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A Review of Herbicide Resistance in Iran

Published online by Cambridge University Press:  20 January 2017

Javid Gherekhloo ,
Mostafa Oveisi ,
Eskandar Zand  and
Rafael De Prado
Javid Gherekhloo*
Affiliation:
Department of Agronomy, Gorgan University of Agricultural Sciences and Natural Resources
Mostafa Oveisi
Affiliation:
Department of Agronomy and Plant Breeding, University of Tehran
Eskandar Zand
Affiliation:
Iranian Research Institute of Plant Protection, Agricultural Research Education and Extension Organization (AREEO), Iran
Rafael De Prado
Affiliation:
Department of Agricultural Chemistry, University of Cordoba, Spain
*
Corresponding author's E-mail: gherekhloo@yahoo.com, gherekhloo@gau.ac.ir
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Abstract

Continuous use of herbicides has triggered a phenomenon called herbicide resistance. Nowadays, herbicide resistance is a worldwide problem that threatens sustainable agriculture. A study of over a decade on herbicides in Iran has revealed that herbicide resistance has been occurring since 2004 in some weed species. Almost all the results of these studies have been published in national scientific journals and in conference proceedings on the subject. In the current review, studies on herbicide resistance in Iran were included to provide a perspective of developing weed resistance to herbicides for international scientists. More than 70% of arable land in Iran is given over to cultivation of wheat, barley, and rice; wheat alone covers nearly 52%. Within the past 40 years, 108 herbicides from different groups of modes of action have been registered in Iran, of which 28 are for the selective control of weeds in wheat and barley. Major resistance to ACCase-inhibiting herbicides has been shown in some weed species, such as winter wild oat, wild oat, littleseed canarygrass, hood canarygrass, and rigid ryegrass. With respect to the broad area of wheat crop production and continuous use of herbicides with the sole mechanism of action of ACCase inhibition, the provinces of West Azerbaijan, Tehran, Khorasan, Isfahan, Markazi, and Semnan are at risk of resistance development. In addition, because of continuous long-term use of tribenuron-methyl, resistance in broadleaf species is also being developed. Evidence has recently shown resistance of turnipweed and wild mustard populations to this herbicide. Stable monitoring of fields in doubtful areas and providing good education and training for technicians and farmers to practice integrated methods would help to prevent or delay the development of resistance to herbicides.

Keywords

Haloxyfop-r-methyl estertribenuron methylhood canarygrass, Phalaris paradoxa L. PHAPAlittleseed canarygrass, Phalaris minor Retz. PHAMIrigid ryegrass, Lolium rigidum Gaud. LOLRIturnipweed, Rapistrum rugosum (L.) All. RASRUwild mustard, Sinapis arvensis L. SINARwild oat, Avena fatua L. AVEFAwinter wild oat, Avena ludoviciana (Durieu) AVELUACCase inhibitorALS inhibitorherbicide resistancePSII inhibitorweed
Type
Review
Information
Weed Science , Volume 64 , Issue 4 , December 2016 , pp. 551 - 561
Copyright
Copyright © 2016 by the Weed Science Society of America 

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Footnotes

Associate editor for this paper: William Vencill, University of Georgia.

References

Literature Cited

Abdollahipour, M, Gherekhloo, J, Bagherani, N (2013) Investigating fitness of tribenuron methyl-resistant biotypes of wild mustard (Sinapis arvensis L.) in laboratory conditions Iran J Weed Res 5:3548 Google Scholar
Aghajani, Z, Zand, E, Baghestani, MA, Mirhadi, MJ (2009) Resistance of wild oat (Avena ludoviciana Durieu) populations to iodosulfuron+mezosulfuron herbicide Iranian Journal of Weed Sci 6:7993 Google Scholar
Anonymous (2012) Agricultural statistics. Ministry of Agriculture Jihad. http://www.maj.ir/Portal/File/ShowFile.aspx?ID=6f66d3e3-0884-4823-b12d-6319a2edad84. Accessed June 23, 2015Google Scholar
Beckie, HJ (2007) Beneficial management practices to combat herbicide-resistant grass weeds in the northern Great Plains Weed Technol 21:290299 Google Scholar
Beckie, HJ, Heap, IM, Smeda, RJ, Hall, LM (2000) Screening for herbicide resistance in weeds Weed Technol 14:428445 Google Scholar
Benakashani, F, Rahimian Mashhadi, H, Zand, E, Alizadeh, H, Naghavi, MR (2010) Investigation of the cross resistance to ACCase inhibitor herbicides in wild oat (Avena ludoviciana Durieu.) populations from Khuzestan province and chemical control of resistant populations Iran J Weed Sci 6:95112 Google Scholar
Benakashani, F, Zand, E, Alizadeh, H (2006) Resistance of wild oat (Avena ludoviciana) biotypes to clodinafop-propargyl herbicide Appl Entomol Phytopathol 74:127149 Google Scholar
Bitarafan, M, Mohammad Alizadeh, H, Zand, E, Yaghobi, B, Benakashani, F (2012) Investigating the probability of barnyardgrass (Echinochloa spp.) resistance to some common herbicides in rice fields of Iran Environ Sci 9:101118 Google Scholar
Dastoori, M, Rahimian, H, Zand, E, Alizadeh, H, Bahrami, S (2010) Molecular basis for resistance of Lolium rigidum populations to aryloxyphenoxy propionate herbicide through dCAPS. Iran J Field Crop Sci 41:677684 Google Scholar
Derakhshan, A, Gherekhloo, J (2012) Tribenuron-methyl resistant turnipweed (Rapistrum rugosum) from Iran. Page 72 in Proceedings of the 6th International Weed Science Congress. Hangzhou, China: International Weed Science Congress Google Scholar
Elahifard, E (2005) The Investigation of the Resistance Against Aryloxyphenoxy Propionate Herbicides in Littleseed Canarygrass (Phalaris minor). MSc thesis. Mashhad, Iran: Ferdwosi University of Mashhad Google Scholar
Elahifard, E, Ghanbari, A, Rashed Mohassel, MH, Zand, E, Mirshamsi Kakhki, A, Mohkami, A (2013) Characterization of triazine resistant populations of junglerice [Echinochloa colona (L.) Link.] found in Iran Aust J Crop Sci 7:13021308 Google Scholar
Esmailzadeh, Z, Eslami, SV, Zand, E (2012) Investigating the resistance of annual ryegrass (Lolium rigidum) biotypes collected from wheat fields of Fars province to pinoxaden herbicide Iran J Weed Sci 7:6175 Google Scholar
Ghaseminejad, M, Bazoobandi, M, Karimi Shari, MR (2010) Usage of molecular markers (PCR-RAPD) for studying genetic diversity of Phalaris minor in Iran. In Proceedings of the 3rd Iranian Weed Science Congress. Babolsar, Iran: Iranian Weed Science Congress Google Scholar
Gherekhloo, J (2008) Tracing resistant Phalaris minor populations and studying their resistance mechanisms to aryloxyphenoxy propionate herbicides in Fars and Golestan wheat fields. Ph.D dissertation. Mashhad, Iran: Ferdwosi University of Mashhad Google Scholar
Gherekhloo, J, Derakhshan, A (2012) Investigating cross-resistance of resistant-Phalaris minor to ACCase herbicides Weed Res J 4:1525 Google Scholar
Gherekhloo, J, Noroozi, S, Mazaheri, D, Ghanbari, A, Ghannadha, MR, Vidal, RA, De Prado, R (2010a) Evaluation of multispecies weed competition and their economic threshold on wheat crop using regression equations Planta Daninha 28:239246 Google Scholar
Gherekhloo, J, Osuna, MD, De Prado, R (2012) Biochemical and molecular basis of resistance to ACCase-inhibiting herbicides in Iranian Phalaris minor populations Weed Res 52:367372 Google Scholar
Gherekhloo, J, Rashed Mohassel, MH, Nassiri Mahalati, M, Zand, E, Ghanbari, A, De Prado, R (2010b) Study of the non–target site based mechanisms of resistance in aryloxyphenoxy propionate resistant–Phalaris minor Retz. biotypes Iranian Journal of Weed Science 6:7989 Google Scholar
Gherekhloo, J, Rashed Mohassel, MH, Nassiri Mahalati, M, Zand, E, Ghanbari, A, Osuna, MD, De Prado, R (2011) Confirmed resistance to aryloxyphenoxypropionate herbicides in Phalaris minor populations in Iran Weed Biol Manage 11:2937 Google Scholar
Hatami, Z, Gherekhloo, J, Rojano-Delgado, AM, De Prado, R, Sadeghipour, HR (2014) Investigating resistance of suspected resistant biotypes of wild mustard (Sinapis arvensis L.) to tribenuron-methyl collected from wheat fields of Iran. In Proceedings of the 248th American Chemical Society National Meeting and Exposition. Washington, DC: American Chemical Society Google Scholar
Hatami, Z, Gherekhloo, J, Rojano-Delgado, A, Osuna, MD, Alcántara, R, Fernández, P, Sadeghipour, HR, De Prado, R (2016) Multiple mechanisms increase levels of resistance in Rapistrum rugosum to ALS herbicides Front Plant Sci 7:113 Google Scholar
Heap, IM (2016) International Survey of Herbicide Resistant Weeds Online. http://www.weedscience.org/In.asp. Accessed August 2, 2016Google Scholar
Holt, JS, Powles, SB, Holtum, JAM (1993) Mechanisms and agronomic aspects of herbicide resistance Annu Rev Plant Physiol Plant Mol Biol 44:203229 Google Scholar
Kalami, R, Gherekhloo, J, Kamkar, B, Esfandiaripour, E, De Prado, R (2014) Identifying and mapping of wild oat (Avena ludoviciana Dur.) and Phalaris minor Retz. populations resistant to clodinafop-propargyl in wheat fields of Kordkuy. In Proceedings of the 248th American Chemical Society National Meeting and Exposition. Washington, DC: American Chemical Society.Google Scholar
Khoshayand, S, Zand, E, Nazari, F, Taeb, M (2010) Evaluation of genetic diversity of Phalaris sp. accessions using ISSR markers. In Proceedings of the 3rd Iranian Weed Science Congress. Babolsar, Iran: Iranian Weed Science Congress Google Scholar
Kottek, M, Grieser, J, Beck, C, Rudolf, B, Rubel, F (2006) World map of the Köppen-Geiger climate classification updated Meteorol Z 15:259263 Google Scholar
Liu, Y, Koornneef, M, Soppe, WJJ (2007) The absence of histone H2B mono ubiquitination in the Arabidopsis hub1 (rdo4) mutant reveals a role for chromatin remodeling in seed dormancy Plant Cell 19:433444 Google Scholar
Minbashi Moeini, M, Baghestani, MA, Ahmadi, A, Abtali, Y, Esfandiari, H, Adim, H, Barjesteh, A, Bagherani, N, YounesA-badi, M, PourAzar, A, Jahedi, A, Jararzadeh, N, Jamali, M, Hoseini, SM, Nowrooz Zadeh, S, Delghandi, M, AghaBeigi, F, Sajedi, S, Javadi, B, Moosavi, M (2008) Analytical approach to weed management of irrigated wheat fields of Iran. Pages 128 in Proceedings of the 2nd National Weed Science Congress. Mashhad, Iran: Ferdowsi University of Mashhad Press Google Scholar
Najafi, Z, Eslami, SV, Zand, E (2012) Investigation of wild oat (Avena ludoviciana) biotypes resistance to the clodinafop propargyl, pinoxaden herbicides and their mixture Iran J Weed Res 7:7788 Google Scholar
Najjari Kalantari, N, Gherekhloo, J, Kamkar, B (2013) Tracing and map of canary grass (Phalaris minor) and hood grass (P. paradoxa) biotypes resistant to clodinafop-propargyl herbicide in wheat fields of Aq-qala. Weed Res J 5:8597 Google Scholar
Partovi, M, Zand, E, Mohammad Alizadeh, H, Maknali, A (2005) Investigating resistance of Chenopodium murale L. to chloridazon and desmedipham in Khuzestan sugar beet (Beta vulgaris L.) fields. Pages 499502 in Proceedings of the 1st Iranian Weed Science Congress. Tehran, Iran: Iranian Weed Science Congress Google Scholar
Rastgoo, M (2007) Detecting of Avena ludoviciana resistant to aryloxyphenoxy propionate herbicides in wheat fields of Khuzestan province. Ph.D dissertation. Mashhad, Iran: Ferdwosi University of Mashhad Google Scholar
Rastgoo, M, Rashed Mohassel, MH, Zand, E, Nassiri Mahallati, M (2006) Resistance of winter wild oat (Avena ludoviciana Durieu.) to aryloxyphenoxy propionate herbicides in wheat fields of Khuzestan province: first screening test Iran J Weed Sci 2:96104 Google Scholar
Sasanfar, HR, Zand, E, Baghestani, MA, Mirhadi, MJ (2009) Resistance of wild oat (Avena ludoviciana) populations to clodinafop propargyl herbicide in Fars province Environ Sci 7:109118 Google Scholar
Tahmasebi, I, Rashed Mohassel, MH, Rezvani, P, Ghanbari, A, Zand, E (2010) Relative fitness of aryloxypheonxy propionate resistant and susceptible wild oat (Avena ludoviciana) accessions in greenhouse studies. In Proceedings of the 3rd Iranian Weed Science Congress. Babolsar, Iran: Iranian Weed Science Congress Google Scholar
Uludag, A, Gozcu, D, Rusen, M, Guvercin, RS, Demir, A (2007). The effect of johnsongrass densities (Sorghum halepense L Pers.) on cotton yield. Pak J Biol Sci 10:523525 Google Scholar
Vencill, WK, Nichols, RL, Webster, TM, Soteres, JK, Mallory-Smith, C, Burgos, NR, Johnson, WG, McClelland, MR (2012) Herbicide resistance: toward an understanding of resistance development and the impact of herbicide-resistant crops. Weed Sci (Special Issue):230 Google Scholar
Vila-Aiub, MM, Vidal, RA, Balbi, MC, Gundel, PE, Trucco, F, Ghersa, CM (2008) Glyphosate-resistant weeds of South American cropping systems: an overview Pest Manage Sci 64:366371 Google Scholar
Volenberg, DS, Stoltenberg, DE (2002) Giant foxtail (Setaria faberi) outcrossing and inheritance of resistance to acetyl-coenzyme A carboxylase inhibitors Weed Sci 50:622627 Google Scholar
Yu, Q, Collavo, A, Zheng, MQ, Owen, M, Sattin, M, Powles, SB (2007) Diversity of acetyl-coenzyme A carboxylase mutations in resistant Lolium populations: evaluation using clethodim Plant Physiol 145:547558 Google Scholar
Zand, E, Baghestani, A (2008) A review on five years research on herbicide resistance in Iran. Pages 98112 in Proceedings of the 2nd Iranian Weed Science Congress. Mashhad, Iran: Iranian Weed Science Congress Google Scholar
Zand, E, Baghestani, MA, Bitarafan, M, Shimi, P (2007) A Guideline for Herbicides in Iran. Mahhsad, Iran: Jahad-e-Daneshgahi Press. 66 pGoogle Scholar
Zand, E, Baghestani, MA, Dastaran, F, Atri, AR, Labbafi, MR, Khaiyami, MM, Pourbaig, M (2008) Investigation efficacy of some graminicides in control of resistant and susceptible ryegrass biotypes (Lolium rigidium L.) to acetyl-CoA carboxylase inhibiting herbicides J Plant Prot 22:129145 Google Scholar
Zand, E, Baghestani, MA, Nezamabadi, N, Shimi, P (2010) Herbicides and important weeds in Iran. Tehran, Iran: Center for University Publication. 143 pGoogle Scholar
Zand, E, Bazoobandi, M, Maknali, A, Hatami, S, Feridounpoor, M (2004). Investigation of resistance to some herbicides of pyridazinone, phenyl-carbamate and thiocarbamates in weeds of sugar beet fields and efficacy of the local and original formulations. http://agris.fao.org/agris-search/search.do?recordID=IR2012067024. Accessed June 5, 2015Google Scholar
Zand, E, Jamali, M, Bagherani, N, Maknali, A, Hatami, S, Norouzzadeh, S (2012) An investigation on the resistance of broad leaf weeds to herbicide in wheat fields of some province of Iran. Final report. Iranian Research Institute of Plant Protection, Tehran, Iran Google Scholar
Zand, E, Razmi, A, Benakashani, F, Nazari, F, Gherekhloo, J (2009) Using the dCAPS method to detect the resistance of wild oat (Avena ludoviciana Durieu) to clodinafop-propargyl in comparison with current methods Iran J Weed Sci 6:3352 Google Scholar