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Mode of action Mechanism of action of of herbicides

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College of Agriculture, Balaghat
College of Agriculture, Balaghat

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MODE OF ACTION AND MECHENISM OF ACTION OF HERBICIDES Prepared By: Dr. Pooja Goswami College of Agriculture, Balaghat COA, Balaghat
Mode of action of herbicide refers to the entire chains/sequences of events occurring from the first contact of the herbicides to the plant to its ultimate/final effect, which could be death of a plant. It, therefore, comprises of sum total of anatomical, physiological and biochemical responses that bring about the total phototoxic action in plants Mechanism of action Mechanism of action, however, refers to the particular biochemical and physiological reactions, which bring about the ultimate herbicidal effect. Mode of action of herbicide COA, Balaghat
APPLICATION Uptake Root or leaf cuticle penetration Transport Xylem or phloem conduction Metabolism Biochemical degradation, Binding or degradation TARGET SITE Organelles Chloroplast Ribosome Accumulation of potentially toxic dose Action COA, Balaghat
Mode of action herbicide includes 1) Herbicide absorption/penetration/uptake i) Foliar absorption ii) Root absorption 2) Herbicide translocation in plants i) Symplastic movement ii) Apoplastic movement 3) Mechanism of action i) Cell division inhibition ii) Cell elongation inhibition iii) Photosynthesis inhibition iv) Respiration inhibitors v) Nucleic acid, amino acid and protein biosynthesis inhibition vi) Membrane function disruption vii) Lipid biosynthesis inhibition COA, Balaghat
COA, Balaghat Symplastic movement  Herbicides move through phloem with sugars or photosynthates produced during photosynthesis and get accumulated where sugars are being used or stored.  Symplastic movement is usually more applicable to post-emergence foliage – active, systemic herbicides, viz., glyphosate, fenoxaprop- p- ethyl, 2,4-D etc. Apoplastic movement  In apoplastic movement, the herbicides are primarily absorbed by roots and move through xylem in plants and translocated along with water or mineral nutrient ions.  Apoplastic movement is usually more applicable to pre-plant or pre- emergence soil-applied, systemic herbicides, e.g. atrazine, isoproturon, pendimethalin, fluchloralin etc.
S.No. Chemical groups Members 1. Acetamides (amides) Diphenamid, napropamides, isoxaben Acetamides (anilides) Propanil, acetachlor, alachlor, butachlor 2. Phenoxy alkanoic acid 2,4-D,MCPB, 2,4-DB,MCPA, 2,4,5-T 3. Benzoic acids 2,3,6-TBA, dicamba, chloramben 4. Benzonitriles/nitriles Bromoxynil, ioxynil 5. Bipyridiliums Diquat, paraquat 6. Carbamates & thiocarbamates Asulam, metham, chloropropham, biallate, triallate, benthiocarb 7. Cyclohexanediones Alloxydim, sethoxydim 8. Dinitroanilines Fluchloralin, pendimethalin, oryzalin, trifluralin 9. Diphenylethers Nitrofen, aciflurofen, oxyflurofen, lactofen 10. Dinitrophenols DNOC, Dinoseb, dinosam 11. Imidazolinones Imazamethabenz, imazethapyr, imazaquin
12 Aryloxy phenoxy propionates Diclofop-methyl, fenoxaprop-p- methyl, quizalofop-p-ethyl 13 Phenylureas Isoproturon, monuron, linron, methabenzthiazuron 14 Organophosphorus Glyphosate, gluphosinate, anilophos 15 Triazines Atrazine, simazine, cynazine, metribuzin 16 Sulfonylureas Sulfosulfuron, chlorsulfuron, metsulfuron-methyl 17 Uracils Bromacil, lenacil 18 Heterocyclic compounds Pyrazon, Clopyralid, triclopyr,fluoroxypyr 19 Aliphatic acids MCA, TCA
Chemical structure: 2,4 – [ Dichlorophenoxy ] acetic acid O—CH2—C—OH O Cl Cl 2,4 – D acid COA, Balaghat
O—CH2—CH2—CH2—C—OH O Cl Cl 2,4 – DB acid (2,4 - dichlorophenoxy) butyric acid O—CH2—CH2—CH2—C—O O Cl Cl Salt CH3 NH2 CH3 + COA, Balaghat
O—CH2—CH2—CH2—C—OH O CH3 Cl 4 (4 – Chloro-2- methylphenoxy) butanoic acid MCPB –acid O—CH2—CH2—CH2—C—O O CH3 Cl + Na+ MCPB – sodium salt COA, Balaghat
COA, Balaghat Herbicides of this group absorbed by the broad-leaved plants via roots and foliage. Plant roots absorb polar (salt) forms of 2, 4-D more readily than ester form of 2, 4-D, whereas the nonpolar (ester) forms more rapidly penetrate foliage. A rain-free period of 4 h usually is adequate for uptake and effective control. Herbicide is transported primarily via the symplastic pathway (including the phloem) and accumulates principally at the growing points of the shoots and root following root uptake. 2, 4-D translocates somewhat in the transpiration stream by the apoplastic pathway. Sensitive plants convert salts and ester form into acid form which is phytotoxic. Absorption: Translocation:
COA, Balaghat  This group is responsible for excessive cell division and cell enlargement. Plant cell surrounding vascular tissue undergoes uncontrolled cell division and cell enlargement which may mechanically interfere with translocation of food.  Primary action of these compounds appears to involve cell wall plasticity and nucleic acid metabolism. 2, 4-D is thought to acidify the cell wall by stimulating the activity of a membrane bound ATPase-driven proton pump. The reduction in apoplasmic pH induces cell wall elongation by increasing the activity of certain enzymes responsible for cell wall loosening.  Low concentrations of 2, 4-D also stimulates RNA polymerase, resulting in subsequent increase in RNA, DNA and protein biosynthesis. Abnormal increase in these processes presumably leads to uncontrolled cell division and growth, which results in vascular tissue destruction. Mechanism of action:
COA, Balaghat  Epinastic bending and twisting of stems and petioles  Stem swelling (particularly at nodes) and elongation  Leaf cupping and curling are typical symptoms, when plants are exposed to these herbicides. Symptomology
2,4-D metabolism reactions can be divided into two phases:  Phase-I reaction 1. Hydroxylation(# 4 Cl is displaced by a hydroxyl group and moved to the # 5 or # 3 carbon). 2. Decarboxylation  Phase-II reaction Conjugation with : • Amino acid (glutamate, aspirate) • Glucose at the hydroxyl position 2,4-DB metabolism in plant • B-oxidation Metabolism in plants: COA, Balaghat
COA, Balaghat
COA, Balaghat Mechanism of action  The most sensitive site of action of the herbicide is on photosynthesis near photosystem II.  This involves the blockage of electron transport from QA to QB by binding to the QB- binding niche on the D1 protein of the PS II complex in chloroplast thylakoid membranes, this stops CO2 fixation and production of ATP and NADPH2(all needed for plant growth).  Blockage of electron transport in photosystem-II leads to the production of a range of powerful oxidants which damage membranes, and so on causing rapid destruction of the cell. Absorption and translocation  Triazines are rapidly absorbed through roots from soil applications.  It is exclusively translocated to shoots via the apoplast (including the xylem).  Absorption and translocation of triazines from root to shoot is proportional to amount of water absorbed/transpiration stream.
Growth and plant structure:  They have been shown to inhibit the growth of intact plant and this has been attributed to blockage of photosynthesis.  The usual phytotoxic symptoms of the triazine herbicides are interveinal chlorosis of leaves followed by necrosis.  Older leaves are more damaged than new growth. Browning of leaf tips can occur.  Root growth is not affected. Metabolism in plants Glutathione (GSH) conjugation rapidly detoxifies atrazine and simazine in leaves of tolerant species such as maize and sorghum having high levels of GSH transferase. It catalyzed formation of S-(4-ethylamino-6- isopropylamino-S-triazino) glutathione in tolerant species. COA, Balaghat
COA, Balaghat
Absorption and translocation  Absorbed rapidly in to foliage, although absorption varies from 20 to 90 percent in 24 hours, root absorption is slower.  Translocate in both xylem and phloem. Mechanism of action  They inhibit acetolactate synthase (ALS), also called acetohydroxy acid synthase (AHAS), a key enzyme in biosynthesis of the branched chain amino acids, isoleucine, leucine and valine that are essential in formation of new cells.  The two related pathways in which acetolactate is produced from pyruvate and acetohydroxybutyrate from threonine are catalyzed by a common enzyme acetolactate synthase (acetohydroxy acid synthase).  This is effectively inhibited by the sulphonylureas such as chlorsulfuron and metsulfuron. COA, Balaghat
COA, Balaghat Pyruvate AHAS Sulphonylureas ……………………………………………………………………… Acetolactate Leucine Valine Site of action of sulpphonylureas Isoleucine
Growth and plant structure  Growth is inhibited within a few hours after application, but injury symptoms usually appear after 1 to 2 weeks or more.  Meristematic areas become chlorotic, followed by a slow general foliar chlorosis and necrosis. COA, Balaghat
COA, Balaghat
COA, Balaghat Absorption and translocation  Glyphosate is readily absorbed by leaves; little to no glyphosate is absorbed through the roots under field condition because of microbial breakdown.  Primarily translocated in the symplast with accumulation in underground tissues, immature leaves and meristems.  Most results suggested little to no apoplastic movement.
Aromatic amino acid biosynthesis Shikimate Shikimate-3-phosphate EPSP synthase 5-enolpyruvyl shikimate-3-phosphate Chorismate Phenyl alanine Tryptophane Tyrosine COA, Balaghat
Mechanism of action  Glyphosate inhibits 5-enolpyruvylshikimate-3-phosphate synthase (EPSP synthase) enzyme, which catalyzes the biosynthesis of three aromatic amino acids, namely phenylalanine, tryptophane and tyrosine in the shikimate pathway.  Inhibition of this enzyme results in reduced or no production of these three amino acids, which are highly required for protein biosynthesis.  These amino acids are also necessary for the production of auxin and several other secondary plant bio-molecules such as flavonoids, anthocyanin, alkaloids, which have role in growth regulation and defense in plant. COA, Balaghat
 The most common symptoms of glyphosate injury are foliar chlorosis followed by necrosis.  Chlorosis may appear first and most pronounced in immature leaves and growing points.  Multiple shoots (called a witch’s broom) may develop at the node. Growth and plant structure COA, Balaghat
Group A Inhibition of fat (lipid) synthesis -ACCase inhibitors Aryloxy phenoxy propionates, Cyclohexanediones Group B Inhibition of the enxyme acetolactate synthase – ALS inhibitors Sulfonylurea, Imidzolinones, Sulfonamides Group C Inhibition of photosynthesis at photosynthesis II, Triazines, triazines, Ureas, Nitriles, pyridazinones Group D Inhibitors of tubulin formation, Dinitroanilines, Benzoic acids Group E Inhibitors of mitosis, Dinitroanilines, Benzoics acids Group F Inhibitors of caretenoid biosynthesis, Pyridazonones, Nicotinanilides, pyridazinones Group G Inhibitors of protoporphyringen oxidase, Diphenyl ethers, Oxidiazoles Group H Inhibitors of mitosis, thiocarbates Group I Disruptors of plant cell growth ,Phenoxy, Benzoic acids, Pyridines Group J Inhibitors of fat synthesis, Alkanoic acids Group K Herbicides with multiple sites of action, Carbamates, Amino propionate, Nitrilies Group L Inhibitors of photosynthesis at photosystem I, Bipyridylis Group M Inhibition of EPSP synthase, Glycines Group N Inhibitors of glutamine synthase ,Glycines Herbicides mode of action group according to the risk for early development of resistance COA, Balaghat
COA, Balaghat Thanking you

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Mode of action Mechanism of action of of herbicides

  • 1. MODE OF ACTION AND MECHENISM OF ACTION OF HERBICIDES Prepared By: Dr. Pooja Goswami College of Agriculture, Balaghat COA, Balaghat
  • 2. Mode of action of herbicide refers to the entire chains/sequences of events occurring from the first contact of the herbicides to the plant to its ultimate/final effect, which could be death of a plant. It, therefore, comprises of sum total of anatomical, physiological and biochemical responses that bring about the total phototoxic action in plants Mechanism of action Mechanism of action, however, refers to the particular biochemical and physiological reactions, which bring about the ultimate herbicidal effect. Mode of action of herbicide COA, Balaghat
  • 3. APPLICATION Uptake Root or leaf cuticle penetration Transport Xylem or phloem conduction Metabolism Biochemical degradation, Binding or degradation TARGET SITE Organelles Chloroplast Ribosome Accumulation of potentially toxic dose Action COA, Balaghat
  • 4. Mode of action herbicide includes 1) Herbicide absorption/penetration/uptake i) Foliar absorption ii) Root absorption 2) Herbicide translocation in plants i) Symplastic movement ii) Apoplastic movement 3) Mechanism of action i) Cell division inhibition ii) Cell elongation inhibition iii) Photosynthesis inhibition iv) Respiration inhibitors v) Nucleic acid, amino acid and protein biosynthesis inhibition vi) Membrane function disruption vii) Lipid biosynthesis inhibition COA, Balaghat
  • 5. COA, Balaghat Symplastic movement  Herbicides move through phloem with sugars or photosynthates produced during photosynthesis and get accumulated where sugars are being used or stored.  Symplastic movement is usually more applicable to post-emergence foliage – active, systemic herbicides, viz., glyphosate, fenoxaprop- p- ethyl, 2,4-D etc. Apoplastic movement  In apoplastic movement, the herbicides are primarily absorbed by roots and move through xylem in plants and translocated along with water or mineral nutrient ions.  Apoplastic movement is usually more applicable to pre-plant or pre- emergence soil-applied, systemic herbicides, e.g. atrazine, isoproturon, pendimethalin, fluchloralin etc.
  • 6.
  • 7. S.No. Chemical groups Members 1. Acetamides (amides) Diphenamid, napropamides, isoxaben Acetamides (anilides) Propanil, acetachlor, alachlor, butachlor 2. Phenoxy alkanoic acid 2,4-D,MCPB, 2,4-DB,MCPA, 2,4,5-T 3. Benzoic acids 2,3,6-TBA, dicamba, chloramben 4. Benzonitriles/nitriles Bromoxynil, ioxynil 5. Bipyridiliums Diquat, paraquat 6. Carbamates & thiocarbamates Asulam, metham, chloropropham, biallate, triallate, benthiocarb 7. Cyclohexanediones Alloxydim, sethoxydim 8. Dinitroanilines Fluchloralin, pendimethalin, oryzalin, trifluralin 9. Diphenylethers Nitrofen, aciflurofen, oxyflurofen, lactofen 10. Dinitrophenols DNOC, Dinoseb, dinosam 11. Imidazolinones Imazamethabenz, imazethapyr, imazaquin
  • 8. 12 Aryloxy phenoxy propionates Diclofop-methyl, fenoxaprop-p- methyl, quizalofop-p-ethyl 13 Phenylureas Isoproturon, monuron, linron, methabenzthiazuron 14 Organophosphorus Glyphosate, gluphosinate, anilophos 15 Triazines Atrazine, simazine, cynazine, metribuzin 16 Sulfonylureas Sulfosulfuron, chlorsulfuron, metsulfuron-methyl 17 Uracils Bromacil, lenacil 18 Heterocyclic compounds Pyrazon, Clopyralid, triclopyr,fluoroxypyr 19 Aliphatic acids MCA, TCA
  • 9. Chemical structure: 2,4 – [ Dichlorophenoxy ] acetic acid O—CH2—C—OH O Cl Cl 2,4 – D acid COA, Balaghat
  • 10. O—CH2—CH2—CH2—C—OH O Cl Cl 2,4 – DB acid (2,4 - dichlorophenoxy) butyric acid O—CH2—CH2—CH2—C—O O Cl Cl Salt CH3 NH2 CH3 + COA, Balaghat
  • 11. O—CH2—CH2—CH2—C—OH O CH3 Cl 4 (4 – Chloro-2- methylphenoxy) butanoic acid MCPB –acid O—CH2—CH2—CH2—C—O O CH3 Cl + Na+ MCPB – sodium salt COA, Balaghat
  • 12. COA, Balaghat Herbicides of this group absorbed by the broad-leaved plants via roots and foliage. Plant roots absorb polar (salt) forms of 2, 4-D more readily than ester form of 2, 4-D, whereas the nonpolar (ester) forms more rapidly penetrate foliage. A rain-free period of 4 h usually is adequate for uptake and effective control. Herbicide is transported primarily via the symplastic pathway (including the phloem) and accumulates principally at the growing points of the shoots and root following root uptake. 2, 4-D translocates somewhat in the transpiration stream by the apoplastic pathway. Sensitive plants convert salts and ester form into acid form which is phytotoxic. Absorption: Translocation:
  • 13. COA, Balaghat  This group is responsible for excessive cell division and cell enlargement. Plant cell surrounding vascular tissue undergoes uncontrolled cell division and cell enlargement which may mechanically interfere with translocation of food.  Primary action of these compounds appears to involve cell wall plasticity and nucleic acid metabolism. 2, 4-D is thought to acidify the cell wall by stimulating the activity of a membrane bound ATPase-driven proton pump. The reduction in apoplasmic pH induces cell wall elongation by increasing the activity of certain enzymes responsible for cell wall loosening.  Low concentrations of 2, 4-D also stimulates RNA polymerase, resulting in subsequent increase in RNA, DNA and protein biosynthesis. Abnormal increase in these processes presumably leads to uncontrolled cell division and growth, which results in vascular tissue destruction. Mechanism of action:
  • 14. COA, Balaghat  Epinastic bending and twisting of stems and petioles  Stem swelling (particularly at nodes) and elongation  Leaf cupping and curling are typical symptoms, when plants are exposed to these herbicides. Symptomology
  • 15. 2,4-D metabolism reactions can be divided into two phases:  Phase-I reaction 1. Hydroxylation(# 4 Cl is displaced by a hydroxyl group and moved to the # 5 or # 3 carbon). 2. Decarboxylation  Phase-II reaction Conjugation with : • Amino acid (glutamate, aspirate) • Glucose at the hydroxyl position 2,4-DB metabolism in plant • B-oxidation Metabolism in plants: COA, Balaghat
  • 17. COA, Balaghat Mechanism of action  The most sensitive site of action of the herbicide is on photosynthesis near photosystem II.  This involves the blockage of electron transport from QA to QB by binding to the QB- binding niche on the D1 protein of the PS II complex in chloroplast thylakoid membranes, this stops CO2 fixation and production of ATP and NADPH2(all needed for plant growth).  Blockage of electron transport in photosystem-II leads to the production of a range of powerful oxidants which damage membranes, and so on causing rapid destruction of the cell. Absorption and translocation  Triazines are rapidly absorbed through roots from soil applications.  It is exclusively translocated to shoots via the apoplast (including the xylem).  Absorption and translocation of triazines from root to shoot is proportional to amount of water absorbed/transpiration stream.
  • 18. Growth and plant structure:  They have been shown to inhibit the growth of intact plant and this has been attributed to blockage of photosynthesis.  The usual phytotoxic symptoms of the triazine herbicides are interveinal chlorosis of leaves followed by necrosis.  Older leaves are more damaged than new growth. Browning of leaf tips can occur.  Root growth is not affected. Metabolism in plants Glutathione (GSH) conjugation rapidly detoxifies atrazine and simazine in leaves of tolerant species such as maize and sorghum having high levels of GSH transferase. It catalyzed formation of S-(4-ethylamino-6- isopropylamino-S-triazino) glutathione in tolerant species. COA, Balaghat
  • 20. Absorption and translocation  Absorbed rapidly in to foliage, although absorption varies from 20 to 90 percent in 24 hours, root absorption is slower.  Translocate in both xylem and phloem. Mechanism of action  They inhibit acetolactate synthase (ALS), also called acetohydroxy acid synthase (AHAS), a key enzyme in biosynthesis of the branched chain amino acids, isoleucine, leucine and valine that are essential in formation of new cells.  The two related pathways in which acetolactate is produced from pyruvate and acetohydroxybutyrate from threonine are catalyzed by a common enzyme acetolactate synthase (acetohydroxy acid synthase).  This is effectively inhibited by the sulphonylureas such as chlorsulfuron and metsulfuron. COA, Balaghat
  • 22. Growth and plant structure  Growth is inhibited within a few hours after application, but injury symptoms usually appear after 1 to 2 weeks or more.  Meristematic areas become chlorotic, followed by a slow general foliar chlorosis and necrosis. COA, Balaghat
  • 24. COA, Balaghat Absorption and translocation  Glyphosate is readily absorbed by leaves; little to no glyphosate is absorbed through the roots under field condition because of microbial breakdown.  Primarily translocated in the symplast with accumulation in underground tissues, immature leaves and meristems.  Most results suggested little to no apoplastic movement.
  • 25. Aromatic amino acid biosynthesis Shikimate Shikimate-3-phosphate EPSP synthase 5-enolpyruvyl shikimate-3-phosphate Chorismate Phenyl alanine Tryptophane Tyrosine COA, Balaghat
  • 26. Mechanism of action  Glyphosate inhibits 5-enolpyruvylshikimate-3-phosphate synthase (EPSP synthase) enzyme, which catalyzes the biosynthesis of three aromatic amino acids, namely phenylalanine, tryptophane and tyrosine in the shikimate pathway.  Inhibition of this enzyme results in reduced or no production of these three amino acids, which are highly required for protein biosynthesis.  These amino acids are also necessary for the production of auxin and several other secondary plant bio-molecules such as flavonoids, anthocyanin, alkaloids, which have role in growth regulation and defense in plant. COA, Balaghat
  • 27.  The most common symptoms of glyphosate injury are foliar chlorosis followed by necrosis.  Chlorosis may appear first and most pronounced in immature leaves and growing points.  Multiple shoots (called a witch’s broom) may develop at the node. Growth and plant structure COA, Balaghat
  • 28. Group A Inhibition of fat (lipid) synthesis -ACCase inhibitors Aryloxy phenoxy propionates, Cyclohexanediones Group B Inhibition of the enxyme acetolactate synthase – ALS inhibitors Sulfonylurea, Imidzolinones, Sulfonamides Group C Inhibition of photosynthesis at photosynthesis II, Triazines, triazines, Ureas, Nitriles, pyridazinones Group D Inhibitors of tubulin formation, Dinitroanilines, Benzoic acids Group E Inhibitors of mitosis, Dinitroanilines, Benzoics acids Group F Inhibitors of caretenoid biosynthesis, Pyridazonones, Nicotinanilides, pyridazinones Group G Inhibitors of protoporphyringen oxidase, Diphenyl ethers, Oxidiazoles Group H Inhibitors of mitosis, thiocarbates Group I Disruptors of plant cell growth ,Phenoxy, Benzoic acids, Pyridines Group J Inhibitors of fat synthesis, Alkanoic acids Group K Herbicides with multiple sites of action, Carbamates, Amino propionate, Nitrilies Group L Inhibitors of photosynthesis at photosystem I, Bipyridylis Group M Inhibition of EPSP synthase, Glycines Group N Inhibitors of glutamine synthase ,Glycines Herbicides mode of action group according to the risk for early development of resistance COA, Balaghat