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AGR 3102 Principles of Weed Science Herbicide

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Pellets are applied directly to the target area by hand or with special spreaders. Unit 6 Topics Covered Herbicides: Classification cont – PowerPoint PPT presentation

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Title: AGR 3102 Principles of Weed Science Herbicide


1
AGR 3102Principles of Weed ScienceHerbicide
  • Muhammad Saiful Ahmad Hamdani

2
Unit 6 Topics Covered
  • Herbicides
  • Classification cont
  • Formulation

3
Herbicides Classification cont
  • F. Chemical Structure
  • Common method of grouping herbicides herbicide
    chemistry and MOA
  • Classification based on similarity/dissimilarity
    of the herbicides chemistry.
  • Herbicides with a common chemistry are grouped
    into a family.

4
  • Herbicides in different/same families have the
    same mode of action, grouped into similar MOA.
  • Based on the MOA classification by a numerical
    system (WSSA) and alphabetical system (HRAC).
  • Importance helpful in knowing what groups of
    weeds are killed, specifying application
    techniques, diagnosing herbicide injury problems,
    and minimising herbicide resistant weeds.

5
  • 2 types of herbicides
  • Inorganic compounds - old school
  • - Copper sulphate, ammonium sulphate,
  • ammonium sulphamate, ammonium nitrate
  • ammonium thiocyanate
  • - Act as desiccant/desiccating agent
  • - Highly persistent in soil highly toxic to
    other
  • organisms
  • - Widely used in 1900s for aquatic and woody
  • terrestrial plants, many no longer applicable
    as
  • herbicides nowadays

6
  • Organic compounds
  • extensively synthesized following 2,4-D
  • other PGR commercialization
  • widely used in agric and non-agric areas
  • differ from one to another by their chemical
    characteristic and MOA
  • In general, divided into several important groups
    based on MOA

7
1. Plant Growth Regulators (PGR) / Synthetic
Auxins
  • First commercialized in the 1940s to primarily
    control dicot weeds in wheat, corn, rice, and
    many cereal crops.
  • MOA response similar to those of natural,
    growth-regulating substances called auxins.
  • Selective systemic, post-emergence effective on
    annual perennial broadleaf plants and usually
    have no activity on grasses or sedges, except at
    high application rates.
  • Short soil residual average half-life of 5 - 14
    days.
  • Comprise of phenoxy-carboxylic acid, benzoic
    acid, pyridin carboxylic acid, quinoline
    carboxylic acid phtalamates

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2. Amino Acids Biosynthesis Inhibitors
  • Divided into 2 major MOAs Acetolactate synthase
    (ALS) inhibitors and 5-Enolpyruvylshikimate
    3-phosphate synthase (EPSPS) inhibitors.
    Post-emergence, systemic.
  • ALS inhibitors effective mostly on annual
    broadleaves (selective), while EPSPS inhibitors
    have activity on grasses, sedges, and/or
    perennial dicot plants (non-selective).
  • Consist of sulfonylureas, imidazolinones,
    triazolopyrimidines, pyrimidinyl thiobenzoate
    (ALS) glycines (EPSPS).

10
  • These herbicides cause the shutdown of metabolic
    activity with eventual death of the plant.
  • Glyphosate single EPSPS herbicide, for example,
    is a broad-spectrum herbicide and has activity on
    all types of plants.
  • ALS herbicides and glyphosate considered among
    the safest herbicide because ALS
    shikimate-pathway exists only in photosynthetic
    plants and not in animals.
  • Soil residual half-life varies among herbicides,
    generally about 2 months 3 years (long
    persistence).

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3. Fatty Acids (ACCase) Biosynthesis Inhibitors
  • Selective-commonly referred to as graminicides
    (grass killers), but have no activity on other
    monocots (i.e. sedges). Also have no activity on
    dicots. Post-emergence, systemic.
  • They inhibit meristematic activity, stopping
    growth almost immediately, especially young
    grass.
  • Comprise of aryloxyphenoxypropionates (APPs),
    cyclohexanediones (CHDs), and phenylpyrazoline
    (PPZ).
  • FOPs are sold as esters of their acids. The
    esters are rapidly absorbed by plant foliage.
    Once inside the plant, the ester is converted to
    the acid by carboxyolesterase. The acid is
    considered to be the phytotoxic form of these
    herbicides.
  • Soil residual half-life 3-5 days (DIMs), 17 days
    (PPZ), 9-60 days (FOPs).

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4. Seedling Growth Inhibitors (Root Shoot)
  • 2 types of MOA microtubule inhibitors and cell
    wall (cellulose) biosynthesis inhibitors.
  • They inhibit root and shoot development
    (depending upon where they are absorbed) by
    interfering with cell division in meristematic
    areas.
  • Effective only on germinating, small-seeded
    annual grasses and some broadleaves (seedling
    selective, systemic, pre-emergence).
  • Have little to no post-emergence activity.

15
  • Consist of dinitroanilines, nitriles, pyridines,
    benzamides, carbamates and benzoic acids (DCPA).
  • Depending upon the herbicide and crop, often
    incorporated into the soil (esp.
    dinitroanilines).
  • Have relatively long residual activity (half-life
    more than a year).
  • Water insoluble and are subject to
    photo-degradation.

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5. Seedling Growth Inhibitors (Shoot)
  • Divided into 2 MOAs lipid synthesis inhibitors
    (not ACCase) cell division inhibitors (VLCFA
    synthesis). Applied as pre-emergence/planting.
  • Considered to be seedling shoot growth
    inhibitors. These herbicides cause abnormal cell
    development or prevent cell division in
    germinating seedlings.
  • Seedling-selective systemic. Most effective on
    annual grasses and sedges, some can control
    small-seeded annual broadleaves.

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  • Lipid synthesis inhibitors need soil
    incorporation, absorbed readily by emerging
    shoots.
  • Cell division inhibitors absorbed by emerging
    shoots and roots.
  • No control of established weeds.
  • Have a relatively short persistence in soil.
    Half-life 4-8 weeks for VLCFA inhibitors and 3-6
    weeks for cell division inhibitors.
  • Consist of chloroacetamides, oxyacetamides,
    acetamides (VLCFA inhibitors) thiocarbamates,
    phosphorodithioates, benzofurans (lipid synthesis
    inhibitors).

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6. Photosynthesis (at PS II) Inhibitors
  • Divided into 2 types mobile/slow acting soil
    applied herbicides (pre- post-emergence) and
    non-mobile/rapid acting foliar applied
    herbicides (post-emergence). Both systemic.
  • Triazines, triazinones, uracils,
    phenyl-carbamates, ureas, amides (soil applied)
    nitriles, phenyl-pyridazines, benzothiadiazinones
    (foliar applied) are structurally diverse
    chemical groups but have similar MOA.
  • These herbicides are effective primarily on
    annual broadleaves (selective), however at
    certain rates, some provide control of grasses as
    well.

21
  • Foliar applied absorbed by leaf, block the
    photosynthetic process so captured light cannot
    be used to produce sugars.
  • Soil-applied, these herbicides permit normal seed
    germination and seedling emergence, but when the
    seeds food supply gone, the seedlings die of
    starvation.
  • These herbicides are more effective on seedling
    weeds than on established perennial weeds.
  • Some herbicides under ureas family such as
    prometon and tebuthiuron are considered soil
    sterilants.
  • Relatively long persistence. Soil half-life 60
    120 days.

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7. Cell Membrane Disrupters
  • Consist of two MOA Protoporphyrinogen IX oxidase
    (PPO) inhibitors (selective) and PS I inhibitors
    (non-selective). Both post-emergence.
  • PPO inhibitors diphenylethers, phenylpyrazoles,
    N-phenylphthalimides, thiadiazoles, oxadiazoles,
    pyrimidindiones triazolinone PS I inhibitor
    bipyridiliums (paraquat diquat).
  • PPO inhibitors control almost all broadleaves,
    although some have some activity on grasses.
  • PS I inhibitors provide broad-spectrum control of
    many different species.

24
  • Paraquat extremely toxic, no antidote so far.
    5-10 ml fatal to human.
  • Referred to as contact herbicides kill weeds by
    destroying cell membranes.
  • They appear to burn plant tissues or desiccation
    within hours or days of application.
  • A very good coverage of the plant tissue and
    bright sunlight are necessary for maximum
    activity.
  • The activity of these herbicides is delayed in
    the absence of light.
  • PS I inhibitors are extremely tightly bound to
    soil colloids, especially clay (no root uptake).
    Because of binding to soil, bipyridyliums have no
    phytotoxicity in soil (no/very limited soil
    activity).
  • Soil half-life for PPO inhibitors varies among
    chemical groups. Can be as short as 5 days or
    long (100-280 days).

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8. Pigment Inhibitors (Bleaching Agents)
  • Divided into 2 MOA Carotenoids synthesis
    inhibitors HPPD (4-hydroxyphenyl-pyruvate-dioxyg
    enase) inhibitors.
  • These herbicides provide control of many annual
    broadleaves and some grasses (non-selective,
    systemic, some pre-, some post-emergence, some
    both).
  • Consist of pyridazinone, pyridinecarboxamide,
    triazole, isoxazolidinone, diphenylether
    (Carotenoids synthesis inhibitors) triketone,
    isoxazole, pyrazole (HPPD inhibitors).

27
  • Referred to as bleachers since they inhibit
    carotenoids (chlorophyll protector) biosynthesis
    or the HPPD enzyme by interfering with normal
    chlorophyll formation.
  • Without carotenoid pigments, the sun damages
    chlorophyll pigments and the plant becomes
    bleached and dies.
  • Absorbed by roots and shoots (pre-) or leaves
    (post-emergence).
  • Soil half-life ranging from 25-145 days.

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29
9. Phosphorylated Amino Acid (Nitrogen
Metabolism) Disrupter
  • Phosphinic acids derived herbicide
    glufosinate-ammonium. Provides broad-spectrum
    control. Group H (HRAC) 10 (WSSA).
  • It affects growth by disrupting nitrogen
    metabolism (glutamine synthesis), important for
    amino acids synthesis.
  • Generally considered a contact herbicide (thus,
    much more effective on annuals than perennial
    weeds) although has slight translocation
    (systemic) throughout the plant.
  • Good spray coverage and sunlight are important
    for maximum efficacy.
  • Little to no soil activity because the herbicide
    is very rapidly degraded by microorganisms.

30
10. Unknown Herbicides
  • Group of herbicide chemicals with unknown MOA,
    but likely differ from aforementioned herbicides.
    Basically contact but some have limited
    apoplastic translocation.
  • Contain arylaminopropionic acid, pyrazolium,
    organoarsenical other unknown family.
  • Relatively non-selective, post-emergence, many
    are foliar-applied products.
  • DSMA and MSMA have no soil activity and tightly
    bound to soil, others unknown.
  • Dazomet and metam are considered soil fumigants.
    These products are applied to the soil and
    covered with a gas-tight tarp. Kill everything in
    the soil.

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Herbicides Formulation
  • The active ingredient (a.i.) chemical that has
    phytotoxicity controls the target weed.
  • Herbicide product rarely made up only of a.i.
  • Often diluted in water or a petroleum solvent,
    and other chemicals are added before sale.
  • Other chemicals (additives) adjuvants, extenders
    or diluents (no herbicidal activity) inert
    ingredients.

33
  • Purpose make the product easier to mix apply,
    increase its efficacy, improve formulation
    stability improve shelf-life.
  • Mixture of a.i. and inert ingredients
    formulation.
  • Herbicides are sold in various formulations,
    depending upon
  • (1) the solubility of the active ingredient in
    water
  • (2) the manner in which the product is applied
    (i.e.
  • dispersed in water or applied in the dry
    form).

34
  • Several available herbicide formulations and
    abbreviations
  • Emulsifiable concentrate (E or EC)
  • A concentrated liquid (a.i., petroleum solvents,
    emulsifier), oil and water soluble.
  • Water Soluble Concentrate/Solution (WSC/S)
  • A liquid formulation (a.i., water, sometimes a
    surfactant), water soluble.
  • Oil Soluble (OS)
  • A liquid formulation (a.i. dissolved in oil or
    some other organic solvent. Must be applied in an
    oil-based carrier such as diesel fuel or kerosene.

35
  • Liquid Flowable (F or LF)
  • A thick slurry-like liquid (a.i., water, and
    stabilizers), water soluble. Spray tank agitation
    is necessary to avoid settling.
  • Wettable Powder (W or WP)
  • A dry powder (a.i., a diluent, and surfactants),
    water soluble. Spray tank agitation is necessary
    to avoid settling.
  • Soluble Powder (SP)
  • A dry formulation that contains a high percent
    (gt50) a.i, water soluble. Need initial agitation
    to dissolve.

36
  • Water-Dispersible Granules (WDG) Dry Flowable
    (DF)
  • A dry formulation, water soluble. Easier to
    handle and measure than wettable powders. Spray
    tank agitation is necessary to avoid settling.
  • Granules (G)
  • A dry formulation (a.i., coated or adhered to
    some type of inert granule). Applied just as they
    are purchased with no mixing. Special granular
    spreader is required.
  • Pellets (P)
  • A dry formulation - similar to granules only
    much larger. Pellets are applied directly to the
    target area by hand or with special spreaders.
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