OCCURRENCES OF WHEAT CURL MITE ACERIA TOSICHELLA KEIFER 1969 (ERIOPHYIDAE) AND THE ASSOCIATED VIRUSES, (WSMV, HPWMoV, TriMV) IN IRAQ
DOI:
https://doi.org/10.36103/ijas.v54i3.1767Keywords:
wheat streak mosaic virus, high plains wheat mosaic virus, triticum mosaic virus, eriophyid mite.Abstract
This study was aimed to investigate the significant wheat yield losses in northern and central Iraq. The cause of these losses was examining the presence of wheat curl mite Aceria tosichella and three viruses vectored by this species – Wheat streak mosaic virus (WSMV), High Plains wheat mosaic virus (HPWMoV), and Triticum mosaic virus (TriMV). Mite specimens were collected from Erbil, Mosul, and Baghdad over three years (2020-2022) and identified using morphological characterization and DNA sequencing of the ITS region. Virus presence was determined using Double Antibody Sandwich-Enzyme-Linked Immunosorbent Assay (DAS-ELISA). Mites were identified conclusively as A. tosichella, providing the first record of this species in Iraq. All three viruses were found to be present, with WSMV having the largest presence as it was detected in 99.56%, then HPWMoV (79.5%) of mite colonies. This is the first record of HPWMoV anywhere in Eurasia besides Ukraine and its widespread presence in Iraq in all three sampled provinces. TriMV was detected only in Erbil. To date this virus has been recorded only in North America and its limited presence in Iraq. The confirmed presence of A. tosichella and three vectored-viruses in Iraq are all new records and critical information for reducing wheat yield losses in this country.
References
Abdullahi, I., H. Bennypaul, J. Phelan, R. Aboukhaddour, and M. Harding 2020. First report of High Plains wheat mosaic emaravirus infecting foxtail barley and wheat in Canada. Plant Disease. 104(12) 3272
Adhab, M. 2010. Identification of the causal agent of strip shape leaves symptoms on tomato in protective houses. Iraqi J. Biotechnol, 9: 607-617
Adhab, M., Al-Kuwaiti, N., and R. Al-Ani 2021. Biodiversity and Occurrence of Plant Viruses Over Four Decades: Case Study For Iraq. In 2021 Third International Sustainability and Resilience Conference: Climate Change (pp. 159-163). IEEE
Aguirre-Rojas, L. M., L. K. Khalaf and C. M. Smith 2019. Barley varieties stoneham and sydney exhibit mild antibiosis and antixenosis resistance to the wheat curl mite, Aceria tosichella (Keifer). Agronomy. 9(11) 748. https://doi.org/10.3390/agronomy9110748
Al-Ani, A. and F.S. Al-Ani 2010. The relationship between tractor practical velocity and different moisture content on plowing soil layer. Iraqi Journal of Agricultural Sciences, 41: 124-129
Al-ani, F.S. 2012. Studying some technical indicators for a cotton planter under dry conditions. Iraqi Journal of Agricultural Sciences, 43: 102-111
Al-Ani, L.K. 2010. Susceptibility of watermelon cultivars to infestation by the two spotted spider mites. Iraqi Journal of Agricultural Sciences. 41(4) 86-91
Al-Ani, R. and M. Adhab 2013. Bean yellow mosaic virus (BYMV) on broadbean: Characterization and resistance induced by Rhizobium leguminosarum. J. Pure Appl. Microbiol, 7(1), 135-142
Al-Ani, R., L. Sabir, M. Adhab, and A. Hassan 2009. Response of some melon cultivars to infection by Cucumber mosaic virus under field conditions. Iraqi Journal of Agricultural Science, 40(6): 1-8
Al-Ani, R., M. Adhab, M. El-Muadhidi, and M. Al-Fahad 2011. Induced systemic resistance and promotion of wheat and barley plants growth by biotic and non-biotic agents against barley yellow dwarf virus. African Journal of Biotechnology, 10(56), 12078-12084
Alemandri, V., M. Mattio, S. Rodriguez, and G. Truol 2017. Geographical distribution and first molecular detection of an Emaravirus, High Plains wheat mosaic virus, in Argentina. European Journal of Plant Pathology. 149, 743–750
Al-Neami, K. T., O. K. al-Dorri, and L. K. Kahtan 2011. Effect of water extracts of some plants on two-spotted spider mites Tetranychus urticae Koch (Acariformes: Tetranychidae). Iraqi Journal of Agricultural Science. 42(1) 111-117
AlShabar, S. H., A. Timm, and L. Khalaf 2021, November. Population variation of Polyphagotarsonemus latus (Banks) in Baghdad province, central Iraq. In 2021 Third International Sustainability and Resilience Conference: Climate Change (pp. 138-141). IEEE. https://doi.org/10.1109/IEEECONF53624.2021.9668098
Atkinson, T. G., and M. N. Grant 1967. An evaluation of streak mosaic losses in winter wheat. Phytopathology. 57(2) 188–192
Bennypaul H., I. Abdullahi, R. Aboukhaddour, and M. W. Harding 2021. First report of Triticum mosaic virus infecting wheat in Canada. Journal of Plant Pathology. 103, 695-696
Brakke, M.K., 1971. Wheat streak mosaic virus. C.M.I./A.A.B. Descriptions of Plant Viruses. 48. 4
Bremer, K. 1973. Comparison of four virus isolates of wheat streak mosaic from Turkey. Phytopathologia Mediterranea, 12, 67–71.
Burrows, M., G. Franc, C. Rush, T. Blunt, D. Ito, K. Kinzer, J. Olson, J. O'Mara, J. Price, C. Tande and A. Ziems 2009. Occurrence of viruses in wheat in the Great Plains region, 2008. Plant Health Progress. 10(1) 14
Byamukama, E., D. L. Seifers, G. L. Hein, E. De Wolf, N. A. Tisserat, M. A. C. Langham, L. E. Osborne, A. Timmerman, and S. N. Wegulo 2013. Occurrence and distribution of Triticum mosaic virus in the central Great Plains. Plant Disease. 97(1) 21–29
Connin, R. V. 1956. The host range of the wheat curl mite, vector of wheat streak-mosaic. Journal of Economic Entomology. 49(1) 1–4
del Rosario, M. S., and W. H. Sill 1965. Physiological strains of Aceria tulipae and their relationships to transmission of wheat streak mosaic virus. Phytopathology. 55(11) 1168
El-Muadhidi, M., K. Makkouk, S. Kumari, J. Myasser, S. Murad, R. Mustafa, and F. Tarik 2001. Survey for legume and cereal viruses in Iraq. Phytopathol. Mediterr. 40, 224–233
Fahim, M., A. Mechanicos, L. Ayala-Navarrete, S. Haber, and P. J. Larkin 2012. Resistance to wheat streak mosaic virus—a survey of resources and development of molecular markers. Journal of Plant Pathology 61(3) 425–440
Foulad, P., K. Izadpanah 1986. Identification of wheat streak mosaic virus in Iran. Iran Agricultural Research. 5: 73-84.
Hall, T. A. 1999. BioEdit: A user-friendly biological sequence alignment editor and analysis program for windows 95/98/NT. Nucleic acids symposium series. 41(41) 95-98.
Harvey, T. L., T. J. Martin, and D. L. Seifers 2000. Effect of nonviruliferous wheat curl mites on yield of winter wheat. Journal of Agricultural and Urban Entomology. 17(1) 9–13
Harvey, T. L., T. J. Martin, and D. L. Seifers 2002. Wheat yield reduction due to wheat curl mite (Acari: Eriophyidae) infestations. Journal of Agricultural and Urban Entomology. 19(1) 9–13
Harvey, T. L., T. J. Martin, D. L. Seifers, and P. E. Sloderbeck 1997. Change in virulence of wheat curl mite detected on TAM 107 wheat. Crop Science 37: 624–625
IlbağI, H., A. Citir, and Ü. Yorganci 2005. Occurrence of virus infections on cereal crops and their identifications in the Trakya region of Turkey. Journal of Plant Diseases and Protection. 112(4) 313-320
Jensen S. G., L. C. Lane, and D. L. Seifers 1996. A new disease of maize and wheat in the High Plains. Plant Disease. 80(12) 1387–1390
Jones, R. A. C., I. Vazquez-Iglesias, S. McGreig, A. Fox, and A. J. Gibbs 2023. Genomic High Plains wheat mosaic virus Sequences from Australia: Their Phylogenetics and Evidence for Emaravirus Recombination and Reassortment. Viruses. 15(2) 401. https://doi.org/10.3390/v15020401
Khadivar, R. S., and S. Nasrolahnejad 2009. Serological and molecular detection of Wheat streak mosaic virus (WSMV) in cereal fields of Golestan province, Northern Iran. International Journal of Plant Production. 16, 4
Khalaf, L., A. Timm, W. P. Chuang, L. Enders, T. J. Hefley and C. M. Smith 2020. Modeling Aceria tosichella biotype distribution over geographic space and time. Plos one. 15(5) p.e0233507. https://doi.org/10.1371/journal.pone.0233507
Khalaf, L., W. P. Chuang, L. M. Aguirre-Rojas, P. Klein, and C. M. Smith 2019. Differences in Aceria tosichella population responses to wheat resistance genes and wheat virus transmission. Arthropod-Plant Interactions. 13, 807-818. https://doi.org/10.1007/s11829-019-09717-9
Makkouk, K. M. and S. K. Kumari 1997. Natural occurrence of wheat streak mosaic virus on wheat in Syria. Rachis. 16: 74-76
McMechan, A. J., S. Tatineni, R. French, and G. L. Hein 2014. Differential transmission of Triticum mosaic virus by wheat curl mite populations collected in the Great Plains. Plant Disease. 98(6) 806–810
Navia, D., de Mendonça, A. Skoracka, W. Szydło, D. Knihinicki, G. L. Hein, P. R. V. da Silva Pereira, G. Truol, and D. Lau 2013. Wheat curl mite, Aceria tosichella, and transmitted viruses: an expanding pest complex affecting cereal crops. Experimental and Applied Acarology. 59: 95-143. doi.org/10.1007/s10493-012-9633-y
Oldfield, G. N. and G. Proeseler, 1996. Eriophyoid mites as vectors of plant pathogens. In "Lindquist E. E., M. W. Sabelis and J. Bruin (Editors), Eriophyoid mites - Their biology, natural enemies and control. Elsevier science a publisher, Amsterdam, The Netherlands. 259-275
Oldfield, G. N., 1970. Mite transmission of plant viruses. Annual Review of Entomology. 15(1) 343-380
Orlob, G. B. 1966. Feeding and transmission characteristics of Aceria tulipae Keifer as vector of wheat streak mosaic virus. Journal of Phytopathology. 55(3) 218–238
Sabelis, M. W. and J. Bruin 1996. Evolutionary Ecology: life history patterns, food plant choice and dispersal. In "Lindquist E. E., M. W. Sabelis and J. Bruin (Editors), Eriophyoid mites - Their biology, natural enemies and control. World Crop Pest Series Vol. 6. Elsevier Science a publisher, Amsterdam, The Netherlands. pp. 329–366
SAS 2008. The SAS system for windows. Release version 9.2. SAS institute, Cary, NC
Schiffer, M., P. Umina, M. Carew, A. Hoffmann, B. Rodoni, and A. Miller 2009. The distribution of wheat curl mite (Aceria tosichella) lineages in Australia and their potential to transmit Wheat streak mosaic virus. Annals of Applied Biology. 155(3) 371–379
Seifers, D. L., T. Martin, and J. P. Fellers 2011. Occurrence and yield effects of wheat infected with Triticum mosaic virus in Kansas. Plant Disease. 95(2) 183–188
Skoracka, A., and M. Dabert 2010. The cereal rust mite Abacarus hystrix (Acari: Eriophyoidea) is a complex of species: evidence from mitochondrial and nuclear DNA sequences. Bulletin of Entomological Research. 100(3) 263–272
Slykhuis, J. T., and W. Bell 1963. New evidence on the distribution of Wheat streak mosaic virus and the relation of isolates from Rumania, Jordan and Canada. Phytopathology 53(2) 236 –237
Snihur, H., I. Pozhylov, I. Budzanivska, and O. Shevchenko 2020. First report of High Plains wheat mosaic virus on different hosts in Ukraine. Journal of Plant Pathology. 102, 545–546
Stamatakis, A. 2014. RAxML version 8: a tool for phylogenetic analysis and post-analysis of large phylogenies. Bioinformatics. 30(9) 1312-1313.
Tatineni S., and G. L. Hein 2021. High Plains wheat mosaic virus: An enigmatic disease of wheat and corn causing the High Plains disease. Molecular Plant Pathology, 22, 1167–1179.
Toros, S., 1983. Mites transmitting plant-pathogenic viruses. Bitki Koruma Bulteni, 23(2) 74-91
Truol G., and M. Sagadin 2007. Primera mención de la presencia de High Plains virus transmitido por Aceria tosichella Keifer (Acarina. Popstigmata) en trigos de Argentina. Fitopatol Bras (Suplemento). 32, 249
Velandia, M. R., M. Rejesus, D. C., Jones, J. A. Price, F. Workneh, and C. M. Rush 2010. Economic impact of Wheat streak mosaic virus in the Texas High Plains. Crop protection. 29(7) 699–703
XiaoFeng, X., H. Sadeghi, H. XiaoYue, S. Sinaie 2011. Nine eriophyoid mite species from Iran (Acari, Eriophyidae). ZooKeys, 143:23-45. https://doi.org/10.3897/zookeys.143.2162.
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