Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Herbicide Classification and Mode of Action
Document related concepts
Photosynthesis wikipedia , lookup
Clinical neurochemistry wikipedia , lookup
Peptide synthesis wikipedia , lookup
Biochemistry wikipedia , lookup
Plant breeding wikipedia , lookup
Amino acid synthesis wikipedia , lookup
Enzyme inhibitor wikipedia , lookup
Plant nutrition wikipedia , lookup
Biosynthesis wikipedia , lookup
Discovery and development of neuraminidase inhibitors wikipedia , lookup
Transcript
Herbicide Classification and Mode of Action William E. Dyer Department of Plant Sciences [email protected] Classification can be based on: 1. Chemical structure or family 2-choro-N-[[(4-methoxy-6-methyl-1,3,5triazin-2-yl)amino]carbonyl]benzenesulfonamide 2. Cropping system or ecosystem 3. Mode of action = the plant process or pathway inhibited by the herbicide Why Know Herbicide Modes of Action? • Better understanding of how herbicides perform • Improve herbicide performance • Diagnose herbicide injury • Prevent and manage herbicide resistance Herbicide Mode of Action Movement Absorption Contact Site of Action Toxicity Site of Absorption and Translocation Phloem (Roundup) Rangeland herbicides Xylem and Phloem Foliar Contact (Gramoxone) Root Contact (Treflan) (Banvel, Tordon) Xylem (Spike) Herbicide Classification - Selectivity • Selective: controls or suppresses one species of plant without seriously affecting the growth of another plant species – 2,4-D • Nonselective: control plants regardless of species – Roundup Some Things to Remember…. • Photosynthesis (food) • Pigments (energy/light capture) • Respiration (energy) • Amino acids (proteins/growth) • Lipids (cell membranes) • Hormones (auxin and others) Classification by Mode of Action Group 1) Lipid Biosynthesis Inhibitors 2) Amino Acid Biosynthesis Inhibitors 3) Cell Division Inhibitors 4) Synthetic Auxins 5,6,7) Photosynthesis Inhibitors 9) EPSP Synthase Inhibitor 14) Pigment Inhibitors 22) Membrane Disruptors 16,17,26) Unknown Herbicide Mode of Action Groups Group 1: Lipid synthesis inhibitors (“grass killers”) Block ACCase enzyme Trade Names: Hoelon, Fusilade, Poast, Axial, Puma, Assure Symptoms Mechanism of resistance: Altered target site Altered target site The normal situation A resistant enzyme Herbicide Mode of Action Groups Group 2: Amino acid synthesis inhibitors; blocks ALS enzyme Trade names: Glean, Telar, Finesse, Muster, Permit, Ally, Escort, Canvas, Finesse, Accent, Basis, Beacon, Exceed, Peak, Matrix, Oust, Maverick, Harmony, Pinnacle, Cheyenne, Reliance, Amber, Rave, Upbeet, Arsenal, Assert, Lightning, Motive, Plateau, Pursuit, Raptor, Sceptor, Broadstrike, FirstRate, StrongArm, Python • Translocates to new growth in xylem and phloem • Plants stop growing shortly after application, but plant death may be slow (10+ days) Mechanism of Resistance: altered target site ALS Inhibitor Symptoms Stunting Chlorosis of youngest tissue Chlorosis of youngest tissue Plateau Injury Symptoms Herbicide Mode of Action Groups Group 4: Synthetic auxins Overwhelm natural auxin pathways Trade names: 2,4-D, MCPA, Banvel, Clarity, Milestone, Perspective, Tordon, Stinger, Curtail, Transline, Starane, Garlon, Remedy, Renovate, Paramount, Drive • Translocates in both xylem and phloem • Symptoms most obvious in new growth • Selectively kill broadleaf plants • Soil residue varies from a few days to several years Mechanism of Resistance: ??? Synthetic Auxin Symptoms Phenoxy drift on tomato Ohio State University Phenoxy on Red Oak University of Illinois extension Benzoic acid on soybean Photo: HMOA and Crop Injury Symptoms Univ. of Minnesota Extension Pyrdine on tomato Washington State University Extension Synthetic Auxin Symptoms Twisting needles due to drift of triclopyr Herbicide Mode of Action Groups Groups 5,6,7: Photosystem II inhibitors Block photosynthesis Trade names: Aatrex, Princep, Simazine, Velpar, Sencor, Hyvar X, Sinbar, Basagran, Buctril, Bronate, Karmex, Direx, Lorox, Linex, Spike • Injures old growth first, moves only upward in xylem • Injury symptoms: yellowing (chlorosis) of leaf tissue followed by death (necrosis) of the tissue Mechanism of Resistance: altered target site Injury from PSII herbicide Interveinal chlorosis Leaves necrotic Interveinal, tip, and margin chlorosis Consequences of photosynthetic inhibition Herbicide Mode of Action Groups Group 9: Glycines (glyphosate) Inhibit amino acid biosynthesis Trade names: Roundup, Gallup, Kleenup, Landmaster, Pondmaster, Ranger, Rodeo, Touchdown • Translocates to new growth in xylem and phloem • Plants stop growing shortly after application, but plant death may be slow (10+ days) Mechanism of Resistance: reduced translocation, gene amplification Glyphosate Injury Symptoms chlorosis shortened internodes stem proliferation Herbicide Mode of Action Groups Group 22: Bipyridiliums (paraquat) Divert electrons from photosynthesis Trade names: Reglone, Gramoxone, Scythe, many others Mechanism of Resistance: enhanced detoxification Symptoms Other Herbicide Mode of Action Families Group 3: Microtubule assembly inhibitors Group 14: Protox inhibitors Group 15: Long chain fatty acid synthesis inhibitors Groups 16,17,26: Unknown Why aren’t there any new herbicides? • All herbicides now on the market were discovered by accident. • Half of all current herbicides inhibit one of only three target enzymes. Banvel-resistant kochia • New ‘target-based’ technologies MAY lead to new herbicides. R S R More Information? http://msuextension.org/publications/Ag andNaturalResources/MT200506AG .pdf
