25 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 19 Precept 156.25 g/L 1500 mL/ha 234 g ai/ha Toluron 700 SC 700 g/L 640 mL/ha 450 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha 20 Precept 156.25 g/L 1500 mL/ha 234 g ai/ha Toluron 700 SC 700 g/L 1290 mL/ha 900 g ai/ha Hasten 900 g/L 1 l/100 l 900 g ai/ha

[0135] Toluron 700 SC was applied at 640 and 1290 mL/ha, on its own and in combination at both rates, with Velocity at 670 mL/ha and Precept at 1500 mL/ha. Velocity and Triathlon were mixed at rates of 200+500, 300+750 and 400+1000 mL/ha.

[0136] Mixes were compared with registered standards Colt at 1000 mL/ha, Triathlon at 1000 mL/ha, Velocity at 670 mL/ha±LVE MCPA 570 at 350 mL/ha and Precept at 1500 mL/ha. All treatments were applied using a spray volume of 100 L/ha to an established wheat crop at the beginning of stem elongation (BBCH 31) and wild radish at BBCH 31, with most plants about 30 cm in diameter.

[0137] This trial was located in a commercial wheat paddock in the Mingenew/Morawa farming region of Western Australia. Crop phytotoxicity and weed control were assessed at 3, 7, 14, 28 and 41 days after application (DA-A) with weed density counted at 57 DA-A. Plot yield was measured at 112 DA-A.

[0138] The wild radish targeted in this trial is a known difficult-to-control population, suspected of developing resistance to multiple herbicide modes of action groups including acetolactate synthase inhibitors, photosystem II inhibitors, phytoene desaturase inhibitors and synthetic auxins.

[0139] All treatments were safe to apply to Calingiri wheat.

[0140] The percent control of wild radish is set out in Table 3.

TABLE-US-00003 TABLE 3 Wild radish (Raphanus raphanistrum) Percent Control Other Treatment - Evaluation Interval for Example 1 Trt Treatment Rate Rate 3 8 14 28 41 57 No. Name Rate Unit g/ai/ha DA-A DA-A DA-A DA-A DA-A DA-A 1 Untreated 0.0 0.0 0.0 0.0 0.0 0.0 Control 2 Colt 1000 ml/ha 275 8.8 26.3 52.5 47.5 53.8 65.0 3 Triathlon 1000 ml/ha 425 12.5 31.3 58.8 65.0 62.5 68.8 4 Bonanza 50 ml/ha 25 2.5 16.3 33.8 15.0 11.3 16.3 Elite 5 Velocity 400 ml/ha 103 2.5 25.0 55.0 63.8 70.0 75.0 Hasten 1 l/100 l 900 6 Velocity 670 ml/ha 172 5.0 27.5 52.5 56.3 66.8 76.3 Hasten 1 l/100 l 900 7 Velocity 670 ml/ha 172 8.8 32.5 63.8 71.3 83.5 86.8 LVE MCPA 350 ml/ha 200 570 Hasten 1 l/100 l 900 8 Velocity 200 ml/ha 51.4 15.0 32.5 63.8 80.0 77.5 82.5 Triathlon 500 ml/ha 213 Hasten 1 l/100 l 900 9 Velocity 300 ml/ha 77 17.5 31.3 75.0 90.0 88.3 91.3 Triathlon 750 ml/ha 320 Hasten 1 l/100 l 900 10 Velocity 400 ml/ha 103 15.0 38.8 75.0 91.8 95.8 96.5 Triathlon 1000 ml/ha 425 Hasten 1 l/100 l 900 11 Velocity 670 ml/ha 172 6.3 30.0 73.8 75.0 82.5 86.3 Bronco 400 225 ml/ha 90 Hasten 1 l/100 l 900 12 Velocity 670 ml/ha 172 6.3 30.0 76.3 86.3 86.8 87.8 Bonanza 50 ml/ha 25 Elite Bronco 400 225 ml/ha 90 Hasten 1 l/100 l 900 13 Toluron 700 640 ml/ha 450 1.3 0.0 7.5 2.5 2.5 5.0 14 Toluron 700 1290 ml/ha 900 2.5 5.0 2.5 2.5 5.0 2.5 15 Velocity 670 ml/ha 172 7.5 26.3 58.8 56.3 75.0 76.3 Toluron 700 640 ml/ha 450 Hasten 1 l/100 l 900 16 Velocity 670 ml/ha 172 8.8 26.3 58.8 75.0 82.0 85.8 Toluron 700 1290 ml/ha 900 Hasten 1 l/100 l 900 17 Precept 1500 ml/ha 234 12.5 21.3 52.5 50.0 73.8 77.5 Hasten 1 l/100 l 900 18 Precept 1500 ml/ha 234 11.3 23.8 47.5 72.5 78.8 84.5 Bonanza 50 ml/ha 25 Elite Hasten 1 l/100 l 900 19 Precept 1500 ml/ha 234 15.0 20.0 46.3 53.8 78.8 81.3 Toluron 700 640 ml/ha 450 Hasten 1 l/100 l 900 20 Precept 1500 ml/ha 234 17.5 13.8 45.0 55.0 73.8 80.0 Toluron 700 1290 ml/ha 900 Hasten l/100 l 900 DA-A = Days after application

[0141] The Velocity+Triathlon tank mixes gave a clear rate response. At the highest rate tested it was the best performing treatment with final control of 97% and a count of 0.4 surviving plants per m.sup.2. Velocity+LVE MCPA 570 was the best performing registered standard herbicide. Velocity+Triathlon at 400+1000 mL/ha respectively achieved more than 9% better efficacy than Velocity+LVE MCPA 570 with superior visual control coupled with significantly lower weed density. The combination of Velocity+Triathlon at 400+1000 mL/ha was also superior to other pyrasulfotole mixtures with Bronco 400 and Bronco 400 plus Bonanza, even when applied at higher rates of pyrasulfotole plus bromoxynil.

[0142] Velocity+Toluron 700 SC at 1290 mL/ha and Bonanza Elite mixed with Precept also controlled the multiple herbicide resistant wild radish, providing high levels of efficacy. The performance of these mixes was equivalent to the standard treatment, Velocity+LVE MCPA 570.

[0143] FIG. 1 shows percent control of wild radish expected and observed for Example 1, while FIG. 2 shows the Colby Ratios. All of the combinations according to the invention showed synergy in controlling wild radish.

Example 2

[0144] In this non-limiting example, a small plot trial was established in a commercial field near Walkaway, Wash. to evaluate the efficacy of new mixtures on multiple-herbicide resistant wild radish (Raphanus Raphanistrum) when applied post emergent in wheat (Triticum aestivum). Crop safety was also assessed for all treatments.

[0145] The product names were as listed in Table 1 above. The treatment details were as listed in Table 2 above.

[0146] Toluron 700 SC was applied at 640 and 1290 mL/ha on its own and in combination with Velocity at 670 mL/ha and separately with Precept at 1500 mL/ha. Velocity and Triathlon were mixed at rates of 200+500, 300+750 and 400+1000 mL/ha. Bonanza Elite at 50 mL/ha was mixed with Precept at 1500 mL/ha. These mixes were compared with commercial standards Colt at 1000 mL/ha, Triathlon at 1000 mL/ha, Velocity at 670 mL/ha±LVE MCPA 570 at 350 mL/ha and Precept at 1500 mL/ha. All treatments were applied using a spray volume of 100 L/ha to an established wheat crop at the beginning of stem elongation (BBCH 31) and wild radish population (BBCH 30, 15-20 cm diameter).

[0147] Crop phytotoxicity and weed control were assessed at 3, 7, 14, 28 and 41 days after application (DA-A). Weed density was counted at 50 DA-A and plot yield measured at 112 DA-A.

[0148] The wild radish population at the site is known to be difficult to control. It is suspected that the population had developing resistance to multiple herbicide modes of action groups including acetolactate synthase inhibitors, photosystem II inhibitors, phytoene desaturase inhibitors and synthetic auxins.

[0149] All treatments were safe to apply to Mace wheat at BBCH 31 under the growing conditions experienced at this site.

[0150] The percent control of wild radish is set out in Table 4.

TABLE-US-00004 TABLE 4 Wild radish (Raphanus raphanistrum) Percent Control Other Treatment - Evaluation Interval for Example 2 Trt Treatment Rate Rate 3 8 14 28 41 50 No. Name Rate Unit g/ai/ha DA-A DA-A DA-A DA-A DA-A DA-A 1 Untreated 0.0 0.0 0.0 0.0 0.0 0.0 Control 2 Colt 1000 ml/ha 275 16.3 35.0 65.0 61.3 57.7 57.5 3 Triathlon 1000 ml/ha 425 20.0 30.0 66.3 70.0 58.8 58.8 4 Bonanza 50 ml/ha 25 2.5 18.8 31.3 7.5 5.0 0.0 Elite 5 Velocity 400 ml/ha 103 2.5 22.5 61.3 56.3 55.0 57.5 Hasten 1 l/100 l 900 6 Velocity 670 ml/ha 172 7.5 30.0 66.3 65.0 72.5 66.3 Hasten 1 l/100 l 900 7 Velocity 670 ml/ha 172 18.8 30.0 71.3 81.3 80.0 72.5 LVE MCPA 350 ml/ha 200 570 Hasten 1 l/100 l 900 8 Velocity 200 ml/ha 51.4 16.3 25.0 73.8 80.0 75.0 72.5 Triathlon 500 ml/ha 213 Hasten 1 l/100 l 900 9 Velocity 300 ml/ha 77 17.5 27.5 75.0 86.3 82.5 80.0 Triathlon 750 ml/ha 320 Hasten 1 l/100 l 900 10 Velocity 400 ml/ha 103 17.5 27.5 77.5 94.5 92.5 88.5 Triathlon 1000 ml/ha 425 Hasten 1 l/100 l 900 11 Velocity 670 ml/ha 172 7.5 27.5 71.3 68.8 67.5 67.5 Bronco 400 225 ml/ha 90 Hasten 1 l/100 l 900 12 Velocity 670 ml/ha 172 7.5 30.0 78.8 82.5 81.3 81.3 Bonanza 50 ml/ha 25 Elite Bronco 400 225 ml/ha 90 Hasten 1 l/100 l 900 13 Toluron 700 640 ml/ha 450 3.8 10.0 5.0 2.5 7.5 0.0 14 Toluron 700 1290 ml/ha 900 7.5 10.0 10.0 11.3 20.0 0.0 15 Velocity 670 ml/ha 172 10.0 27.5 67.5 713 65.0 73.8 Toluron 700 640 ml/ha 450 Hasten 1 l/100 l 900 16 Velocity 670 ml/ha 172 10.0 27.5 73.8 70.0 68.8 72.5 Toluron 700 1290 ml/ha 900 Hasten 1 l/100 l 900 17 Precept 1500 ml/ha 234 10.0 13.8 55.0 65.0 68.8 70.0 Hasten 1 l/100 l 900 18 Precept 1500 ml/ha 234 16.3 22.5 66.3 85.0 77.5 81.3 Bonanza 50 ml/ha 25 Elite Hasten 1 l/100 l 900 19 Precept 1500 ml/ha 234 16.3 21.3 61.3 80.0 80.0 79.8 Toluron 700 640 ml/ha 450 Hasten 1 l/100 l 900 20 Precept 1500 ml/ha 234 16.3 21.3 65.0 77.5 65.0 75.0 Toluron 700 1290 ml/ha 900 Hasten l/100 l 900 DA-A = Days after application

[0151] Velocity+LVE MCPA 570 was the best performing registered standard herbicide. Colt and Triathlon were less effective and did not provide adequate control of the wild radish.

[0152] Velocity+Triathlon at 400+1000 mL/ha was significantly better than Velocity+LVE MCPA 570 and Precept, and was also superior to other pyrasulfotole mixtures with Bronco 400 and Bonanza, even at higher rates of pyrasulfotole.

[0153] Precept mixed with Toluron 700 SC at 640-1290 mL/ha was synergistic on multiple herbicide resistant wild radish. The performance of these mixes was equivalent to Velocity+LVE MCPA 570.

[0154] Toluron 700 SC applied solo gave poor control of wild radish.

[0155] FIG. 3 attached shows percent control of wild radish expected and observed for Example 2, while FIG. 4 shows the Colby Ratios. All of the combinations according to the invention showed synergy in controlling wild radish.

Example 3

[0156] The objective of the trial for this non-limiting example was to evaluate new herbicide mixtures for the control of bifora (Bifora testiculata), dense flowered fumitory (Fumaria and common vetch (Vicia sativa) in wheat cv. Scepter at Roseworthy, South Australia.

[0157] The product names were as listed in Table 1 above. The treatment details are listed in Table 5 below.

[0158] All herbicides were applied once the crop growth was at stage BBCH 31, when the majority of the bifora were at the 3-leaf stage. A total spray volume of 100 L/ha was applied using AirMix 110-015 nozzles.

[0159] A high population of bifora was present across the trial site at the time of application with 49 plants per square metre recorded in the untreated control. The wheat crop was at growth stage BBCH 31 when herbicide treatments were applied.

TABLE-US-00005 TABLE 5 Treatments for Example 3 Rate Product Active Ingredient No. Product (mL or g/ha) (g AI/ha) 1 Untreated control Nil Nil 2 Pixxaro + Uptake 300 mL + 500 mL/100 L  79.9 + 0.5% v/v 3 Triathlon 1000 mL 425 4 Velocity + Uptake 400 mL + 500 mL/100 L 102.76 + 0.5% v/v  5 Velocity + Uptake 670 mL + 500 mL/100 L 172.1 + 0.5% v/v 6 Velocity + LVE 670 mL + 350 mL + 500 mL/100 L 172.1 + 200 + 0.5% v/v MCPA 570 + Uptake 7 Precept + Uptake 1500 mL + 500 mL/100 L  234.4 + 0.5% v/v 8 Velocity + 670 mL + 300 mL + 500 mL/100 L 172.1 + 79.9 + 0.5% v/v Pixxaro + Uptake 9 Velocity + 400 mL + 1000 mL + 500 mL/100 L 102.76 + 425 + 0.5% v/v Triathlon + Uptake 10 Precept + 1500 mL + 300 mL + 500 mL/100 L 234.4 + 79.9 + 0.5% v/v Pixxaro + Uptake

[0160] All herbicide treatments were safe to wheat cv. Scepter under the conditions of this trial, with no grain yield penalties recorded.

[0161] Bifora Control

[0162] Percent control of bifora in wheat is shown in Table 6.

TABLE-US-00006 TABLE 6 Bifora (Bifora testiculata) control in wheat cv. Scepter, Roseworthy Bifora control (mean % relative to untreated control) Rate 3 7 13 35 45 No. Treatment (g ai/ha) DAA DAA DAA DAA DAA 1 Untreated Nil 0 0 0 0 0 control 2 Pixxaro{circumflex over ( )} 79.9 42 68 83 68 75 3 Triathlon 425 25 33 50 20 38 4 Velocity{circumflex over ( )} 102.76 0 15 58 58 48 5 Velocity{circumflex over ( )} 172.1 0 22 72 58 63 6 Precept{circumflex over ( )} 234.4 32 28 55 38 33 7 Tolurex 90 900 0 3 27 13 25 8 Velocity + 172.1 + 22 33 72 63 48 LVE MCPA 570{circumflex over ( )} 200 9 Velocity + 172.1 + 45 68 83 83 95 Pixxaro{circumflex over ( )} 79.9 10 Velocity + 102.76 + 30 43 70 53 52 Triathlon{circumflex over ( )} 425 11 Velocity + 172.1 + 0 18 67 43 53 Tolurex 90 900 12 Precept + 234.4 + 42 72 82 78 85 Pixxaro{circumflex over ( )} 79.9 {circumflex over ( )}= Treatment was applied with Uptake Spray Adjuvant at 500 mL/100 L DAA = Days after application

[0163] The efficacy of Pixxaro applied standalone declined over the 35DAA and 45DAA assessments. Both Pixxaro tank mix treatments with Velocity and Precept were synergistic and achieved superior control by 45DAA, with the Velocity combination recording a level of control that was significantly higher than all other treatments (FIGS. 5 and 6). Velocity at 400 mL/ha plus Triathlon at 1 L/ha provided rapid and synergistic early activity but declined over time.

[0164] Fumitory Control

[0165] Table 7 below shows percent control of fumitory in wheat.

TABLE-US-00007 TABLE 7 Dense-flowered fumitory (Fumaria densiflora) control in wheat cv. Scepter, Roseworthy Fumitory control (mean % relative to untreated control) Rate 3 7 13 35 45 No. Treatment (g ai/ha) DAA DAA DAA DAA DAA 1 Untreated Nil 0 0 0  0 0 control 2 Pixxaro{circumflex over ( )} 79.9 55 72 87 100 100 3 Triathlon 425 40 48 57  92 83 4 Velocity{circumflex over ( )} 102.76 0 15 25  25 25 5 Velocity{circumflex over ( )} 172.1 0 20 28  28 47 6 Precept{circumflex over ( )} 234.4 47 47 67 100 20 7 Tolurex 90 900 0 3 25  13 25 8 Velocity + 172.1 + 42 47 68 100 100 LVE MCPA 200 570{circumflex over ( )} 9 Velocity + 172.1 + 53 70 98 100 100 Pixxaro{circumflex over ( )} 79.9 10 Velocity + 102.76 + 40 55 72  55* 100 Triathlon{circumflex over ( )} 425 11 Velocity + 172.1 + 2 18 30  8 25 Tolurex 90{circumflex over ( )} 900 12 Precept + 234.4 + 52 72 88 100 92 Pixxaro{circumflex over ( )} 79.9 {circumflex over ( )}= Treatment was applied with Uptake Spray Adjuvant at 500 mL/100 L DAA = Days after application

[0166] By 45DAA Velocity plus Triathlon was synergistic and recorded complete control of fumitory, which was significantly greater than the same rate of Velocity applied standalone, and was equivalent to Triathlon applied standalone (FIG. 7).

[0167] Common Vetch Control

[0168] Table 8 below shows percent control of common vetch in wheat.

TABLE-US-00008 TABLE 8 Common vetch (Vicia sativa) control in wheat cv. Scepter, Roseworthy Common vetch control (mean % relative to untreated control) Rate 3 7 13 35 45 No. Treatment (g ai/ha) DAA DAA DAA DAA DAA 1 Untreated Nil 0 0 0 0 0 control 2 Pixxaro{circumflex over ( )} 79.9 33 62 80 83 90 3 Triathlon 425 20 38 43 53 70 4 Velocity{circumflex over ( )} 102.76 0 18 62 55 47 5 Velocity{circumflex over ( )} 172.1 0 23 70 63 67 6 Precept{circumflex over ( )} 234.4 27 38 50 65 55 7 Tolurex 90 900 0 3 32 13 25 8 Velocity + 172.1 + 18 42 65 65 58 LVE MCPA 570{circumflex over ( )} 200 9 Velocity + 172.1 + 33 60 83 88 93 Pixxaro{circumflex over ( )} 79.9 10 Velocity + 102.76 + 30 48 63 60 60 Pixxaro{circumflex over ( )} 425 11 Velocity + 172.1 + 0 23 65 53 58 Tolurex 90{circumflex over ( )} 900 12 Precept + 234.4 + 38 67 83 88 95 Pixxaro{circumflex over ( )} 79.9 {circumflex over ( )}= Treatment was applied with Uptake Spray Adjuvant at 500 mL/100 L DAA = Days after application

[0169] Velocity or Precept tank mixtures with Pixxaro were synergistic and provided the best control of common vetch (vetch). At 61DAA, Velocity+Pixxaro and Precept+Pixxaro were the most effective treatments on vetch, providing 96% and 100%, respectively (FIG. 8).

[0170] The tank mix of Velocity and Triathlon provided greater early efficacy on all weed species evaluated.

Example 4

[0171] This trial evaluated new HPPD herbicide mixtures for the control of bifora (Bifora testiculata) in wheat cv. Scepter at Kybunga, South Australia. All herbicides were applied at crop growth stage BBCH 23 when the majority of the bifora were at the 4-leaf stage. A spray volume of 100 L/ha was applied. Standalone and tank mix treatments were compared to standard treatments of Velocity applied with and without LVE MCPA 570.

[0172] The product names were as listed in Table 1 above. The treatment details are listed in Table 9 below.

TABLE-US-00009 TABLE 9 Treatments for Example 4 Rate Product Active Ingredient No. Product (mL or g/ha) (g AI/ha) 1 Untreated control Nil Nil 2 Pixxaro + Uptake 300 mL + 500 mL/100 L    79.9 + 0.5% v/v 3 Triathlon 1000 mL 425 4 Velocity + Uptake 400 mL + 500 mL/100 L  102.76 + 0.5% v/v 5 Velocity + Uptake 670 mL + 500 mL/100 L  172.1 + 0.5% v/v 6 Precept + Uptake 1500 mL + 500 mL/100 L   234.4 + 0.5% v/v 7 Tolurex 90 1000 g .sup.  900 8 Velocity + LVE MCPA 670 mL + 350 mL +     172.1 + 200 +  570 + Uptake 500 mL/100 L 0.5% v/v 9 Velocity + Pixxaro + 670 mL + 300 mL +     172.1 + 79.9 + Uptake 500 mL/100 L 0.5% v/v 10 Velocity + Triathlon + 400 mL + 1000 mL + .sup.   102.76 + 425 +.sup.  Uptake 500 mL/100 L 0.5% v/v 11 Velocity + Tolurex 90 + 670 mL + 1000 g +  .sup.  172.1 + 900 +  Uptake 500 mL/100 L 0.5% v/v 12 Precept + Pixxaro + 1500 mL + 300 mL +  .sup.   234.4 + 79.9 + Uptake 500 mL/100 L 0.5% v/v

[0173] A moderate population of bifora was present across the trial site at the time of application with 17 plants per square metre recorded in the untreated control. Most of the herbicide treatments did not record any significant reduction in crop vigour relative to the untreated control.

[0174] Bifora Control

[0175] Table 10 contains the results for the percent control of bifora in wheat.

[0176] By the final assessment, Velocity standard treatments of 670 mL/ha solo or applied with LVE MCPA controlled bifora. Velocity tank mixed with either Pixxaro, Triathlon or Tolurex 90 provided greater early control of bifora than Velocity alone. When applied alone, Tolurex 90 recorded low bifora suppression. Precept standalone recorded only moderate suppression of bifora, but the tank mix with Pixxaro provided significantly greater control throughout the trial.

TABLE-US-00010 TABLE 10 Bifora (Bifora testiculata) control in wheat cv. Scepter, Kybunga Rate Bifora control (mean % relative to untreated control) No. Treatment (g ai/ha) 2 DAA 8 DAA 15 DAA 21 DAA 27 DAA 44 DAA 1 Untreated Nil 0 0 0 0 0 0 control 2 Pixxaro{circumflex over ( )} 79.9 38 55 73 77 82 95 3 Triathlon 425 33 42 38 58 57 65 4 Velocity{circumflex over ( )} 102.76 0 23 63 65 70 90 5 Velocity{circumflex over ( )} 172.1 0 28 72 83 95 100 6 Precept{circumflex over ( )} 234.4 28 33 32 43 62 63 7 Tolurex 90 900 0 0 12 20 8 20 8 Velocity + 172.1 + 23 37 67 83 98 90 LVE MCPA 570{circumflex over ( )} 200 9 Velocity + 172.1 + 42 57 87 93 97 100 Pixxaro{circumflex over ( )} 79.9 10 Velocity + 102.76 + 30 52 87 95 95 98 Triathlon{circumflex over ( )} 425 11 Velocity + 172.1 + 0 28 88 93 100 100 Tolurex 90{circumflex over ( )} 900 12 Precept + 234.4 + 38 53 73 87 88 100 Pixxaro{circumflex over ( )} 79.9 {circumflex over ( )}= Treatment was applied with Uptake Spray Adjuvant at 500 mL/100 L DAA = Days after application

[0177] All herbicide treatments except Triathlon and Tolurex 90 recorded a significant reduction in bifora density compared to the untreated control. There were no further significant differences between any of these treatments for bifora density.

[0178] FIG. 9 attached shows percent control of bifora expected and observed for Example 4. FIG. 10 shows the Colby Ratios. All of the combinations according to the invention showed synergy in controlling bifora.

Example 5

[0179] A field trial was conducted near Pirrinuan, Queensland to evaluate herbicide mixtures on climbing buckwheat (Polygonum convolvulus) in cereals.

[0180] The purpose of the trial was to evaluate the efficacy of mixtures including Velocity and Precept with Pixxaro, Triathlon, Tolurex 90 and Flagship 400 and to compare efficacy with standards including Pixxaro and Velocity for control of climbing buckwheat and crop safety in wheat cv. Suntop.

[0181] The product names were as listed in Table 1 above. The treatment details are listed in Table 11 below.

TABLE-US-00011 TABLE 11 Treatments for Example 5 Trt Rate Rate No. Treatment Active Ingredients (gac/ha) (mL/ha) 1 Untreated — — — 2 Pixxaro{circumflex over ( )} 250 g/L fluroxypyr + 16.25 g/L halauxifen 79.9 300 3 Pixxaro{circumflex over ( )} 250 g/L fluroxypyr + 16.25 g/L halauxifen 106.5 400 4 Flagship 400 g/L fluroxypyr 100 250 400{circumflex over ( )} 5 Triathlon 25 g/L diflufenican + 250 g/L MCPA + 425 1000  150 g/L bromoxynil 6 Velocity{circumflex over ( )} 210 g/L bromoxynil + 37.5 g/L pyrasulfotole 99 400 7 Velocity{circumflex over ( )} 210 g/L bromoxynil + 37.5 g/L pyrasulfotole 123.75 500 8 Tolurex 90 900 g/kg chlorotoluron 450  500 g 9 Tolurex 90 900 g/kg chlorotoluron 900 1000 g 10 Velocity{circumflex over ( )} 210 g/L bromoxynil + 37.5 g/L pyrasulfotole 123.75 500 LVE MCPA 570 g/L MCPA EHE 200 350 11 Velocity{circumflex over ( )} 210 g/L bromoxynil + 37.5 g/L pyrasulfotole 123.75 500 Pixxaro 250 g/L fluroxypyr + 16.25 g/L halauxifen 79.9 300 12 Velocity{circumflex over ( )} 210 g/L bromoxynil + 37.5 g/L pyrasulfotole 123.75 500 Flagship 400 g/L fluroxypyr 100 250 400 13 Velocity{circumflex over ( )} 210 g/L bromoxynil + 37.5 g/L pyrasulfotole 99 400 Triathlon 25 g/L diflufenican + 250 g/L MCPA + 425 1000  150 g/L bromoxynil 14 Velocity{circumflex over ( )} 210 g/L bromoxynil + 37.5 g/L pyrasulfotole 123.75 500 Tolurex 90 900 g/kg chlorotoluron 900 1000 g 15 Precept{circumflex over ( )} 125 g/L MCPA + 25 g/L pyrasulfotole 150 1000  16 Precept{circumflex over ( )} 125 g/L MCPA + 25 g/L pyrasulfotole 150 1000  Pixxaro 250 g/L fluroxypyr + 16.25 g/L halauxifen 79.9 300 17 Precept{circumflex over ( )} 125 g/L MCPA + 25 g/L pyrasulfotole 150 1000  Flagship 400 g/L fluroxypyr 100 250 400 18 Precept{circumflex over ( )} 150 g/L fluroxypyr + 300 g/L bromoxynil 150 1000  Tolurex 90 900 g/kg chlorotoluron 450  500 g 19 Precept{circumflex over ( )} 150 g/L fluroxypyr + 300 g/L bromoxynil 150 1000  Tolurex 90 900 g/kg chlorotoluron 900 1000 g {circumflex over ( )}0.5% v/v Uptake

[0182] Climbing Buckwheat Control

[0183] Table 12 below shows percent control of climbing buckwheat in wheat.

TABLE-US-00012 TABLE 12 Percent control of climbing buckwheat in wheat Trt Rate 9 18 29 43 85 No. Treatment (mL pr/ha) DAA DAA DAA DAA DAA 1 Untreated — 0 0 0 0 0 2 Pixxaro{circumflex over ( )} 300 58 65 67 67 81 3 Pixxaro{circumflex over ( )} 400 57 63 68 68 91 4 Flagship 400{circumflex over ( )} 250 52 58 65 62 73 5 Triathlon 1000  50 62 72 78 59 6 Velocity{circumflex over ( )} 400 57 62 75 79 73 7 Velocity{circumflex over ( )} 500 57 72 78 87 86 8 Tolurex 90  500 g 3 7 10 23 0 9 Tolurex 90 1000 g 0 0 17 17 17 10 Velocity{circumflex over ( )} 500 62 70 72 75 68 LVE MCPA 350 11 Velocity{circumflex over ( )} 500 68 73 82 92 97 Pixxaro 300 12 Velocity{circumflex over ( )} 500 67 78 85 94 99 Flagship 400 250 13 Velocity{circumflex over ( )} 400 68 83 87 96 94 Triathlon 1000  14 Velocity{circumflex over ( )} 500 67 75 78 78 74 Tolurex 90 1000 g 15 Precept{circumflex over ( )} 1000  52 67 72 82 76 16 Precept{circumflex over ( )} 1000  63 75 80 93 100 Pixxaro 300 17 Precept{circumflex over ( )} 1000  62 75 80 94 99 Flagship 400 250 18 Precept{circumflex over ( )} 1000  57 68 77 77 88 Tolurex 90  500 g 19 Precept{circumflex over ( )} 1000  55 65 68 70 76 Tolurex 90 1000 g {circumflex over ( )}0.5% v/v Uptake

[0184] Greater than 95% control of 4 to 28 leaf climbing buckwheat was provided by Velocity+Pixxaro, Velocity+Flagship 400, Precept+Pixxaro and Precept+Flagship 400 at 85 days after application (DAA). Inclusion of Flagship 400 with Velocity and inclusion of Flagship 400 or Pixxaro with Precept significantly enhanced control of climbing buckwheat.

[0185] The results indicated that Velocity at 400 mL/ha plus Triathlon at 1 L/ha, Precept at 1 L/ha plus Pixxaro at 300 mL/ha, and Precept at 1 L/ha plus Tolurex 90 at 500 to 1000 g/ha were synergistic (FIGS. 11 and 12). There was also improved early activity of Velocity at 500 mL/ha when applied with Tolurex 90 at 1000 g/ha.

Example 6

[0186] This trial was established at Walkaway in Western Australia in 2019 and targeted up to six leaf wild radish as a post-emergent application in wheat cv. Calingiri.

[0187] The objective of this trial was to evaluate a range of HPPD products mixed with Triathlon for control of wild radish. HPPD products included were Velocity, Talinor, Mesoflex and Arietta. Tank mixture partners included Triathlon and even a combination of Velocity plus Mesoflex.

[0188] The product names were as listed in Table 1 above. The treatment details are listed in Table 13 below.

TABLE-US-00013 TABLE 13 Treatments for Example 6 Trt Treatment Product rate Rate No. Name (mL/ha) (g ac/ha) 1 Untreated Control 2 Velocity 670 ml/ha 172 g ai/ha LVE MCPA 570 350 ml/ha 200 g ai/ha Hasten 1 l/100 l 900 g ai/ha 3 Triathlon 500 ml/ha 213 g ai/ha 4 Triathlon 1000 ml/ha 425 g ai/ha 5 Velocity 400 ml/ha 103 g ai/ha Hasten 1 l/100 l 900 g ai/ha 6 Velocity 400 ml/ha 103 g ai/ha Triathlon 500 ml/ha 213 g ai/ha Hasten 1 l/100 l 900 g ai/ha 7 Velocity 400 ml/ha 103 g ai/ha Triathlon 1000 ml/ha 425 g ai/ha Hasten 1 l/100 l 900 g ai/ha 8 Talinor 400 ml/ha 89 g ai/ha Adigor 0.5 l/100 l   220 g ai/ha 9 Talinor 400 ml/ha 89 g ai/ha Triathlon 500 ml/ha 213 g ai/ha Adigor 0.5 l/100 l   220 g ai/ha 10 Talinor 400 ml/ha 89 g ai/ha Triathlon 1000 ml/ha 425 g ai/ha Adigor 0.5 l/100 l   220 g ai/ha 11 Mesoflex 52 ml/ha 25 g ai/ha AG-C6-060 210 ml/ha 12.6 g ai/ha Hasten 1 l/100 l 900 g ai/ha 12 Mesoflex 52 ml/ha 25 g ai/ha AG-C6-060 210 ml/ha 12.6 g ai/ha Triathlon 500 ml/ha 213 g ai/ha Hasten 1 l/100 l 900 g ai/ha 13 Mesoflex 52 ml/ha 25 g ai/ha AG-C6-060 210 ml/ha 12.6 g ai/ha Triathlon 1000 ml/ha 425 g ai/ha Hasten 1 l/100 l 900 g ai/ha 14 Velocity 400 ml/ha 103 g ai/ha Mesoflex 52 ml/ha 25 g ai/ha AG-C6-060 210 ml/ha 12.6 g ai/ha Hasten 1 l/100 l 900 g ai/ha 15 Arietta 36 ml/ha 12.1 g ai/ha AG-C6-060 EC 200 ml/ha 12 g ai/ha Hasten 1 l/100 l 900 g ai/ha 16 Arietta 36 ml/ha 12.1 g ai/ha AG-C6-060 EC 200 ml/ha 12 g ai/ha Triathlon 500 ml/ha 213 g ai/ha Hasten 1 l/100 l 900 g ai/ha 17 Arietta 36 ml/ha 12.1 g ai/ha AG-C6-060 EC 200 ml/ha 12 g ai/ha Triathlon 1000 ml/ha 425 g ai/ha Hasten 1 l/100 l 900 g ai/ha

[0189] All tank mixtures evaluated were synergistic by the final assessment (FIG. 13). Triathlon at 500 and 1000 mL/ha was synergistic with all four HPPD inhibitor products. Additionally, the combination of Velocity at 400 mL/ha plus Mesoflex at 52 mL/ha+AG-C6-060 EC at 210 mL/ha was also synergistic.

Example 7

[0190] This trial was established at West Casuarina in Western Australia in 2019 and targeted up to eight leaf wild radish with post-emergent applications of herbicides in a spray volume of 100 L/ha.

[0191] The objective of this trial was to evaluate a range of HPPD products mixed with Quadrant or Flight for control of wild radish. The product names were as listed in Table 1 above. HPPD products included were Velocity, Talinor and Mesoflex as per Table 14 below.

TABLE-US-00014 TABLE 14 Treatments for Example 7 Trt Treatment Product rate Rate No. Name (mL/ha) (g ac/ha) 1 Untreated Control 2 Velocity 670 ml/ha 172 g ai/ha LVE MCPA 570 350 ml/ha 200 g ai/ha Hasten 1 l/100 l 900 g ai/ha 3 Flight 360 ml/ha 214 g ai/ha 4 Flight 720 ml/ha 430 g ai/ha 5 Quadrant 600 ml/ha 312 g ai/ha 6 Velocity 400 ml/ha 103 g ai/ha Hasten 1 l/100 l 900 g ai/ha 7 Velocity 400 ml/ha 103 g ai/ha Flight 360 ml/ha 214 g ai/ha Hasten 1 l/100 l 900 g ai/ha 8 Velocity 400 ml/ha 103 g ai/ha Flight 720 ml/ha 430 g ai/ha Hasten 1 l/100 l 900 g ai/ha 9 Talinor 400 ml/ha 89 g ai/ha Adigor 0.5 l/100 l   220 g ai/ha 10 Talinor 400 ml/ha 89 g ai/ha Flight 360 ml/ha 214 g ai/ha Adigor 0.5 l/100 l   220 g ai/ha 11 Talinor 400 ml/ha 89 g ai/ha Flight 720 ml/ha 430 g ai/ha Adigor 0.5 l/100 l   220 g ai/ha 12 Mesoflex 52 ml/ha 25 g ai/ha AG-C6-060 210 ml/ha 12.6 g ai/ha Hasten 1 l/100 l 900 g ai/ha 13 Mesoflex 52 ml/ha 25 g ai/ha AG-C6-060 210 ml/ha 12.6 g ai/ha Flight 360 ml/ha 214 g ai/ha Hasten 1 l/100 l 900 g ai/ha 14 Mesoflex 52 ml/ha 25 g ai/ha AG-C6-060 210 ml/ha 12.6 g ai/ha Flight 720 ml/ha 430 g ai/ha Hasten 1 l/100 l 900 g ai/ha 15 Velocity 400 ml/ha 103 g ai/ha Quadrant 600 ml/ha 312 g ai/ha Hasten 1 l/100 l 900 g ai/ha 16 Talinor 400 ml/ha 89 g ai/ha Quadrant 600 ml/ha 312 g ai/ha Adigor 0.5 l/100 l   220 g ai/ha 17 Mesoflex 52 ml/ha 25 g ai/ha AG-C6-060 210 ml/ha 12.6 g ai/ha Quadrant 600 ml/ha 312 g ai/ha Hasten 1 l/100 l 900 g ai/ha

[0192] All tank mixtures evaluated were synergistic by the final assessment, except for Flight at 360 mL/ha or Quadrant at 600 mL/ha applied with Velocity at 400 mL/ha (FIG. 14).

Example 8

[0193] This trial was conducted at Balakava in South Australia in 2019 and evaluated HPPD mixtures with Elevore and Pixxaro. The HPPD inhibitor products included were Velocity, Precept, Talinor, Mesoflex and Arietta. The main target weeds were bifora and fumitory, with the treatments applied listed in Table 15 below. The product names were as listed in Table 1 above.

TABLE-US-00015 TABLE 15 Treatments for Example 8 Rate Product Active Ingredient No. Product (mL/ha) (g AI/ha) 1 Untreated control Nil Nil 2 Velocity* 670 172.1  3 Pixxaro* 200 53.25 4 Elevore*  48  3.28 5 Precept* 400 102.76  6 Velocity + Elevore* 400 + 48 102.76 + 3.28  7 Precept* 1500  234.4  8 Precept + Elevore* 1500 + 48  234.4 + 3.28 9 Talinor* 400 88.76 10 Talinor + Elevore* 400 + 48 88.76 + 3.28 11 Talinor + Pixxaro*  400 + 200 88.76 + 53.25 12 Mesoflex + AG-C6-060 EC + 52 + 210 + 25 + 12.5 + LVE MCPA 570* 220 125 13 Mesoflex + AG-C6-060 EC + 52 + 210 + 25 + 12.5 + LVE MCPA 570 + Elevore* 48 + 220 3.28 + 125 14 Mesoflex + AG-C6-060 EC + 52 + 210 + 25 + 12.5 + LVE MCPA 570 + Pixxaro* 200 + 220 53.25 + 125 15 Arietta + AG-C6-060 EC + 36 + 200 + 12 + 12 + LVE MCPA 570* 220 125 16 Arietta + AG-C6-060 EC + 36 + 200 + 12 + 12 + LVE MCPA 570 + Elevore* 48 + 220 3.28 + 125 17 Arietta + AG-C6-060 EC + 36 + 200 + 12 + 12 + LVE MCPA 570 + Pixxaro* 200 + 220 53.25 + 125 *= Treatment was applied with Uptake at 500 mL/100 L

[0194] Bifora Control

[0195] All HPPD mixtures were synergistic with Elevore and Pixxaro for bifora control by the third assessment timing, 16 days after application (FIGS. 15 and 16). Talinor, Mesoflex and Arietta+LVE MCPA 570 were synergistic on bifora when applied with Pixxaro, whether the effect was improving speed of activity or overall control.

[0196] Fumitory Control

[0197] Velocity was synergistic on fumitory when applied with Elevore (FIGS. 15 and 16). Talinor was synergistic on fumitory when applied with either Elevore or Pixxaro.

Example 9

[0198] This trial was conducted at Watchman in South Australia in 2019 and evaluated HPPD mixtures with Elevore, Flagship 400 and Pixxaro on dense flowered fumitory, volunteer lupins and wild radish at the 3 leaf to 3 tiller stage. The HPPD inhibitor products included were Velocity, Precept, Talinor and Arietta, treatment list is in Table 16 below. All treatments were applied as a foliar application. The product names were as listed in Table 1 above.

[0199] Weed control assessments were conducted up to 47 days after application.

TABLE-US-00016 TABLE 16 Treatments for Example 9 Product rate Active Ingredient No. Product (mL or g/ha) (g AI/ha) 1 Untreated control Nil Nil 2 Paradigm* 25 g 10 3 Velocity* 400 mL 102.76 4 Pixxaro* 200 mL 56.5 5 Flagship 400* 250 mL 100 6 Precept* 1000 mL 156.25 7 Elevore* 48 mL 3.28 8 Velocity + Flagship 400* 400 mL + 250 mL 102.76 + 100   9 Velocity + Elevore* 400 mL + 48 mL  102.76 + 3.28  10 Velocity + Pixxaro* 400 mL + 200 mL 102.76 + 56.5  11 Precept + Flagship 400* 1000 mL + 250 mL  156.25 + 100   12 Precept + Elevore* 1000 mL + 48 mL  156.25 + 3.28  13 Talinor* 400 mL 88.76 14 Talinor + Elevore* 400 mL + 48 mL  88.76 + 3.28 15 Talinor + Pixxaro 400 mL + 200 mL 88.76 + 56.5 16 Arietta + AG-C6-060 EC + 36 mL + 200 mL + 12 + 12 + 125 LVE MCPA 570* 220 mL 17 Arietta + AG-C6-060 EC + 36 mL + 200 mL + 12 + 12 + Flagship 400 + LVE MCPA 570* 250 mL + 220 mL 100 + 125 18 Arietta + AG-C6-060 EC + 36 mL + 200 mL + 12 + 12 + Elevore + LVE MCPA 570* 48 mL + 220 mL 3.28 + 125 19 Arietta + AG-C6-060 EC + 36 mL + 200 mL + 12 + 12 + Pixxaro + LVE MCPA 570* 200 mL + 220 mL 56.5 + 125 *Treatments applied with 0.5% v/v Uptake Spraying Oil

[0200] Fumitory Control

[0201] By the final assessment all combinations showed synergistic activity on fumitory at one or more assessment, except for Precept+Elevore (FIG. 17).

[0202] Lupin Control

[0203] By the final assessment all combinations showed synergistic activity on lupins at one or more assessment, except for Precept+Elevore (FIG. 18). Velocity combinations with Elevore or Pixxaro were strongly synergistic, with standalone components providing less than 50% control at the final assessment and the combinations providing 89% and 100% control, respectively. Elevore was synergistic with Velocity, Talinor and Arietta+LVE MCPA 570. Pixxaro was synergistic with Velocity and Talinor, but not Arietta+LVE MCPA 570.

[0204] Wild Radish Control

[0205] All combinations evaluated were synergistic at one or more assessments, providing improved early activity on wild radish or greater control at the final assessment (FIG. 19). The level of control provided by Arietta+LVE MCPA 570 was very high, with 100% control at 32 and 47 days after application. The addition of Flagship 400, Elevore or Pixxaro provided an increase in early weed control of Arietta+LVE MCPA 570 at the 11 days after application assessment.

Example 10

[0206] This trial was conducted at Balaklava in South Australia in 2019, with the objective of evaluating mixtures of Fox with various herbicides when applied post emergent in wheat cv. Scepter for control of bifora and fumitory.

[0207] The product names were as listed in Table 1 above. Table 17 contains the treatment list for Example 10.

TABLE-US-00017 TABLE 17 Treatments for Example 10 Trt Rate Product rate No. Treatment Active ingredient (g ai/ha) (mL or g/ha) 1 Untreated — — — 2 Affinity Force Carfentrazone-ethyl 240 g/L 24  100 MCPA 750 MCPA amine 750 g/L 247.5  330 3 Paradigm Florasulam 200 g/kg 5  25 Halauxifen-methyl 200 g/kg 5 LVE MCPA 570 MCPA 570 g/L 360  630 BS 1000 Surfactant 200 mL/100 L 4 Velocity Bromoxynil 210 g/L 84  400 Pyrasultotole 37.5 g/L 15 Mefenpyr-diethyl 9.4 g/L 3.76 Uptake Adjuvant 500 mL/100 L 5 Velocity Bromoxynil 210 g/L 140.7  670 Pyrasultotole 37.5 g/L 25.1 Mefenpyr-diethyl 9.4 g/L 6.3 Uptake Adjuvant 500 mL/100 L 6 Elevore Halauxifen-methyl 68.5 g/L 5  73 BS 1000 Surfactant 200 mL/100 L 7 Pixxaro Fluroxypyr 250 g/L 50  200 Halauxifen 16.25 g/L 3.25 Cloquintocet-mexyl 16.25 g/L 3.25 BS 1000 Surfactant 200 mL/100 L 8 Precept MCPA 125 g/L 125 1000 Pyrasultotole 25 g/L 25 Mefenpyr-diethyl 6.25 g/L 6.25 Uptake Adjuvant 500 mL/100 L 9 AD-AU-1826 Florasulam 200 g/L 5  25 BS 1000 Surfactant 200 mL/100 L 10 Fox Experimental 480 g/L 480 1000 11 Fox Experimental 480 g/L 720 1500 12 Fox Experimental 480 g/L 1440 3000 13 Fox Experimental 480 g/L 720 1500 MCPA 750 MCPA amine 750 g/L 247.5  330 14 Fox Experimental 480 g/L 480 1000 Velocity Bromoxynil 210 g/L 84  400 Pyrasultotole 37.5 g/L 15 Mefenpyr-diethyl 9.4 g/L 3.76 Uptake Adjuvant 500 mL/100 L 15 Fox Experimental 480 g/L 480 1000 Elevore Halauxifen-methyl 68.5 g/L 5  73 BS 1000 Surfactant 200 mL/100 L 16 Fox Experimental 480 g/L 480 1000 Pixxaro Fluroxypyr 250 g/L 50  200 Halauxifen 16.25 g/L 3.25 Cloquintocet-mexyl 16.25 g/L 3.25 BS 1000 Surfactant 200 mL/100 L 17 Fox Experimental 480 g/L 480 1000 Precept MCPA 125 g/L 125 1000 Pyrasultotole 25 g/L 25 Mefenpyr-diethyl 6.25 g/L 6.25 Uptake Adjuvant 500 mL/100 L 18 Fox Experimental 480 g/L 480 1000 AD-AU-1826 Florasulam 200 g/L 5  25 BS 1000 Surfactant 200 mL/100 L

[0208] The results for bifora are set out in FIG. 20. The results shown in FIG. 21 indicated that Fox was synergistic when applied with Velocity, Pixxaro or Precept.

Example 11

[0209] This trial was conducted at Walkaway in Western Australia in 2020, with the objective of evaluating mixtures of Racer with HPPD herbicides and bromoxynil and ioxynil mixtures in wheat cv. Scepter for control of wild radish. Herbicides were applied post emergent when the wild radish was at the 3 to 5 leaf stage.

[0210] The product names were as listed in Table 1 above. Table 18 contains the treatment list for Example 11.

TABLE-US-00018 TABLE 18 Treatments for Example 11 Trt Rate Product rate No. Treatment Active ingredient (g ai/ha) (mL or g/ha) 1 Untreated — — — 2 Velocity Bromoxynil 210 g/L 140.7 670 Pyrasultotole 37.5 g/L 25.1 Mefenpyr-diethyl 9.4 g/L 6.3 LVE MCPA 570 MCPA 570 g/L EC 251 440 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 3 Racer 250 EC Flurochloridone 250 g/L 25 100 4 Bronco 400 Bromoxynil 400 g/L 100 250 5 Bronco 400 Bromoxynil 400 g/L 200 500 6 Ioxynil 250 Ioxynil 250 g/L 100 400 7 Ioxynil 250 Ioxynil 250 g/L 200 800 8 Velocity Bromoxynil 210 g/L 105 500 Hasten Pyrasultotole 37.5 g/L 18.75 Mefenpyr-diethyl 9.4 g/L 4.7 Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 9 Velocity Bromoxynil 210 g/L 105 500 Pyrasultotole 37.5 g/L 18.75 Mefenpyr-diethyl 9.4 g/L 4.7 Racer 250 EC Flurochloridone 250 g/L 25 100 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 10 Velocity Bromoxynil 210 g/L 105 500 Pyrasultotole 37.5 g/L 18.75 Mefenpyr-diethyl 9.4 g/L 4.7 Ioxynil 250 Ioxynil 250 g/L 100 400 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 11 Velocity Bromoxynil 210 g/L 105 500 Pyrasultotole 37.5 g/L 18.75 Mefenpyr-diethyl 9.4 g/L 4.7 Racer 250 EC Flurochloridone 250 g/L 25 100 Ioxynil 250 Ioxynil 250 g/L 100 400 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 12 Frequency Topramezone 60 g/L 12 200 Cloquintocet-mexyl 60 g/L 12 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 13 Frequency Topramezone 60 g/L 12 200 Cloquintocet-mexyl 60 g/L 12 Racer 250 EC Flurochloridone 250 g/L 25 100 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 14 Frequency Topramezone 60 g/L 12 200 Cloquintocet-mexyl 60 g/L 12 Bronco 400 Bromoxynil 400 g/L 100 250 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 15 Frequency Topramezone 60 g/L 12 200 Cloquintocet-mexyl 60 g/L 12 Bronco 400 Bromoxynil 400 g/L 200 500 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 16 Frequency Topramezone 60 g/L 12 200 Cloquintocet-mexyl 60 g/L 12 Ioxynil 250 Ioxynil 250 g/L 100 400 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 17 Frequency Topramezone 60 g/L 12 200 Cloquintocet-mexyl 60 g/L 12 Racer 250 EC Flurochloridone 250 g/L 25 100 Bronco 400 Bromoxynil 400 g/L 100 250 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 18 Frequency Topramezone 60 g/L 12 200 Cloquintocet-mexyl 60 g/L 12 Racer 250 EC Flurochloridone 250 g/L 25 100 Ioxynil 250 Ioxynil 250 g/L 100 400 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 19 Frequency Topramezone 60 g/L 12 200 Cloquintocet-mexyl 60 g/L 12 Bronco 400 Bromoxynil 400 g/L 100 250 Ioxynil 250 Ioxynil 250 g/L 100 400 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L 20 Frequency Topramezone 60 g/L 12 200 Cloquintocet-mexyl 60 g/L 12 Racer 250 EC Flurochloridone 250 g/L 25 100 Bronco 400 Bromoxynil 400 g/L 100 250 Ioxynil 250 Ioxynil 250 g/L 100 400 Hasten Esterified vegetable oil 900 1 L/100 L 704 g/L + NIS 196 g/L

[0211] The percent control results are in FIG. 22. The results show that Racer provided synergistic control of wild radish when applied with Velocity alone or in combination with Ioxynil. Racer also provided synergistic control of wild radish when applied with Frequency alone or in combination with Ioxynil or Bronco 400. Frequency was also synergistic on wild radish when applied with both Ioxynil or Bronco 400.

Example 12

[0212] This trial was conducted near Brookstead Queensland in 2019 to evaluate a range of herbicide mixtures on deadnettle in wheat. Herbicides were applied post emergent when the deadnettle were at the 6 to 12 leaf growth stage.

[0213] The product names were as listed in Table 1 above. Table 19 contains the treatment list for Example 12.

TABLE-US-00019 TABLE 19 Treatments for Example 12 Trt Rate Product rate No. Treatment Active ingredient (g ai/ha) (mL or g/ha) 1 Untreated — — — 2 Velocity Bromoxynil 210 g/L 84 400 Pyrasultotole 37.5 g/L 15 Mefenpyr-diethyl 9.4 g/L 3.76 Uptake Adjuvant 500 mL/100 L 3 Pixxaro Fluroxypyr 250 g/L 37.5 150 Halauxifen 16.25 g/L 2.44 Cloquintocet-mexyl 16.25 g/L 2.44 Uptake Adjuvant 500 mL/100 L 4 Pixxaro Fluroxypyr 250 g/L 75 300 Halauxifen 16.25 g/L 4.88 Cloquintocet-mexyl 16.25 g/L 4.88 Uptake Adjuvant 500 mL/100 L 5 Flagship 400 Fluroxypyr 400 g/L 100 250 Uptake Adjuvant 500 mL/100 L 6 Precept MCPA 125 g/L 125 1000  Pyrasultotole 25 g/L 25 Mefenpyr-diethyl 6.25 g/L 6.25 Uptake Adjuvant 500 mL/100 L 7 Elevore Halauxifen-methyl 68.5 g/L 2.47  36 Uptake Adjuvant 500 mL/100 L 8 Velocity Bromoxynil 210 g/L 84 400 Pyrasultotole 37.5 g/L 15 Mefenpyr-diethyl 9.4 g/L 3.76 Elevore Halauxifen-methyl 68.5 g/L 2.47  36 Uptake Adjuvant 500 mL/100 L 9 Precept MCPA 125 g/L 125 1000  Pyrasultotole 25 g/L 25 Mefenpyr-diethyl 6.25 g/L 6.25 Elevore Halauxifen-methyl 68.5 g/L 2.47  36 Uptake Adjuvant 500 mL/100 L 10 Talinor Bicyclopyrone 37.5 g/L 15 400 Bromoxynil 175 g/L 70 Cloquintocet-mexyl 9.4 g/L 3.76 Uptake Adjuvant 500 mL/100 L 11 Talinor Bicyclopyrone 37.5 g/L 15 400 Bromoxynil 175 g/L 70 Cloquintocet-mexyl 9.4 g/L 3.76 Elevore Halauxifen-methyl 68.5 g/L 2.47  36 Uptake Adjuvant 500 mL/100 L 12 Talinor Bicyclopyrone 37.5 g/L 15 400 Bromoxynil 175 g/L 70 Cloquintocet-mexyl 9.4 g/L 3.76 Flagship 400 Fluroxypyr 400 g/L 100 250 Uptake Adjuvant 500 mL/100 L 13 Talinor Bicyclopyrone 37.5 g/L 15 400 Bromoxynil 175 g/L 70 Cloquintocet-mexyl 9.4 g/L 3.76 Pixxaro Fluroxypyr 250 g/L 37.5 150 Halauxifen 16.25 g/L 2.44 Cloquintocet-mexyl 16.25 g/L 2.44 Uptake Adjuvant 500 mL/100 L 14 Mesoflex Experimental 480 g/L 25  52 AG-C6-060 EC Cloquintocet-mexyl 60 g/L 12.5 210 LVE MCPA 570 MCPA ester 570 g/L 125 220 Uptake Adjuvant 500 mL/100 L 15 Mesoflex Experimental 480 g/L 25  52 AG-C6-060 EC Cloquintocet-mexyl 60 g/L 12.5 210 LVE MCPA 570 MCPA ester 570 g/L 125 220 Elevore Halauxifen-methyl 68.5 g/L 2.47  36 Uptake Adjuvant 500 mL/100 L 16 Mesoflex Experimental 480 g/L 25  52 AG-C6-060 EC Cloquintocet-mexyl 60 g/L 12.5 210 LVE MCPA 570 MCPA ester 570 g/L 125 220 Pixxaro Fluroxypyr 250 g/L 37.5 150 Halauxifen 16.25 g/L 2.44 Cloquintocet-mexyl 16.25 g/L 2.44 Uptake Adjuvant 500 mL/100 L 17 Arietta Topramezone 336 g/L 12  36 AG-C6-060 EC Cloquintocet-mexyl 60 g/L 12 200 LVE MCPA 570 MCPA ester 570 g/L 125 220 Uptake Adjuvant 500 mL/100 L 18 Arietta Topramezone 336 g/L 12  36 AG-C6-060 EC Cloquintocet-mexyl 60 g/L 12 200 LVE MCPA 570 MCPA ester 570 g/L 125 220 Elevore Halauxifen-methyl 68.5 g/L 2.47  36 Uptake Adjuvant 500 mL/100 L Arietta Topramezone 336 g/L 12  36 AG-C6-060 EC Cloquintocet-mexyl 60 g/L 12 200 19 LVE MCPA 570 MCPA ester 570 g/L 125 220 Flagship 400 Fluroxypyr 400 g/L 100 250 Uptake Adjuvant 500 mL/100 L 20 Arietta Topramezone 336 g/L 12  36 AG-C6-060 EC Cloquintocet-mexyl 60 g/L 12 200 LVE MCPA 570 MCPA ester 570 g/L 125 220 Pixxaro Fluroxypyr 250 g/L 37.5 150 Halauxifen 16.25 g/L 2.44 Cloquintocet-mexyl 16.25 g/L 2.44 Uptake Adjuvant 500 mL/100 L

[0214] The percent control results are in FIG. 23. The results show that Elevore provided synergistic control of deadnettle when applied with Velocity, Precept, Talinor, Mesoflex+LVE MCPA 570+AG-C6-060 EC or Arietta+LVE MCPA 570+AG-C6-060 EC. In addition, Pixxaro provided synergistic control of deadnettle when applied with Mesoflex+LVE MCPA 570+AG-C6-060 EC or Arietta+LVE MCPA 570+AG-C6-060 EC. Arietta+LVE MCPA 570+AG-C6-060 EC was also synergistic with Flagship 400.

INDUSTRIAL APPLICABILITY

[0215] The new synergistic HPPD combinations disclosed herein may improve weed species control in cereal crops at an early stage after application, reducing weed competition and enhancing grain yield.

[0216] The new synergistic HPPD combinations may also control hard-to-kill weeds and herbicide resistant weeds, often being highly effective at reduced application rates compared to prior art rates.