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AUTHOR
Tim R. Murphy
The University of Georgia
Crop and Soil Sciences

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TABLE OF CONTENTS
  1. Turfgrass Herbicide Families & Mode-of-Action
  2. Herbicide Mode-of-Action
  3. Mode of Action
  4. Herbicide Mode-of-Action
  5. Why understand herbicide MOA?
  6. Herbicide Classification
  7. Herbicide Classification - Selectivity
  8. Herbicide Classification - Selectivity
  9. Xylem; Phloem
  10. Xylem; Phloem
  11. Herbicide Movement in Plants
  12. Mode-of-Action
  13. Plant leaf cuticle
  14. Cell
  15. Plant Processes Affected by Turfgrass Herbicides
  16. Photosynthesis
  17. Triazines
  18. Photosynthetic Inhibitors
  19. Ethofumesate
  20. Bentazon
  21. Photosynthesis Inhibitors
  22. Bladex; Cotoran
  23. Amino acids
  24. Amino Acid Synthesis Inhibitors
  25. Amino Acid Synthesis Inhibitors
  26. Imidazolinones
  27. Image on bermuda
  28. Sulfonylureas
  29. Sulfonylureas
  30. Pyrimidunyloxybenzoic
  31. Glyphosate
  32. Dormant zoysiagrass
  33. Green under dormant zoysiagrass
  34. Dormant zoysiagrass spot sprayed with Roundup
  35. Cell Division
  36. Dinitroanilines
  37. Dithiopyr
  38. DNA Root inhibition
  39. DNA Root inhibition
  40. Asulam
  41. Pronamide
  42. Cell Membranes
  43. Diquat
  44. Glufosinate
  45. Cell Membrane Disrupters
  46. Organic Arsenicals
  47. MSMA on zoysia
  48. MSMA injury on tall fescue
  49. Tee infested with Texas sedge
  50. Texas sedge tee after treatment with MSMA
  51. Oxadiazon
  52. Oxadiazon (Ronstar)
  53. Ronstar 2G and 50WSP - At Sprigging
  54. Carfentrazone
  55. Carfentrazone
  56. Sulfentrazone
  57. Carfentrazone and Sulfentrazone
  58. Growth Regulation
  59. Growth Regulator Herbicides
  60. Growth Regulator Herbicides
  61. Phenoxy, Benzoic Acid, Picolinic Acid
  62. Quinclorac
  63. Drive on crabgrass, 7 days after treatment
  64. Phenoxy, Benzoic Acid, Picolinic Acid
  65. Growth Regulator Herbicides
  66. 2,4-D overdose on St. Augustinegrass
  67. 2,4-D Injury on Soybean
  68. Growth Inhibition
  69. Growth Inhibitors
  70. Growth Inhibitors
  71. Growth Inhibitors
  72. Growth Inhibitors
  73. Fatty Acid Synthesis
  74. Fatty Acid Inhibitors
  75. Fatty Acid Inhibitors
  76. Fatty Acid Inhibitors
  77. Fatty Acid Synthesis Inhibitors - Grass Herbicides
  78. Fatty Acid Synthesis Inhibitors
  79. Rotted meristem
  80. georgiaturf.com



SLIDE CONTENTS
  1. Turfgrass Herbicide Families & Mode-of-Action Tim R. Murphy The University of Georgia
  2. Mode-of-Action - The entire sequence of events that happen from the time the herbicide is absorbed to the eventual plant response (usually death). Herbicide Mode-of Action
  3. Mode of Action Three phases Absorption Movement to target site Inhibit biochemical reaction
  4. Herbicide Mode-of-Action The way a herbicide kills or inhibits the growth of susceptible plants!!
  5. Why understand herbicide MOA? Better understanding of how herbicides perform. Diagnosing herbicide injury. Professionalism. Public relations.
  6. Herbicide Classification Selectivity Herbicide movement in plants Timing of application Chemical Family Mode of Action
  7. Herbicide Classification - Selectivity Selective controls or suppresses one species of plant without seriously affecting the growth of another plant species. Example 2,4-D will control many broadleaf weeds without seriously affecting turfgrasses.
  8. Herbicide Classification - Selectivity Nonselective Nonselective herbicides control plants regardless of species. Examples Roundup Pro, Finale, Reward, Scythe
  9. Xylem - nonliving tissue in a plant that transports water and mineral nutrients from the roots to the shoots. Phloem - living tissue that transports sugars from the site of synthesis or storage to the site of use.
  10. Phloem mobile herbicides move up and down in the plant Xylem mobile herbicides move up in the plant Contact herbicides do not move in the plant Translocated herbicides move.
  11. Contact Rupture cell membranes. Symptoms appear within hours. Need complete coverage for kill. Xylem Mobile Taken up by primarily by roots. Found in older leaves that are exporting sugars. Do not move downward when foliar applied. Phloem Mobile Move to points of active growth or food storage. Affect shoot tips, young buds and leaves. Can cause contact burn. Herbicide Movement in Plants
  12. Mode-of-Action Retention Absorption Translocation to active cell site Inhibit biochemical reaction Plant metabolism or breakdown
  13. Plant leaf cuticle.
  14. Plant Processes Affected by Turfgrass Herbicides Photosynthesis Amino acid and protein synthesis Cell division Cell membranes Growth regulation Growth inhibition Fatty acid synthesis
  15. Photosynthesis CO2 + H2O + Sunlight = C6H12O6 OR Carbon dioxide + water + sunlight will yield Sugar
  16. Triazines Atrazine – Aatrex, Simazine - Princep Metribuzin – Sencor Used only on warm-season turfgrasses Root and shoot absorbed (except simazine) Inhibits photosynthesis, eventual membrane disruption, requires light Pre and Post control
  17. Light and active photosynthesis needed for activity These herbicides interrupt energy flow resulting in free radicals Free radicals react with cell membranes Photosynthetic inhibitors Atrazine on bentgrass Atrazine, simazine, Sencor
  18. Ethofumesate Prograss cool-season grasses and overseeded bermudagrass primarily shoot absorbed, some by roots not well absorbed after leaf cuticle is formed translocated if root or shoot absorbed appears to inhibit photosynthesis and respiration, not well understood
  19. Bentazon Basagran T/O All warm- and cool-season turfgrasses contact, foliage absorbed limited translocation can move in xylem if root absorbed inhibits photosynthetic electron transport
  20. Photosynthesis Inhibitors Symptomology Interveinal or veinal yellowing followed by death of plant tissue from leaf margins inward POST applications cause rapid browning of plant tissue
  21. Bladex Cotoran Source: W. K. Vencill, UGA
  22. Amino acids Building blocks of plant proteins Enzymes mediate biochemical reactions Storage roles - seed reserves Structural roles
  23. Amino Acid Synthesis Inhibitors Characteristics Most of these herbicides have soil and foliar activity except glyphosate Undergo significant translocation Soil residual activity herbicide-dependent Generally, low use-rate herbicides
  24. Amino Acid Synthesis Inhibitors Symptomology Injury symptoms on grass include stunting, purple coloration, and inhibited root systems with “bottle-brush” appearance Broadleaf plant symptomology includes formation of red or purple leaf veins, yellowing of new leaf tissue and blackening of terminal growth Glyphosate injury includes initial yellowing followed by death of affected tissue
  25. Imidazolinones Image, Plateau warm-season grasses, except bahiagrass rapid shoot and root absorption translocates to meristematic areas inhibits leucine, isoleucine and valine synthesis growth is impaired and plants die over 1 to 3 wk period
  26. Image on bermuda
  27. Sulfonylureas Manor, Corsair, SedgeHammer,TranXit, Monument, Revolver, Certainty rapid shoot and root absorption translocates to meristematic areas inhibits leucine, isoleucine and valine synthesis growth is impaired and plants die over 1 to 3 wk period
  28. Sulfonylureas Manor, Blade – warm-season grasses, except bahiagrass; also on Ky. Bluegrass Corsair – Ky. Bluegrass, bahiagrass, bermudagrass SedgeHammer– all warm- and cool-season turfgrasses Revolver – bermuda, ‘Meyer’ zoysia Monument – bermuda, zoysia TranXit – bermuda, zoysia, centipede, overseeded bermudagrass Certainty – bermuda, zoysia, centipede, St. Augustine
  29. Pyrimidunyloxybenzoic Velocity Overseeded bermudagrass rapid shoot and root absorption Translocated via phloem inhibits leucine, isoleucine and valine synthesis growth is impaired and plants die over 2 to 3 wk period
  30. Glyphosate Isopropylamine salt - Roundup Pro , GlyphoMate 41, Razor Pro, Prosecutor Ammonium salt - Roundup ProDry Diammonium salt - TouchDown Pro foliage absorbed extensively translocated in phloem inhibits tryptophan, tyrosine and phenylalanine synthesis growth is impaired and plants die over 1 to 3 wk period
  31. “dormant” zoysiagrass
  32. Green under “dormant” zoysiagrass
  33. “Dormant zoysiagrass” spot sprayed with Roundup
  34. Cell Division Plant growth is due to cell division and cell elongation.
  35. Dinitroanilines Benefin - Balan Oryzalin - Surflan Pendimethalin - Pendulum Prodiamine - Barricade Trifluralin - Treflan Shoot and root absorbed, no translocation Inhibit cell division (tubulin formation) Used on most warm- and cool-season turfgrasses
  36. Dithiopyr Dimension MOA is similar to dinitroanilines Shoot and root absorbed, no translocation Inhibit cell division (tubulin formation) Has POST activity on seedling crabgrass Used on most warm- and cool-season turfgrasses
  37. DNA Root inhibition pendimethalin on zoysiagrass Dimension on bermudagrass Surflan on St. Augustinegrass Swollen, club shaped roots
  38. Asulam Asulox readily absorbed by foliage, minor root absorption translocates in phloem and xylem inhibits cell division also inhibits RNA and protein synthesis used on St. Augustinegrass and ‘Tifway’ bermudagrass
  39. Pronamide Kerb root absorbed, translocated in xylem controls emerged cool-season grasses inhibits cell division Used only on warm-season turfgrasses
  40. Cell Membranes Contain the cellular contents and regulate the entry and exit of substances that promote or inhibit plant metabolism
  41. Diquat Reward LS contact, very rapidly absorbed,does not translocate requires light for activity disrupts electron flow in photosynthesis leads to formation of free radicals which damages cell membranes cellular fluids leak, followed by death used on dormant bermudagrass
  42. Glufosinate Finale readily absorbed by leaves primarily contact activity, limited translocation inhibits key enzyme involved in conversion of ammonia into amino acids toxic levels of ammonia build up, causes cell membrane disruption, interferes with photosynthesis used on dormant bermudagrass
  43. Cell Membrane Disrupters Damage occurs within hours. Membrane destruction. No redistribution Complete coverage for kill. Finale on zoysia Finale, Reward, Paraquat
  44. Organic Arsenicals MSMA, DSMA, CMA, CAMA foliage absorbed Mobile in xylem and phloem Not well understood, rapid desiccation indicates cell membrane destruction Used on cool-season grasses, bermuda and zoysiagrass
  45. Leaf burn on broadleaves and grasses with yellow leaf tips on grasses Terminal yellowing of grasses MSMA on zoysia
  46. MSMA injury on tall fescue
  47. Tee infested with Texas sedge
  48. Texas sedge tee after treatment with MSMA
  49. Oxadiazon Ronstar all turfgrasses, except centipede readily shoot absorbed, less so by roots can be foliage absorbed, “contact burn” does not significantly translocate Light required inhibits key enzyme in chlorophyll synthesis, toxic radicals formed, disrupts cell membranes
  50. Oxadiazon (Ronstar) PRE 2G – Ky. Bluegrass, Bermuda, seashore paspalum, t. fescue, zoysia, St. Augustine 50WSP – bermuda, St. Augustine, zoysia Annual grasses, selected broadleaves
  51. Ronstar 2G and 50WSP - At Sprigging Apply immediately before or after sprigging bermudagrass and zoysiagrass Pre-sprigging (1 day before sprigging slightly safer than post-sprigging) Irrigate ASAP for best results
  52. Carfentrazone QuickSilver Contact, quickly absorbed Fast-acting Inhibits enzyme (protoporphyrinogen oxidase) in chlorophyll synthesis pathway. Leads to formation of toxic intermediates which disrupt cell membranes.
  53. Carfentrazone Sold with phenoxy herbicides and dicamba as PowerZone and SpeedZone All turfgrasses does not significantly translocate
  54. Sulfentrazone Dismiss Root and shoot absorbed Fast-acting Inhibits enzyme (protoporphyrinogen oxidase) in chlorophyll synthesis pathway. Leads to formation of toxic intermediates which disrupt cell membranes.
  55. Carfentrazone and Sulfentrazone Carfentrazone – POST, all turfgrassses Sulfentrazone – PRE, although does have POST activity
  56. Growth Regulation Naturally produced hormones (auxins, cytokinins, gibberellins, others) are involved in the regulation of normal growth and development.
  57. Growth Regulator Herbicides These herbicides affect several plant processes such as cell division, cell enlargement, protein synthesis and respiration. They act by upsetting the normal hormonal balance in plants.
  58. Growth Regulator Herbicides Phenoxys 2,4-D, dichlorprop mecoprop, MCPA Benzoics Banvel, Vanquish Picolinic Acids Confront Turflon Lontrel SpotLight Quinolinecarboxylic Drive Trimec on bermuda
  59. Phenoxy, Benzoic Acid, Picolinic Acid readily absorbed by foliage, less so by roots extensively translocated interfere with DNA, RNA and protein synthesis results in uncontrolled cell division and elongation vascular tissues are plugged, 1 to 3 wks
  60. Quinclorac Drive shoot and root absorbed readily translocates in xylem and phloem MOA not fully understood Broadleaf's - alters auxin levels Grasses - affects cell wall synthesis, increases cyanide and ethylene production Used on tall fescue, zoysia and bermudagrass, Ky bluegrass
  61. Drive on crabgrass, 7 days after treatment
  62. Phenoxy, Benzoic Acid, Picolinic Acid Phenoxies – used on cool- and warm season turfgrasses, except St. Augustine Benzoic acids - used on cool- and warm season turfgrasses Lontrel – all cool- and warm-season grasses Confront – cool- and warm-season grasses, except St. Augustine Turflon – Ky. Bluegrass and tall fescue
  63. Growth Regulator Herbicides Symptomology Broadleaf plant stem twisting and curling Leaves on broadleaf plants exhibit cupping, crinkling, strapping, or drawstring affect Symptoms on grass plants include leaf rolling, crinkling, brace root fusion and malformation.
  64. 2,4-D overdose on St. Augustinegrass
  65. 2,4-D Injury on Soybean
  66. Growth Inhibition Exact MOA not known Inhibit root and shoot growth Disrupt cell division, cell enlargement Also may disrupt lipid synthesis, nucleic acid and protein synthesis
  67. Growth Inhibitors Bensulide - Betasan, Pre-San root absorbed, essentially no translocation disrupts cell division and enlargement Metolachor - Pennant mainly shoot absorbed, some root uptake translocates in xylem inhibit root and shoot growth disrupts protein, fatty acid and lipid synthesis
  68. Growth Inhibitors Bensulide - Betasan, Pre-San Cool- and warm-season turfgrasses Metolachor – Pennant Only on warm-season turfgrasses
  69. Growth Inhibitors Siduron - Tupersan readily absorbed by roots, translocated in xylem inhibits root growth, may disrupt mitosis Used only on cool-season turfgrasses and zoysiagrass
  70. Growth Inhibitors Gallery rapidly absorbed by roots, minimal foliage absorption moves in xylem inhibits cell wall biosynthesis Used on all cool- and warm-season turfgrasses
  71. Fatty Acid Synthesis Fatty acids are important components of cell membranes Inhibition fatty acid synthesis blocks production of lipids needed for new cell growth.
  72. Fatty Acid Inhibitors Cyclohexanediones sethoxydim - Vantage, Poast used only on centipedegrass and fine fescue clethodim – Envoy used only on centipedegrass Rapidly absorbed by leaves, extensively translocated via phloem to meristems Inhibit key enzyme in fatty acid synthesis
  73. Fatty Acid Inhibitors Aryl-oxy-phenoxies fenoxaprop - Acclaim Extra fluazifop - Fusilade II diclofop - Illoxan Rapidly absorbed by leaves, extensively translocated via phloem to meristems, (diclofop translocation is slow) Inhibit key enzyme in fatty acid synthesis
  74. Fatty Acid Inhibitors Aryl-oxy-phenoxies fenoxaprop - Acclaim Extra used on cool-season grasses and zoysiagrass fluazifop - Fusilade II Used only on tall fescue and bermudagrass diclofop – Illoxan Used only on bermudagrass
  75. Fatty Acid Synthesis Inhibitors - Grass Herbicides Reddening of leaf tissue. Discoloration of tissue at and above the nodes. Tissue and leaves in the leaf whorl can easily be separated from the rest of the plant. No broadleaf activity. Fusilade on dallisgrass
  76. Fatty Acid Synthesis Inhibitors Initial injury in meristematic regions occurs where newest leaves are developing These regions will turn chlorotic, which is followed by necrosis The affected area will become “rotted” and will easily separate from rest of plant Injury will develop slowly (7 to 14 days)
  77. Source: W. K. Vencill, UGA “rotted” meristem
  78. Turf Weed Management georgiaturf.com