Resistência de plantas daninhas aos herbicidas

Christoffoleti, Pedro J.; Victoria Filho, Ricardo; Silva, Clóvis B. da

doi:10.1590/S0100-83581994000100003

Resumos

A resistência de plantas daninhas aos herbicidas ocorre em função de um processo evolutivo. O desenvolvimento de biótipos de plantas daninhas resistentes é imposto pela agricultura moderna, através da pressão de seleção causada pelo uso intensivo dos herbicidas. O conhecimento dos mecanismos e fatores que favorecem o aparecimento de biótipos de plantas daninhas resistentes é fundamental para que técnicas de manejo sejam utilizadas no sentido de evitar ou retardar o aparecimento de plantas resistentes em uma área. São poucos os relatos ou citações de literatura no Brasil. Sendo assim, este trabalho de revisão procura relatar os principais avanços e descobertas na área de plantas daninhas resistentes aos herbicidas.

desenvolvimento de resistência

Weed herbicide resistance has evolved from weed evolution. The modern agriculture is responsible for this evolution because of the intensive use of herbicides. The knowledge of mechanisms and factors that influence the weed herbicide resistance play an important role in the weed manegement techniques used to avoid or delay herbicide resistance appearence. There are not many report or scientific papers about herbi cide resistance in Brasil. Therefore, this literature review aims to provide information about the main advances and discoveries in the field of weed herbicide resistance.

resistance development

ARTIGO

Resistência de plantas daninhas aos herbicidas

Weed resistance to herbicides

Pedro J. Christoffoleti^I; Ricardo Victoria Filho^II e Clóvis B. da Silva^III

^IProf. Doutor, Deptº Horticultura, ESALQ-USP, Piracicaba, SP

^IIProf. Titular, Deptº Horticultura, ESALQ-USP, Piracicaba, SP

^IIIAcadémico e Estagiário Deptº Horticultura, ESALQ-USP, Piracicaba, SP

RESUMO

A resistência de plantas daninhas aos herbicidas ocorre em função de um processo evolutivo. O desenvolvimento de biótipos de plantas daninhas resistentes é imposto pela agricultura moderna, através da pressão de seleção causada pelo uso intensivo dos herbicidas. O conhecimento dos mecanismos e fatores que favorecem o aparecimento de biótipos de plantas daninhas resistentes é fundamental para que técnicas de manejo sejam utilizadas no sentido de evitar ou retardar o aparecimento de plantas resistentes em uma área. São poucos os relatos ou citações de literatura no Brasil. Sendo assim, este trabalho de revisão procura relatar os principais avanços e descobertas na área de plantas daninhas resistentes aos herbicidas.

Palavras-chave: desenvolvimento de resistência.

ABSTRACT

Weed herbicide resistance has evolved from weed evolution. The modern agriculture is responsible for this evolution because of the intensive use of herbicides. The knowledge of mechanisms and factors that influence the weed herbicide resistance play an important role in the weed manegement techniques used to avoid or delay herbicide resistance appearence. There are not many report or scientific papers about herbi cide resistance in Brasil. Therefore, this literature review aims to provide information about the main advances and discoveries in the field of weed herbicide resistance.

Additional index words: resistance development.

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Full text available only in PDF format.

LITERATURA CITADA

Recebido para publicação em 29/10/93 e na forma revisada em 01/12/93

BANDEEN, J.D.; STEPHENSON, G.R.; COWETI, E.R. Discovery and dis tri but ion of herbic ide -resistant weeds in North America. In: LeBARON, H.M. e GRESSEL, J. Herbicide resistance in plants New York: John Willey, 1982. p.9-30.
CHAUVAL, B.; GASQUEZ, J. Study of the growth of herbicide-resistant black-grass populations. In: CASELEY, J.C.; CUSSANS, G.W.; ATKINS, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.431-432.
CHRISTOFFOLETI, P.J. Growth, competitive ability, and fitness of sulfo nylurea re sista nt and susceptible Kochia scoparia biotypes. Fort Collins: Colorado State University, 1992. 198 p.Tese de Doutorado.
CHRISTOPHER, J.T.; POWLES, S.B.; LILJEGREN, D.R.; HOLTUM, J.A.M. Cross-resistance to herbicides in annual ryegrass (Lolium rigidum). II. Chlorsulfuron resistance involves a wheat-like detoxification system. Plant Physiology, v.95, p.1036-1043, 1991.
CLAY, D.V. New development in triazine and paraquat resistance and co-resistance in weed species in England. In: Brighton Crop Protection Conference - Weeds Proceedings. Brighton, 1989. p.317-324.
COMPLAND, D. The role of compartmentation of herbicides and theír metabolites in resistance mechanisms. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.263-278.
CUSSAN, G.W.; MOSS, S.R. Population dynamics of annual grass weeds. In: British Crop Protection Symposium: Decision Making in the Practice of Crop Protection. Proceedings Croydon: British Crop Protection Council, 1982. p.91-98.
DODGE, A.D. Mechanisms of paraquat tolerance. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.165-175.
FUERT, E.P.; HORMAN, M.A. Interactions of herbicides with photosynthetic electron transport. Weed Science, v.39, p.458-464, 1991.
GERWILK, B.C.; SUBRAMANIAN, M.A.; GALLANT, U.I.; CHANDLER, D.P. Mechanism of action of the 1,2,4-triazolo-1.5-a-pyrimidines. Pest. Sci., v.29, p.357-364, 1990.
GRESSEL, J. Why get resistance? It can be prevented or delayed. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.1-25.
GRESSEL, J. ; SEGEL, L.A. Herbicide rotations and mixtures: effective strategies to delay resistance. In: GREEN, M.B.; LeBARON, H.L.; MOBERG, W.K. Managing resistance to agrochemicals: from fudamental research to practical strategies. Washington: American Chemical Society, 1990. p.430- 458.
HAWKES, T. R. Studies of herbicides which in hibit branched chain aminoacid biosynthesis. In: COPPING, L.G. ; DALZIE L, J. ; DODGE, A.D. Prospects for amino acids biosynthesis inhibitors in crop protection and pharmaceutical chemistry Great Britain: Society of Chemical Industry Survey, 1989. p.131-138. (BCPC Monography, 42).
HOLT, J. Fitness and ecological adaptability of herbicide resistant biotypes. In: GREEN, M.B.; LeBARON, H.L.; MOBERG, W.K. Managing resistance to agrochemicals: from fudamental research to practical strategies Washington: American Chemical Society, 1990. p.419-429.
HOLT, J.; LeBARON, H.M. Significance and distribution of herbicide resistance. Weed Technology, v.4, p.141- 149, 1990.
HOLTUM, J.A.M.; MATTHEWS, J.M.; HAUSLER, J.M.; LILIEGREN, R.E.; POWLES, S.B. Cross-resistance to herbicides in annual ryegrass (Lolium rigidum). III. On the mechanisms of resistance to diclofop-methyl. Plant Physiology, v.97, p.1026-1034, 1991.
JONES, O.T.G. Cytochrome P450 and herbicide resistance. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.213-226.
KEMP, M.S.; MOSSET, S.R.; THOMAS, T.T. Herbicide resistance in Alopecurus myosuroides. In: GREEN, M.B.; LeBARON, H.L.; MOBERG, W.K. Managing resistance to agrochemicals: from fudamental research to practical strategies Washington : American Chemical Society, 1990. p 376-393.
LaROSA, R.A.; SCHLOSS, J.V. The sulfonilurea herbicide sulfometuron methyl is an extremelly potent and selective inhibitor of acetolactate synthase in Salmonella typhimurium J. Biol. Chem v.2 59, p.8753-8757, 1984.
LeBARON, H.M. Distribution and seriousness of herbicide resistant weed infestations worldwide. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops. Oxford: Butterworth- Heinemann, 1991. p.27-43.
LeBARON, H.M. Herbicide resistance in crops and weeds and it s ma na geme nt. In: TROPICAL WEED SCIENCE CONFERENCE, 3., 1992, Kuala Lumpur. Proceedings Kuala Lumpur, 1992. p.23-24.
LUTMAN, P.J.W. Variations in the resistance of Stellaria media to mecoprop due to biotype, application method and 1-aminobenzotriazole. Weed Research, v.30, p.129-137, 1990.
MAXWEL, B.D.; ROUSH, M.L.; RADOSEVICH, S.R. Predicting the evolution and dynamics of herbicides resistance in weed populations. Weed Technology, v.4, p.2-13, 1990.
MORGAN, W.C. Alternatives to herbicides. Plant Protection Quaterly, v.4, n.1, p.33-37, 1989.
MORRISON, I.N.; BECKIE, H.; NAWOLSHY, K. The occurence of trifluralin resistant Setaria viridis (green foxtail) in western Canada. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.67-75.
MOSS, S.R. Herbicide resistance in the weed Alopecurus myosuroides (black-grass): the current situation. In: DENHOLM, I . ; DEVONSHIRE , A. L . ; HOLOLOMAN, D.W. Achievements and developments in combating pesticide resistance London: Elsevier Applied Science Pub., 1992. p.28-40.
RAY, T.B. Site of action of chlors ulfuron inhibition of valine, and isoleucine biosynthesis in plants. Plant Physiology, v.75, p.827-831, 1984.
RUBIM, B. Herbicide resistance in weeds and crops, progress and prospects. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.387-414.
RYAN, G.F. Resistance of common groundsel to simazine and atrazine. Weed Science, v.18, p.614-616, 1970.
SAWICKI, R.M. Definition, detection and documentation of insecticide resistance. In: FORD, M.G.; HOLLOMAN, D.W.; KHAMBAY, B.P.S.; SAWICKI, R.M. Combating resistance to xenobiotics: biological and chemical approaches Chichester: Ellis Horwood, 1987. p.105-117.
SCHONFELD, M.; YAACOBY, T. ; MICHAEL, O. ; RUBIM, B. Triazine resistance without reduced vigour in Phalaris paradoxa. Plant Physiology, v.83, p.329-333, 1987.
SHANER, D.L. Mechanisms of resistance to acetolactate synthase/acetohydroxyacid synthase inhibitors. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.187-198.
SILVERTOWN, J.W. Introduction to plant population ecology. 2. ed. New York: Longman, 1987. 220 p.
SOUZA MACHADO, v.Inheritance and breeding potential to triazine tolerance and resistance in plants. In: LeBARON, H.M.; GRESSEL, J. Herbicide resistance in plants New York: John Wiley, 1982. p.257-273.
STANNARD, M.E. ; FAY, P. K. Selection of alfalfa seedlings for tolerance to chlorsulfuron. In: WEED SCIENCE SOCIETY OF AMERICA MEETING, 61. Proceedings 1987. p.45.
SUBRAMANIAM, M.V.; HUNG, H.Y.; DIAS, J.M.; MINES, U.W.; BUTLER, J.H.; JACHETA, J.J. Properties of mutant acetolactate synthase resistant to triazolopyrimidines sulfoanilide. Plant Physiology, v.94, p.239-244, 1990.
TRILL, D.C.; MALLORY-SMITH, C.A.; SAARI, C.A.; COTTERMAN, L.L.; PRIMIANI, M.M.; SALADINI, J.L. Sulfonylurea herbicide resistant weeds: discovery, distribution, biology, mechanisms, and management. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.115-128.
TREBST, A. The molecular basis of resistance of photosystem II herbicides. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops. Oxford: Butterworth-Heinemann, 1991. p.145-164.
Van OORSCHOT, J.L.P. Chloroplastic resistance of weeds to triaz ine s in Europe. In: CASELEY, J. C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide Resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.87-101.
VAUGHN, K.C.; VAUGHN, M.A. Structural and biochemical characterization of dinitroanilines-resistant Eleusine. In: GREEN, M.B.; LeBARON, H.L.; MOBERG, W.K. Managing resistance to agro-chemicals: from fudamental research to practical strategies Washington: American Chemical Society, 1990. p.364-375.

Datas de Publicação

Publicação nesta coleção
22 Maio 2012
Data do Fascículo
1994

Histórico

Aceito
01 Dez 1993
Recebido
29 Out 1993

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] BANDEEN, J.D.; STEPHENSON, G.R.; COWETI, E.R. Discovery and dis tri but ion of herbic ide -resistant weeds in North America. In: LeBARON, H.M. e GRESSEL, J. Herbicide resistance in plants New York: John Willey, 1982. p.9-30.

[2] CHAUVAL, B.; GASQUEZ, J. Study of the growth of herbicide-resistant black-grass populations. In: CASELEY, J.C.; CUSSANS, G.W.; ATKINS, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.431-432.

[3] CHRISTOFFOLETI, P.J. Growth, competitive ability, and fitness of sulfo nylurea re sista nt and susceptible Kochia scoparia biotypes. Fort Collins: Colorado State University, 1992. 198 p.Tese de Doutorado.

[4] CHRISTOPHER, J.T.; POWLES, S.B.; LILJEGREN, D.R.; HOLTUM, J.A.M. Cross-resistance to herbicides in annual ryegrass (Lolium rigidum). II. Chlorsulfuron resistance involves a wheat-like detoxification system. Plant Physiology, v.95, p.1036-1043, 1991.

[5] CLAY, D.V. New development in triazine and paraquat resistance and co-resistance in weed species in England. In: Brighton Crop Protection Conference - Weeds Proceedings. Brighton, 1989. p.317-324.

[6] COMPLAND, D. The role of compartmentation of herbicides and theír metabolites in resistance mechanisms. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.263-278.

[7] CUSSAN, G.W.; MOSS, S.R. Population dynamics of annual grass weeds. In: British Crop Protection Symposium: Decision Making in the Practice of Crop Protection. Proceedings Croydon: British Crop Protection Council, 1982. p.91-98.

[8] DODGE, A.D. Mechanisms of paraquat tolerance. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.165-175.

[9] FUERT, E.P.; HORMAN, M.A. Interactions of herbicides with photosynthetic electron transport. Weed Science, v.39, p.458-464, 1991.

[10] GERWILK, B.C.; SUBRAMANIAN, M.A.; GALLANT, U.I.; CHANDLER, D.P. Mechanism of action of the 1,2,4-triazolo-1.5-a-pyrimidines. Pest. Sci., v.29, p.357-364, 1990.

[11] GRESSEL, J. Why get resistance? It can be prevented or delayed. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.1-25.

[12] GRESSEL, J. ; SEGEL, L.A. Herbicide rotations and mixtures: effective strategies to delay resistance. In: GREEN, M.B.; LeBARON, H.L.; MOBERG, W.K. Managing resistance to agrochemicals: from fudamental research to practical strategies. Washington: American Chemical Society, 1990. p.430- 458.

[13] HAWKES, T. R. Studies of herbicides which in hibit branched chain aminoacid biosynthesis. In: COPPING, L.G. ; DALZIE L, J. ; DODGE, A.D. Prospects for amino acids biosynthesis inhibitors in crop protection and pharmaceutical chemistry Great Britain: Society of Chemical Industry Survey, 1989. p.131-138. (BCPC Monography, 42).

[14] HOLT, J. Fitness and ecological adaptability of herbicide resistant biotypes. In: GREEN, M.B.; LeBARON, H.L.; MOBERG, W.K. Managing resistance to agrochemicals: from fudamental research to practical strategies Washington: American Chemical Society, 1990. p.419-429.

[15] HOLT, J.; LeBARON, H.M. Significance and distribution of herbicide resistance. Weed Technology, v.4, p.141- 149, 1990.

[16] HOLTUM, J.A.M.; MATTHEWS, J.M.; HAUSLER, J.M.; LILIEGREN, R.E.; POWLES, S.B. Cross-resistance to herbicides in annual ryegrass (Lolium rigidum). III. On the mechanisms of resistance to diclofop-methyl. Plant Physiology, v.97, p.1026-1034, 1991.

[17] JONES, O.T.G. Cytochrome P450 and herbicide resistance. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.213-226.

[18] KEMP, M.S.; MOSSET, S.R.; THOMAS, T.T. Herbicide resistance in Alopecurus myosuroides. In: GREEN, M.B.; LeBARON, H.L.; MOBERG, W.K. Managing resistance to agrochemicals: from fudamental research to practical strategies Washington : American Chemical Society, 1990. p 376-393.

[19] LaROSA, R.A.; SCHLOSS, J.V. The sulfonilurea herbicide sulfometuron methyl is an extremelly potent and selective inhibitor of acetolactate synthase in Salmonella typhimurium J. Biol. Chem v.2 59, p.8753-8757, 1984.

[20] LeBARON, H.M. Distribution and seriousness of herbicide resistant weed infestations worldwide. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops. Oxford: Butterworth- Heinemann, 1991. p.27-43.

[21] LeBARON, H.M. Herbicide resistance in crops and weeds and it s ma na geme nt. In: TROPICAL WEED SCIENCE CONFERENCE, 3., 1992, Kuala Lumpur. Proceedings Kuala Lumpur, 1992. p.23-24.

[22] LUTMAN, P.J.W. Variations in the resistance of Stellaria media to mecoprop due to biotype, application method and 1-aminobenzotriazole. Weed Research, v.30, p.129-137, 1990.

[23] MAXWEL, B.D.; ROUSH, M.L.; RADOSEVICH, S.R. Predicting the evolution and dynamics of herbicides resistance in weed populations. Weed Technology, v.4, p.2-13, 1990.

[24] MORGAN, W.C. Alternatives to herbicides. Plant Protection Quaterly, v.4, n.1, p.33-37, 1989.

[25] MORRISON, I.N.; BECKIE, H.; NAWOLSHY, K. The occurence of trifluralin resistant Setaria viridis (green foxtail) in western Canada. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.67-75.

[26] MOSS, S.R. Herbicide resistance in the weed Alopecurus myosuroides (black-grass): the current situation. In: DENHOLM, I . ; DEVONSHIRE , A. L . ; HOLOLOMAN, D.W. Achievements and developments in combating pesticide resistance London: Elsevier Applied Science Pub., 1992. p.28-40.

[27] RAY, T.B. Site of action of chlors ulfuron inhibition of valine, and isoleucine biosynthesis in plants. Plant Physiology, v.75, p.827-831, 1984.

[28] RUBIM, B. Herbicide resistance in weeds and crops, progress and prospects. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.387-414.

[29] RYAN, G.F. Resistance of common groundsel to simazine and atrazine. Weed Science, v.18, p.614-616, 1970.

[30] SAWICKI, R.M. Definition, detection and documentation of insecticide resistance. In: FORD, M.G.; HOLLOMAN, D.W.; KHAMBAY, B.P.S.; SAWICKI, R.M. Combating resistance to xenobiotics: biological and chemical approaches Chichester: Ellis Horwood, 1987. p.105-117.

[31] SCHONFELD, M.; YAACOBY, T. ; MICHAEL, O. ; RUBIM, B. Triazine resistance without reduced vigour in Phalaris paradoxa. Plant Physiology, v.83, p.329-333, 1987.

[32] SHANER, D.L. Mechanisms of resistance to acetolactate synthase/acetohydroxyacid synthase inhibitors. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.187-198.

[33] SILVERTOWN, J.W. Introduction to plant population ecology. 2. ed. New York: Longman, 1987. 220 p.

[34] SOUZA MACHADO, v.Inheritance and breeding potential to triazine tolerance and resistance in plants. In: LeBARON, H.M.; GRESSEL, J. Herbicide resistance in plants New York: John Wiley, 1982. p.257-273.

[35] STANNARD, M.E. ; FAY, P. K. Selection of alfalfa seedlings for tolerance to chlorsulfuron. In: WEED SCIENCE SOCIETY OF AMERICA MEETING, 61. Proceedings 1987. p.45.

[36] SUBRAMANIAM, M.V.; HUNG, H.Y.; DIAS, J.M.; MINES, U.W.; BUTLER, J.H.; JACHETA, J.J. Properties of mutant acetolactate synthase resistant to triazolopyrimidines sulfoanilide. Plant Physiology, v.94, p.239-244, 1990.

[37] TRILL, D.C.; MALLORY-SMITH, C.A.; SAARI, C.A.; COTTERMAN, L.L.; PRIMIANI, M.M.; SALADINI, J.L. Sulfonylurea herbicide resistant weeds: discovery, distribution, biology, mechanisms, and management. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.115-128.

[38] TREBST, A. The molecular basis of resistance of photosystem II herbicides. In: CASELEY, J.C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide resistance in weeds and crops. Oxford: Butterworth-Heinemann, 1991. p.145-164.

[39] Van OORSCHOT, J.L.P. Chloroplastic resistance of weeds to triaz ine s in Europe. In: CASELEY, J. C.; CUSSANS, G.W.; ATKIN, R.K. Herbicide Resistance in weeds and crops Oxford: Butterworth-Heinemann, 1991. p.87-101.

[40] VAUGHN, K.C.; VAUGHN, M.A. Structural and biochemical characterization of dinitroanilines-resistant Eleusine. In: GREEN, M.B.; LeBARON, H.L.; MOBERG, W.K. Managing resistance to agro-chemicals: from fudamental research to practical strategies Washington: American Chemical Society, 1990. p.364-375.