Herbicide Resistant Weeds

GROUP D/22 RESISTANT HAIRY FLEABANE (Conyza bonariensis)
Egypt

  Thursday, September 09, 2010

What's on this page

Hairy Fleabane
1.  Introduction
2.  Level of Infestation
3.  Quick Statistics
4.  Notes about this biotype
5.  Academic Aspects
6.  R Hairy Fleabane Globally
7.  Fact Sheets and Literature
8.  Contributing Weed Scientists
9.  Acknowledgements
10.  Where to now?

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Introduction Level of Infestation
Hairy Fleabane (Conyza bonariensis) is a dicot weed in the Asteraceae family.  In Egypt this weed first evolved resistance to Group D/22 herbicides in 1989 and infests Unspecified.   Group D/22 herbicides are known as Bipyridiliums (Photosystem-I-electron diversion).  Research has shown that these particular biotypes are resistant to paraquat and they may be cross-resistant to other Group D/22 herbicides. There is no information recorded in the database on the distribution or level of infestation of Group D/22 resistant Hairy Fleabane from Egypt.  If you have some information on this please add it to the database.

The 'Group' letters/numbers that you see throughout this web site refer to the classification of herbicides by their mode of action. To see a full list of herbicides and HRAC herbicide classifications click here.
 

QUIK STATS ( last updated Jan 24, 2001 )

Common NameHairy Fleabane
SpeciesConyza bonariensis
GroupBipyridiliums (D/22)
Herbicidesparaquat
LocationEgypt
Year1989
Situation(s)Unspecified
Sitesunknown
Acres Infestedunknown
ContributorsJonathan Gressel, and Ram Malik 
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NOTES ABOUT THIS BIOTYPE

GENERAL
Ram Malik
Malik, R. K. 1996. Herbicide resistant weed problems in the developing world and methods to overcome them. Second International Weed Control Congress. Copenhagen. Malik refers to a paper by Amsellem Z, Jensen M A K, Driesenaar A R J, Gressel J. 1993. Developmental variability of photo-oxidative stress tolerance to paraquat resistance in Conyza. Plant Physiology, 103:1097-1106. and a paper by Fayed M T, Rizk T Y, Hassanein E E, Kholosy A S O. 1989. Paraquate resistance in horse weed (Conyza linifolia (Tackh). Annals of Agril. Science, Egypt, 34:967-987.

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ACADEMIC ASPECTS

Confirmation Tests
Field, and Greenhouse trials comparing a known susceptible Hairy Fleabane biotype with this Hairy Fleabane biotype have been used to confirm resistance. For further information on the tests conducted please contact the local weed scientists that provided this information.
 
Genetics
The genetic basis of resistance for this biotype is either unknown or has not been entered in the database.  If you know anything about the genetic inheritance of this biotype please update the database.
 
Mechanism of Resistance
The mechanism of resistance for this biotype is either unknown or has not been entered in the database.  If you know anything about the mechanism of resistance for this biotype then please update the database.
 
Relative Fitness
There is no record of differences in fitness or competitiveness of these resistant biotypes when compared to that of normal susceptible biotypes.  If you have any information pertaining to the fitness of Group D/22 resistant Hairy Fleabane from Egypt please update the database.
 
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HERBICIDE RESISTANT HAIRY FLEABANE GLOBALLY

#CountryYearSitesAcresMode of Action
1.Brazil200511-50101-500Glycines (G/9)
2.Brazil20056-1051-100Glycines (G/9)
3.Colombia20062-551-100Glycines (G/9)
4.Egypt1989unknownunknownBipyridiliums (D/22)
5.Israel19932-5101-500Photosystem II inhibitors (C1/5)
6.Israel19932-5101-500ALS inhibitors (B/2)
7.Israel200551-1001001-10000Glycines (G/9)
8.Japan19896-101-5Bipyridiliums (D/22)
9.South Africa20036-10101-500Bipyridiliums (D/22)
10.South Africa20032-511-50Glycines (G/9)
11.Spain19872-511-50Photosystem II inhibitors (C1/5)
12.Spain20046-101001-10000Glycines (G/9)
13.USA (California)20072-5unknownGlycines (G/9)
14.USA (California)
Multiple Resistance		20092-5unknownBipyridiliums (D/22)
Glycines (G/9)

 

FACT SHEETS AND OTHER LITERATURE

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Scientific Abstracts on Herbicide Resistant Conyza bonariensis

Interactions of cations with paraquat in leaf sections of resistant and sensitive biotypes of Conyza bonariensis.

Norman, M. A. and E. Fuerst P. 1997. Interactions of cations with paraquat in leaf sections of resistant and sensitive biotypes of Conyza bonariensis. Pesticide Biochemistry and Physiology. 57: 181-191.
 

Response of beans and hairy fleabane leaves to ozone and paraquat with and without the antiozonant, ethylenediurea.

Mersie, W., H. A. Norman, and P. Pillai. 1994. Response of beans and hairy fleabane leaves to ozone and paraquat with and without the antiozonant, ethylenediurea. Environmental and Experimental Botany. 34: 379-383.
 

Constitutive variation of ascorbate peroxidase activity during development parallels that of superoxide dismutase and glutathione reductase in paraquat-resistant Conyza.

Ye, B. and J. Gressel. 1994. Constitutive variation of ascorbate peroxidase activity during development parallels that of superoxide dismutase and glutathione reductase in paraquat-resistant Conyza. Plant Science Limerick. 102: 147-151.
 

Developmental variability of photooxidative stress tolerance in paraquat-resistant Conyza.

Amsellem, Z., M. A. K. Jansen, A. R. J. Driesenaar, and J. Gressel. 1993. Developmental variability of photooxidative stress tolerance in paraquat-resistant Conyza. Plant Physiology. 103: 1097-1106.
 

Evaluation of paraquat resistance mechanisms in Conyza.

Norman, M. A., E. P. Fuerst, R. J. Smeda, and K. C. Vaughn. 1993. Evaluation of paraquat resistance mechanisms in Conyza. Pesticide Biochemistry and Physiology. 46: 236-249.
 

Photosynthetic activity and chloroplast structural characteristics in triazine-resistant biotypes of three weed species.

Prado, R. de, C. Dominguez, I. Rodriguez, M. Tena, and R. De Prado. 1992. Photosynthetic activity and chloroplast structural characteristics in triazine-resistant biotypes of three weed species. Physiologia Plantarum. 84: 477-485.
 

Resistance to the herbicide paraquat and increased tolerance to photoinhibition are not correlated in several weed species.

Preston, C., J. A. M. Holtum, and S. B. Powles. 1991. Resistance to the herbicide paraquat and increased tolerance to photoinhibition are not correlated in several weed species. Plant Physiology. 96: 314-318.
 

Characterization of triazine-resistant biotypes of common lambsquarters (Chenopodium album), hairy fleabane (Conyza bonaeriensis), and yellow foxtail (Setaria glauca) found in Spain.

Prado, R. de, C. Dominguez, and M. Tena. 1989. Characterization of triazine-resistant biotypes of common lambsquarters (Chenopodium album), hairy fleabane (Conyza bonaeriensis), and yellow foxtail (Setaria glauca) found in Spain. Weed Science. 37: 1-4.
 

Increased tolerance to photoinhibitory light in paraquat-resistant Conyza bonariensis measured by photoacoustic spectroscopy and 14CO2-fixation.

Jansen, M. A. K., Y. Shaaltiel, D. Kazzes, O. Canaani, S. Malkin, and J. Gressel. 1989. Increased tolerance to photoinhibitory light in paraquat-resistant Conyza bonariensis measured by photoacoustic spectroscopy and 14CO2-fixation. Plant Physiology. 91: 1174-1178.
 

Triazine-resistant weeds found in Spain.

De Prado, R., C. Dominguez, M. Tena, R. Prado de, R. Cavalloro (ed.), and G. Noye (ed.). 1989. Triazine-resistant weeds found in Spain. Importance and perspectives on herbicide-resistant weeds. Proceedings of a meeting of the EC Experts' Group, Tollose, Denmark, 15-17 November 1988. 11561: 67-79.
 

Lack of cross-resistance of paraquat-resistant hairy fleabane (Conyza bonariensis) to other toxic oxygen generators indicates enzymatic protection is not the resistance mechanism.

Vaughn, K. C., M. A. Vaughan, and P. Camilleri. 1989. Lack of cross-resistance of paraquat-resistant hairy fleabane (Conyza bonariensis) to other toxic oxygen generators indicates enzymatic protection is not the resistance mechanism. Weed Science. 37: 5-11.
 

Dominant pleiotropy controls enzymes co-segregating with paraquat resistance in Conyza bonariensis.

Shaaltiel, Y., N. H. Chua, S. Gepstein, and J. Gressel. 1988. Dominant pleiotropy controls enzymes co-segregating with paraquat resistance in Conyza bonariensis. Theoretical and Applied Genetics. 75: 850-856.
 

Cross tolerance to herbicidal and environmental oxidants of plant biotypes tolerant to paraquat, sulfur dioxide, and ozone.

Shaaltiel, Y., A. Glazer, P. F. Bocion, and J. Gressel. 1988. Cross tolerance to herbicidal and environmental oxidants of plant biotypes tolerant to paraquat, sulfur dioxide, and ozone. Pesticide Biochemistry and Physiology. 31: 13-23.
 

Kinetic analysis of resistance to paraquat in Conyza. Evidence that paraquat transiently inhibits leaf chloroplast reactions in resistant plants.

Shaaltiel, Y. and J. Gressel. 1987. Kinetic analysis of resistance to paraquat in Conyza. Evidence that paraquat transiently inhibits leaf chloroplast reactions in resistant plants. Plant Physiology. 85: 869-871.
 

Biochemical analysis of paraquat resistance in Conyza leads to pinpointing synergists for oxidant generating herbicides.

Shaaltiel, Y., J. Gressel, R. Greenhalgh (ed.), and T. R. Roberts. 1987. Biochemical analysis of paraquat resistance in Conyza leads to pinpointing synergists for oxidant generating herbicides. Proceedings of the 6th international congress of pesticide chemistry, Pesticide science and biotechnology. : 183-186.
 

Structural and physiological studies of paraquat-resistant Conyza.

Vaughn, K. C. and E. P. Fuerst. 1985. Structural and physiological studies of paraquat-resistant Conyza. Pesticide Biochemistry and Physiology. 24: 86-94.
 

Paraquat resistance in Conyza.

Fuerst, E. P., H. Y. Nakatani, A. D. Dodge, D. Penner, and C. J. Arntzen. 1985. Paraquat resistance in Conyza. Plant Physiology. 77: 984-989.
 

Mechanism of paraquat tolerance in Conyza bonariensis and in Lolium perenne.

Shaaltiel, Y. and J. Gressel. 1985. Mechanism of paraquat tolerance in Conyza bonariensis and in Lolium perenne. Phytoparasitica. 13: 232.
 

 

CONTRIBUTING WEED SCIENTISTS

JONATHAN GRESSELEdit
Weizmann Institute of Science
Plant Genetics Dept.
Rehovot, 76100
Israel
Email Jonathan Gressel
RAM MALIKEdit
CCS Haryana Agricultural University
Department of Agronomy
Hisar, 125 004, Haryana
India

 
Acknowledgements Where to now?
The Herbicide Resistance Action Committee, the Weed Science Society of America, and weed scientists in Egypt have been instrumental in providing you this information.  Particular thanks is given to Jonathan Gressel, and Ram Malik for providing detailed information.
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