Natural Hosts of Tomato Yellow Leaf Curl Virus-TYLCV, “Weeds”
Year 2022,
Volume: 25 Issue: 2, 145 - 150, 31.12.2022
Tuğba Erdoğan
,
Cemile Temur Çınar
,
Doğan Işık
Abstract
Tomato yellow leaf curl virus (TYLCV) is one of the most crucial worldwide viruses causing severe disease in tomato production. TYLCV is a member of the genus Begomovirus in the family Geminiviridae. A weed is a plant considered undesirable in a particular situation, "a plant in the wrong place", or a plant growing where it is not wanted. In addition to tomato species, many weed species may also host TYLCV. Weeds have an important place in the ecology of cultivated plants and adversely affect yield and quality in agricultural production, as weeds often become the main hosts for plant viruses and insect vector species when the crops are harvested. In studies conducted around the world, it has been stated that many weed species are infected with TYLCV and most of them do not show any symptoms. Many weed species either introduced or native have been known to serve as hosts of TYLCV and play a very crucial role in the spread and epidemiology of TYLCV in tomato fields worldwide. In this review, besides the direct damage of weeds to crop plants, the negative effects of weeds in terms of hosting virus diseases were examined.
References
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- Başaran F. (2022). Yabancı ot-Kültür Bitkisi Etkileşimi: Rekabet Sürdürülebilir Çevre Dergisi, 2 (1): 9-18.
- Bedford I.D., Kelly A., G.K. Banks G.K., R.W. Briddon R.W., J.L. Cenis J.L., Markham P.G. (1998). Solanum nigrum: an indigenous weed reservoir for a tomato yellow leaf curl geminivirus in southern Spain, European Journal of Plant Pathology volume 104: 221–22.
- Chen, G., Pan H., Xie W., Wang S., Wu Q., Fang Y., Shi X., 2013. Virus infection of a weed increases vector attractionto and vector fitness on the weed.Sci. Rep.3, 2253; DOI:10.1038/srep02253.
- Cleaveland S, Haydon D.T, Taylor L. (2007). Overviews of pathogen emergence: which pathogens emerge, when and why? Current Topics in Microbiology and Immunology 315: 85-111.
- Cohen S., ve Harpaz, I. (1964). Periodic, rather than continual acquisition of new tomato virus by its vector, the tobacco whitefly (Bemisia tabaci Gennadius). Entomol. Exp. Appl. 7:155-166.
- Cohen S., ve Nitzany F. E. (1960). Curly top virus of tomatoes: its identification and mode of transmission. Report No. 311 of the Israeli Plant Protection and Inspection services.
- Czosnek H. (2007). Tomato Yellow Leaf Curl Virus Disease. Management, Molecular Biology, Breeding for Resistance. Dordrecht: Springer. doi: 10.1007/978-1-4020-4769-5.
- Czosnek H. (2021). Tomato Yellow Leaf Curl Viruses (Geminiviridae). In: Bamford, D.H. and Zuckerman, M.(eds.) Encyclopedia of Virology, 4th Edition, vol. 3, pp. 768–777.
- FAOSTAT. (2020). Available online: http://www.fao.org/faostat/es/#data/QC (accessed on 28 August 2020).
- Jones R.A.C. (2009). Plant virus emergence and evolution: origins, new encounter scenarios, factors driving emergence, effects of changing world conditions, and prospects for control. Virus Research 141: 113-130.
- Jones R.A.C. (2021). Global PlantVirus Disease Pandemics and Epidemics.Plants,10, 233.
- Jones R.A.C., Naidu R.A. (2019). Global dimensions of plant virus diseases: Current status and future perspectives.Annu. Rev. Virol. 6, 387–409.
- Kashina B.D., Mabagala R.B., Mpunami A.A. (2002). Reservoir Weed Hosts of Tomato Yellow Leaf Curl Begomovirus from Tanzania, Archives of Phytopathology and Plant Protection, 35:4, 269-278, DOI: 10.1080/03235400216134.
- Kil E.J, Byun H.S, Hwang H., Lee K.Y., Choi H.S., Kim C.S., Lee S. (2021). Tomato Yellow Leaf Curl Virus Infection in a Monocotyledonous Weed (Eleusine İndica), The Plant Pathology Journa 37(6): 641-651.
- Kil E.J, Park j., Lee H.,Kim J., Choi H.S., Lee K.Y., Kim C.S.,Lee S. (2013). Lamium amplexicaule (Lamiaceae): a weed reservoir for tomato yellow leaf curl virus (TYLCV) in Korea, Arch Virol 159:1305-1311.
- Klinkowski M. (1970). Catastrophic plant diseases. Annu. Rev. Phytopathol. 8, 37–60.
- Li G., Zhao L., Xiang Wang., Gao Y., Sun G., Zhu X. (2014). New natural hosts of Tomato yellow leaf curl virus identified in and near tomato-growing greenhouses in eastern China, Journal of general plant pathology 80(5): 449-453.
- Moriones E., and Navas-Castillo J. (2000). Tomato yellow leaf curl virus, an emerging virus complex causing epidemics worldwide. Virus Res. 71:123-134.
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- Pan H., Chu D., Yan W., Su Q., Liu B., Wang S., Wu Q., Xie W., Jiao X., Li R., Yang N., Yang X., Xu B., Brown J.K., Zhou X., Zhang Y. (2012). Rapid spread of tomato yellow leaf curl virus in China is aided differentially by two invasive whiteflies. PLoS ONE 7, e34817.
https://doi.org/10.1371/journal.pone.0034817.
- Papayiannis L. C., Brown J. K., Idris A. M. Paraskevopoulos A., and Katis N. I. (2009). Epidemiology and characterization of Begomovirus and Bemisia tabaci biotypes in Greece and Cyprus. Phytopathol. Mediterr. 48:320.
- Papayiannis L. C., Katis N. I., Idris A. M., and Brown J. K. (20119. Identification of weed hosts of Tomato yellow leaf curl virus in Cyprus. Plant Dis. 95:120-125.
- Prasad A., Sharma N., Hari-Gowthem G., Muthamilarasan M., Prasad M. (2020). Tomato Yellow Leaf Curl Virus: Impact, Challenges, and Management. Trends in Plant Science, 25: 9.
- Ramosa R.S., Kumarb L., Shabanib F., Picançoa M.C. (2019). Risk of spread of tomato yellow leaf curl virus (TYLCV) in tomato crops under various climate change scenarios. Agricultural Systems 173: 524–535.
- Reddy C. (2018). A Study on crop weed competition in field crops. Journal of Pharmacognosy and Phytochemistry, 7(4): 3235-3240.
- Scholthof K.B. G., Adkıns S., Czosnek H., Palukaıtıs P., Jacquot E., Hohn T., Hohn B., Saunders K., Candresse T., Ahlquıst P., Hemenway, C. and Foster, G.D. (2011). Top 10 plant viruses in molecular plant pathology. Molecular Plant Pathology. 12(9): 938–954.
- Shamshiri M., Heydamejad J., Kamali M., Pouramini N. And Massumi H. (2019), Identification of wild hosts of tomato leaf curl virus in South-Eastern Iran, Archives of Phytopathology and Plant Protection 52:9-10,917-929.
- Temur Cinar C., Gazel M., Kaya K., Olmos A., Caglayan K. (2022). Susceptibility of different prunus rootstocks to natural infection of plum pox virus-Turkey (PPV-T) in Central Anatolia. Physiological and Molecular Plant Pathology, Volume 119.
- Woolhouse M.E.J., Haydon D.T., Antia R. (2005). Emerging pathogens: the epidemiology and evolution of species jumps. Trends in Ecology and Evolution 20: 238-244.
Domates Sarı Yaprak Kıvırcıklık Virüsünün (Tomato Yellow Leaf Curl Virus-TYLCV) Doğal Konukçuları: Yabancı Otlar
Year 2022,
Volume: 25 Issue: 2, 145 - 150, 31.12.2022
Tuğba Erdoğan
,
Cemile Temur Çınar
,
Doğan Işık
Abstract
Domates üretiminde ekonomik olarak önemli kayıplara yol açan hastalık etmenlerinden biri olan domates sarı yaprak kıvırcıklık virüsü (tomato yellow leaf curl virus-TYLCV), Geminiviridae familyasına bağlı Begomovirus cinsinin bir üyesidir. Yabancı ot, belirli bir durumda istenmeyen bir bitki, "yanlış yerde yetişen bir bitki" veya istenmediği yerde büyüyen bitki olarak tanımlanabilir. TYLCV’ ye domates türlerinin yanı sıra çok sayıda yabancı ot türü de konukçuluk yapmaktadır. Kültür bitkilerinin ekolojisinde yabancı otlar önemli bir yere sahiptir ve ürünler hasat edildiğinde, yabancı otlar genellikle bitki virüsleri ve böcek vektör türleri için ana konukçu haline geldiği için tarımsal üretimde verimi ve kaliteyi olumsuz etkilemektedir. Dünya genelinde yapılan araştırmalarda pek çok yabancı ot türünün TYLCV ile enfekte olduğu ve bunların çoğunluğunun hiçbir simptom göstermediği belirtilmiştir. Bilinen veya bilinmeyen birçok yabancı ot türünün TYLCV'nin konukçusu olarak hizmet ettiği ve dünya çapında domates tarlalarında TYLCV'nin yayılması ve epidemiyolojisinde çok önemli bir rol oynadığı bilinmektedir. Bu derlemede, yabancı otların kültür bitkilerine olan doğrudan zararının yanında, virüs hastalıklarına konukçuluk etmesi açısında oluşturduğu olumsuz etkileri incelenmiştir.
References
- Abraham P., Banwo O.O., Kashina B.K., Alegbejo M.D. (2021). Identification of Weed Hosts of Tomato yellow leaf curl virus in Field-Grown Tomato in Sudan Savanna, Nigeria, International Journal of Horticultural Science and Technology.8(3):235-246.
- Anonim, (2022). Yabancı Ot Zirai Mücadele Teknik Talimatları. https://www.tarimorman.gov.tr/TAGEM/Belgeler/yayin/Yabanc%C4%B1%20Ot%20Zirai%20M%C3%BCcadele%20Teknik%20Talimatlar%C4%B1.pdf (Erişim tarihi: 16.08.2022).
- Başaran F. (2022). Yabancı ot-Kültür Bitkisi Etkileşimi: Rekabet Sürdürülebilir Çevre Dergisi, 2 (1): 9-18.
- Bedford I.D., Kelly A., G.K. Banks G.K., R.W. Briddon R.W., J.L. Cenis J.L., Markham P.G. (1998). Solanum nigrum: an indigenous weed reservoir for a tomato yellow leaf curl geminivirus in southern Spain, European Journal of Plant Pathology volume 104: 221–22.
- Chen, G., Pan H., Xie W., Wang S., Wu Q., Fang Y., Shi X., 2013. Virus infection of a weed increases vector attractionto and vector fitness on the weed.Sci. Rep.3, 2253; DOI:10.1038/srep02253.
- Cleaveland S, Haydon D.T, Taylor L. (2007). Overviews of pathogen emergence: which pathogens emerge, when and why? Current Topics in Microbiology and Immunology 315: 85-111.
- Cohen S., ve Harpaz, I. (1964). Periodic, rather than continual acquisition of new tomato virus by its vector, the tobacco whitefly (Bemisia tabaci Gennadius). Entomol. Exp. Appl. 7:155-166.
- Cohen S., ve Nitzany F. E. (1960). Curly top virus of tomatoes: its identification and mode of transmission. Report No. 311 of the Israeli Plant Protection and Inspection services.
- Czosnek H. (2007). Tomato Yellow Leaf Curl Virus Disease. Management, Molecular Biology, Breeding for Resistance. Dordrecht: Springer. doi: 10.1007/978-1-4020-4769-5.
- Czosnek H. (2021). Tomato Yellow Leaf Curl Viruses (Geminiviridae). In: Bamford, D.H. and Zuckerman, M.(eds.) Encyclopedia of Virology, 4th Edition, vol. 3, pp. 768–777.
- FAOSTAT. (2020). Available online: http://www.fao.org/faostat/es/#data/QC (accessed on 28 August 2020).
- Jones R.A.C. (2009). Plant virus emergence and evolution: origins, new encounter scenarios, factors driving emergence, effects of changing world conditions, and prospects for control. Virus Research 141: 113-130.
- Jones R.A.C. (2021). Global PlantVirus Disease Pandemics and Epidemics.Plants,10, 233.
- Jones R.A.C., Naidu R.A. (2019). Global dimensions of plant virus diseases: Current status and future perspectives.Annu. Rev. Virol. 6, 387–409.
- Kashina B.D., Mabagala R.B., Mpunami A.A. (2002). Reservoir Weed Hosts of Tomato Yellow Leaf Curl Begomovirus from Tanzania, Archives of Phytopathology and Plant Protection, 35:4, 269-278, DOI: 10.1080/03235400216134.
- Kil E.J, Byun H.S, Hwang H., Lee K.Y., Choi H.S., Kim C.S., Lee S. (2021). Tomato Yellow Leaf Curl Virus Infection in a Monocotyledonous Weed (Eleusine İndica), The Plant Pathology Journa 37(6): 641-651.
- Kil E.J, Park j., Lee H.,Kim J., Choi H.S., Lee K.Y., Kim C.S.,Lee S. (2013). Lamium amplexicaule (Lamiaceae): a weed reservoir for tomato yellow leaf curl virus (TYLCV) in Korea, Arch Virol 159:1305-1311.
- Klinkowski M. (1970). Catastrophic plant diseases. Annu. Rev. Phytopathol. 8, 37–60.
- Li G., Zhao L., Xiang Wang., Gao Y., Sun G., Zhu X. (2014). New natural hosts of Tomato yellow leaf curl virus identified in and near tomato-growing greenhouses in eastern China, Journal of general plant pathology 80(5): 449-453.
- Moriones E., and Navas-Castillo J. (2000). Tomato yellow leaf curl virus, an emerging virus complex causing epidemics worldwide. Virus Res. 71:123-134.
- Özdemir Ç. ve Işık D. (2020). Kayseri İli Çerezlik Kabak Ekiliş Alanlarında Görülen Yabancı Otların Tespiti. Turk J Weed Sci, 23(1):74-80.
- Pan H., Chu D., Yan W., Su Q., Liu B., Wang S., Wu Q., Xie W., Jiao X., Li R., Yang N., Yang X., Xu B., Brown J.K., Zhou X., Zhang Y. (2012). Rapid spread of tomato yellow leaf curl virus in China is aided differentially by two invasive whiteflies. PLoS ONE 7, e34817.
https://doi.org/10.1371/journal.pone.0034817.
- Papayiannis L. C., Brown J. K., Idris A. M. Paraskevopoulos A., and Katis N. I. (2009). Epidemiology and characterization of Begomovirus and Bemisia tabaci biotypes in Greece and Cyprus. Phytopathol. Mediterr. 48:320.
- Papayiannis L. C., Katis N. I., Idris A. M., and Brown J. K. (20119. Identification of weed hosts of Tomato yellow leaf curl virus in Cyprus. Plant Dis. 95:120-125.
- Prasad A., Sharma N., Hari-Gowthem G., Muthamilarasan M., Prasad M. (2020). Tomato Yellow Leaf Curl Virus: Impact, Challenges, and Management. Trends in Plant Science, 25: 9.
- Ramosa R.S., Kumarb L., Shabanib F., Picançoa M.C. (2019). Risk of spread of tomato yellow leaf curl virus (TYLCV) in tomato crops under various climate change scenarios. Agricultural Systems 173: 524–535.
- Reddy C. (2018). A Study on crop weed competition in field crops. Journal of Pharmacognosy and Phytochemistry, 7(4): 3235-3240.
- Scholthof K.B. G., Adkıns S., Czosnek H., Palukaıtıs P., Jacquot E., Hohn T., Hohn B., Saunders K., Candresse T., Ahlquıst P., Hemenway, C. and Foster, G.D. (2011). Top 10 plant viruses in molecular plant pathology. Molecular Plant Pathology. 12(9): 938–954.
- Shamshiri M., Heydamejad J., Kamali M., Pouramini N. And Massumi H. (2019), Identification of wild hosts of tomato leaf curl virus in South-Eastern Iran, Archives of Phytopathology and Plant Protection 52:9-10,917-929.
- Temur Cinar C., Gazel M., Kaya K., Olmos A., Caglayan K. (2022). Susceptibility of different prunus rootstocks to natural infection of plum pox virus-Turkey (PPV-T) in Central Anatolia. Physiological and Molecular Plant Pathology, Volume 119.
- Woolhouse M.E.J., Haydon D.T., Antia R. (2005). Emerging pathogens: the epidemiology and evolution of species jumps. Trends in Ecology and Evolution 20: 238-244.