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Year 2023, Volume: 37 Issue: 2, 373 - 388, 30.08.2023

Abstract

References

  • Afanasenko OS, Koziakov AV, Hedlay PE, Lashina NM, Anisimova AV, Manninen O, Jalli M, Potokina EK (2015). Mapping of loci controlling the resistance to Pyrenophora teres f. teres and Cochliobolus sativus in two double haploid barley populations. Russian Journal of Genetics: Applied Research, 5: 242-253.
  • Aktaş H (1982). Orta Anadolu Bölgesi arpa ve buğday ekim alanlarında görülen kök çürüklüğü hastalık etmeni Drechslera sorokiniana (Sacc.) Subram. and Jain'nın yayılışı. In: III. Türkiye Fitopatoloji Kongresi Bildirileri, Adana, Türkiye, pp. 10-23.
  • Aktaş H, Tunalı B (1994). Türkiye’de ekimi yapılan ve ümitvar olan bazı buğday ile arpa çeşit ve hatlarının önemli hastalıklarına karşı reaksiyonlarının saptanması üzerinde araştırmalar. Bitki Koruma Bülteni, 34: 123-133.
  • Anonymous A (2020). Toprak Mahsulleri Ofisi Genel Müdürlüğü, 2019 Yılı Hububat Sektör Raporu. Ankara.
  • Anonymous B (2020). Ulusal Hububat Konseyi, 2019-2020 Üretim Yılı (1 Ekim 2019-30 Nisan 2020) Buğday-Arpa-Çavdar-Yulaf Üretim Tahmini Raporu. Ankara.
  • Anonymous (2021). Türkiye İstatistik Kurumu, Bitkisel Üretim 1. Tahmini, 2021, Website: https://data.tuik.gov.tr (/Bulten/Index?p=Bitkisel-Uretim-1.Tahmini-20237247&dil=1) (Access date: 21.03.2022).
  • Arabi MIE, Jawhar M(2004). Identification of Cochliobolus sativus (spot blotch) isolates expressing differential virulence on barley genotypes in Syria. Journal of Phytopathology, 152: 461-464. Balcı S, Karakaya A, Çelik Oğuz A, Ergün N, Sayim İ, Aydoğan S (2018). Bazı kavuzsuz arpa çeşit ve hatlarının Cochliobolus yaprak lekesi hastalığına karşı fide dönemi tepkilerinin değerlendirilmesi. Bitki Koruma Bülteni, 58: 221-226.
  • Bonman MJ, Bockelman HE, Jackson LF, Steffenson B, (2005). Disease and insect resistance in cultivated barley accessions from the USDA National Small Grains Collection. Crop Science, 45: 1271–1280.
  • Celik-Oguz A, Karakaya A (2017). Seedling response of commonly grown barley cultivars in Turkey to spot blotch disease. Fresenius Environmental Bulletin, 26: 6734-6738.
  • Chang N, Jia X, Gao Z, Wu W, Liu W, Wu Y (1998). Evaluating spot blotch resistance traits in wheat and related species. In In Duveiller, E., Dubin, H.J., Reeves, J. and McNab A., (Eds), Helminthosporium Blights of Wheat: Spot Blotch and Tan Spot. CIMMYT, Mexico, D.F., Mexico,pp. 246–252.
  • Clear RM, Patrick SK, Nowicki T, Gaba D, Edney M, Babb JC (1997). The effect of hull removal and pearling on Fusarium species and trichothecenes in hulless barley. Canadian Journal of Plant Science, 77: 161-166.
  • Çelik Oğuz A, Karakaya A, Mert Z, Ergün N, Sayim I, Aydoğan S (2016). Determination of the seedling reactions of advanced barley lines to spot blotch disease caused by Cochliobolus sativus. Works of the Faculty of Agriculture and Food Sciences, University of Sarajevo, LXI (66/1): 244-246.
  • Çelik E, Karakaya A (2017). Yabani arpa (Hordeum spontaneum) ve hastalıklara dayanıklılık. Mustafa Kemal Üniversitesi Ziraat Fakültesi Dergisi, 22: 65-86.
  • Çelik Oğuz A, Akdoğan G, Karakaya A (2019). Determination of the seedling reactions of six-rowed barley landraces to spot blotch disease incited by Cochliobolus sativus. Harran Tarım ve Gıda Bilimleri Dergisi, 23: 444- 450.
  • Duan R, Xiong H, Wang A, Chen G (2015). Molecular mechanisms underlying hull-caryopsis adhesion/separation revealed by comparative transcriptomic analysis of covered/naked barley (Hordeum vulgare L.). Int. J. Moleculer Sciences, 16: 14181-14193.
  • Eğilmez S (2021). Tarımsal Ekonomi ve Politika Geliştirme Estitüsü Ürün Raporu Arpa. Ankara. p. 17.
  • Eteve G (1985). Breeding for tolerance and winter hardiness in pea. In Hebblethwaite PD, Heath MC, Dawkins TCK (Eds), The pea Crop: A Basis for Improvement. Butterworths, London. UK, pp. 131-136. Fetch TG, Jr., Steffenson BJ (1999). Rating scales for assessing infection responses of barley infected with Cochliobolus sativus. Plant Disease, 83: 213-217.
  • Fetch TG, Jr.,Steffenson BJ, Nevo E (2003). Diversity and sources of multiple disease resistance in Hordeum spontaneum. Plant Disease, 87: 1439-1448.
  • Geçit HH (2016). Tarla Bitkileri. Ankara Üniversitesi Ziraat Fakültesi Yayınları. Yayın no: 1640, Ders Kitabı: 591. 822 pp.
  • Gerlegiz TE, Karakaya A, Çelik Oğuz A, Mert Z, Sayim İ, Ergün N, Aydoğan S (2015). Assessment of the seedling reactions of some hulless barley genotypes to Drechslera teres f. maculata. Selcuk Journal of Agriculture and Food Sciences, 28: 63-68.
  • Ghazvini H, Tekauz A (2007). Reactions of Iranian barley accessions to three predominant pathogens in Manitoba. Canadian Journal of Plant Pathology, 29: 69-78.
  • Haas M, Menke J, Chao S, Steffenson BJ (2016). Mapping quantitative trait loci conferring resistance to a widely virulent isolate of Cochliobolus sativus in wild barley accession PI 466423. Theoretical and Applied Genetics, 129: 1831–1842.
  • Hetzler J, Eyal J, Fehrmann H, Mehta YR, Kushnir U, Zekaria-Oren J, Cohen L (1991). Interaction between Cochliobolus sativus and wheat cultivars. InSaunders, D.A., (Ed), Wheat for the Non-Traditional Warmer Areas. . CIMMYT, Mexico, D.F., Mexico,pp. 266–283.
  • Jana S, Bailey KL (1995). Responses of wild and cultivated barley from West Asia to net blotch and spot blotch. Crop Science, 35: 242-246.
  • Kumar J, Hückelhoven R, Beckhove U, Nagarajan S, Kogel K-H (2001). A compromised Mlo pathway affects the response of barley to the necrotrophic fungus Bipolarissorokiniana (teleomorph: Cochliobolus sativus). Phytopathology, 91: 127–133.
  • Kumar J, Schäfer P, Hückelhoven R, Langen G, Baltruschat H, Stein E, Nagarajan S, Kogel KH (2002). Bipolaris sorokiniana, a cereal pathogen of global concern: cytological and molecular approaches towards better control. Molecular Plant Pathology, 3: 185-195.
  • Legzdina L, Buerstmayr H (2004). Comparison of infection with Fusarium head blight and accumulation of mycotoxins in grain of hulless and covered barley. Journal of Cereal Science, 40: 61–67.
  • Singh D, Pande SK, Singh SP, (2017). Evaluation of the barley genotypes against spot blotch disease caused by Bipolaris sorokiniana. Plant Archives, 17: 167-170.
  • Mathre DE (1997). Compendium of barley diseases. American Phytopathological Society. APS Press. Minnesota, USA. p. 120.
  • Mujeeb-Kazi A (1998). Novel genetic diversity for stress tolerance in the triticale: strategic avenues and applied potentials.In Duveiller, E., Dubin, H.J., Reeves, J. and McNab A., (Eds), Helminthosporium Blights of Wheat: Spot Blotch and Tan Spot. CIMMYT, Mexico, D.F., Mexico,, pp. 223–229.
  • Novazaki F, Afanasenko O, Lashina N, Platz GJ, Snowdon, Loskutov I (2020). Genome-wide association studies in a barley (Hordeum vulgare) diversity set reveal a limited number of loci for resistance to spot blotch (Bipolaris sorokiniana). Plant Breeding, 139: 521-535.
  • Singh D, Pande SK, Singh SP (2017). Evaluation of the barley genotypes against spot blotch disease caused by Bipolaris sorokiniana. Plant Archives, 17: 167-170.
  • Ullrich SE (2011). Significance, adaptation, production, and trade of barley. In: Ullrich, S.E. (Ed.), Blackwell Publishing Ltd.,Barley. Chichester, UK, pp. 3-13
  • USDA (2022). United States Department of Agriculture, Foreign Agricultural Service. Website: https://apps.fas.usda.gov/psdonline/app/index.html#/app/adv Query (Access date: 21.03.2022).
  • Van Ginkel M, Rajaram S (1998). Breeding for resistance to spot blotch in wheat: global perspective. In Duveiller, E., Dubin, H.J., Reeves, J. and McNab A., (Eds), Helminthosporium Blights of Wheat: Spot Blotch and Tan Spot. CIMMYT, Mexico, D.F., Mexico, pp. 162–170.
  • Visioni A, Rehman S, Viash SS, Singh SP, Vishwakarma R, Gyawali S, Al-Abdallat AM, Verma RPS (2020). Genome wide association mapping of spot blotch resistance at seedling and adult plant stages in barley. Frontiers in Plant Science, 11: 642
  • Yıldırım AF, Araz A, Turgay EB, Ünal F, Büyük O (2016). Serin İklim Tahıllarında Kök ve Kökboğazı Hastalıklarının Dünü, Bugünü ve Mücadelesi, T. C. Gıda, Tarım ve Hayvancılık Bakanlığı, Tarımsal Araştırmalar ve Politikalar Genel Müdürlüğü, Ankara Zirai Mücadele Merkez Araştırma Enstitüsü, Ankara. 104 pp.
  • Yun SJ, Gyenis L, Hayes PM, Matus I, Smith KP, Steffenson BJ, Muehlbauer GJ (2005). Quantitative trait loci for multiple disease resistance in wild barley. Crop Science, 45: 2563–2572. Zadoks JC, Chang TT, Konzak CF (1974). A decimal code for the growth stages of cereals. Weed Research 14: 415-421.
  • Zhou H, Steffenson B (2013). Genome-wide association mapping reveals genetic architecture of durable spot blotch resistance in US barley germplasm. Molecular Breeding, 32: 139-154.
  • Zohary D, Hopf M (2000). Domestication of plants in the Old World. 3rd edn. Oxford: Oxford University Press. p. 666.

Determination of Seedling Reactions of Some Barley Cultivars, Lines, and Wild Barley (Hordeum spontaneum) Genotypes to Cochliobolus Leaf Spot Disease

Year 2023, Volume: 37 Issue: 2, 373 - 388, 30.08.2023

Abstract

Cochliobolusleaf spot disease, also seen in barley, is an important disease caused by the fungus, Cochliobolus sativus. In this study, under greenhouse conditions, seedling stagereactions of 36 barley cultivars, 35 advancedlines, and 21 wild barley (Hordeum spontaneum) genotypes obtained from Elazığ province of Türkiye and Güzelyurt district of the Turkish Republic of Northern Cyprus against a virulent isolate of Cochliobolus sativus has been determined. Among barley cultivars and genotypes, six genotypes showed a low reaction, 29 genotypes showed moderate reactions and 36 genotypes showed a high reaction. Of the wild barley genotypes, two, 8, and 11 genotypes showed low, moderate, and high reactions respectively. Barley cultivars Harman and Pınar showed low reaction responses, cultivars Akar, Bolayır, Bozlak, Burgaz, Çumra 2001, Hasat, Misket, Orza 96, Sabribey, Sinanbey, Yaprak, and Yesevi 93 exhibited intermediate reaction responses and cultivars Anka-06, Asil, Avcı 2002, Aydanhanım, Ayrancı, Başgül, Burakbey, Bülbül 89, Cacabey, Cirit, Çetin 2000, Hazar, İnce 04, Keykubat, Larende, Özdemir 05, Sayım 40, Tarm 92, Tosunpaşa, Yalın, Yüksel, and Zeynelağa showed high reaction responses. Barley cultivars exhibiting low reaction types can be used by farmers in the field, while barley lines and wild barley genotypes showing low reactions can be used in breeding studies.

References

  • Afanasenko OS, Koziakov AV, Hedlay PE, Lashina NM, Anisimova AV, Manninen O, Jalli M, Potokina EK (2015). Mapping of loci controlling the resistance to Pyrenophora teres f. teres and Cochliobolus sativus in two double haploid barley populations. Russian Journal of Genetics: Applied Research, 5: 242-253.
  • Aktaş H (1982). Orta Anadolu Bölgesi arpa ve buğday ekim alanlarında görülen kök çürüklüğü hastalık etmeni Drechslera sorokiniana (Sacc.) Subram. and Jain'nın yayılışı. In: III. Türkiye Fitopatoloji Kongresi Bildirileri, Adana, Türkiye, pp. 10-23.
  • Aktaş H, Tunalı B (1994). Türkiye’de ekimi yapılan ve ümitvar olan bazı buğday ile arpa çeşit ve hatlarının önemli hastalıklarına karşı reaksiyonlarının saptanması üzerinde araştırmalar. Bitki Koruma Bülteni, 34: 123-133.
  • Anonymous A (2020). Toprak Mahsulleri Ofisi Genel Müdürlüğü, 2019 Yılı Hububat Sektör Raporu. Ankara.
  • Anonymous B (2020). Ulusal Hububat Konseyi, 2019-2020 Üretim Yılı (1 Ekim 2019-30 Nisan 2020) Buğday-Arpa-Çavdar-Yulaf Üretim Tahmini Raporu. Ankara.
  • Anonymous (2021). Türkiye İstatistik Kurumu, Bitkisel Üretim 1. Tahmini, 2021, Website: https://data.tuik.gov.tr (/Bulten/Index?p=Bitkisel-Uretim-1.Tahmini-20237247&dil=1) (Access date: 21.03.2022).
  • Arabi MIE, Jawhar M(2004). Identification of Cochliobolus sativus (spot blotch) isolates expressing differential virulence on barley genotypes in Syria. Journal of Phytopathology, 152: 461-464. Balcı S, Karakaya A, Çelik Oğuz A, Ergün N, Sayim İ, Aydoğan S (2018). Bazı kavuzsuz arpa çeşit ve hatlarının Cochliobolus yaprak lekesi hastalığına karşı fide dönemi tepkilerinin değerlendirilmesi. Bitki Koruma Bülteni, 58: 221-226.
  • Bonman MJ, Bockelman HE, Jackson LF, Steffenson B, (2005). Disease and insect resistance in cultivated barley accessions from the USDA National Small Grains Collection. Crop Science, 45: 1271–1280.
  • Celik-Oguz A, Karakaya A (2017). Seedling response of commonly grown barley cultivars in Turkey to spot blotch disease. Fresenius Environmental Bulletin, 26: 6734-6738.
  • Chang N, Jia X, Gao Z, Wu W, Liu W, Wu Y (1998). Evaluating spot blotch resistance traits in wheat and related species. In In Duveiller, E., Dubin, H.J., Reeves, J. and McNab A., (Eds), Helminthosporium Blights of Wheat: Spot Blotch and Tan Spot. CIMMYT, Mexico, D.F., Mexico,pp. 246–252.
  • Clear RM, Patrick SK, Nowicki T, Gaba D, Edney M, Babb JC (1997). The effect of hull removal and pearling on Fusarium species and trichothecenes in hulless barley. Canadian Journal of Plant Science, 77: 161-166.
  • Çelik Oğuz A, Karakaya A, Mert Z, Ergün N, Sayim I, Aydoğan S (2016). Determination of the seedling reactions of advanced barley lines to spot blotch disease caused by Cochliobolus sativus. Works of the Faculty of Agriculture and Food Sciences, University of Sarajevo, LXI (66/1): 244-246.
  • Çelik E, Karakaya A (2017). Yabani arpa (Hordeum spontaneum) ve hastalıklara dayanıklılık. Mustafa Kemal Üniversitesi Ziraat Fakültesi Dergisi, 22: 65-86.
  • Çelik Oğuz A, Akdoğan G, Karakaya A (2019). Determination of the seedling reactions of six-rowed barley landraces to spot blotch disease incited by Cochliobolus sativus. Harran Tarım ve Gıda Bilimleri Dergisi, 23: 444- 450.
  • Duan R, Xiong H, Wang A, Chen G (2015). Molecular mechanisms underlying hull-caryopsis adhesion/separation revealed by comparative transcriptomic analysis of covered/naked barley (Hordeum vulgare L.). Int. J. Moleculer Sciences, 16: 14181-14193.
  • Eğilmez S (2021). Tarımsal Ekonomi ve Politika Geliştirme Estitüsü Ürün Raporu Arpa. Ankara. p. 17.
  • Eteve G (1985). Breeding for tolerance and winter hardiness in pea. In Hebblethwaite PD, Heath MC, Dawkins TCK (Eds), The pea Crop: A Basis for Improvement. Butterworths, London. UK, pp. 131-136. Fetch TG, Jr., Steffenson BJ (1999). Rating scales for assessing infection responses of barley infected with Cochliobolus sativus. Plant Disease, 83: 213-217.
  • Fetch TG, Jr.,Steffenson BJ, Nevo E (2003). Diversity and sources of multiple disease resistance in Hordeum spontaneum. Plant Disease, 87: 1439-1448.
  • Geçit HH (2016). Tarla Bitkileri. Ankara Üniversitesi Ziraat Fakültesi Yayınları. Yayın no: 1640, Ders Kitabı: 591. 822 pp.
  • Gerlegiz TE, Karakaya A, Çelik Oğuz A, Mert Z, Sayim İ, Ergün N, Aydoğan S (2015). Assessment of the seedling reactions of some hulless barley genotypes to Drechslera teres f. maculata. Selcuk Journal of Agriculture and Food Sciences, 28: 63-68.
  • Ghazvini H, Tekauz A (2007). Reactions of Iranian barley accessions to three predominant pathogens in Manitoba. Canadian Journal of Plant Pathology, 29: 69-78.
  • Haas M, Menke J, Chao S, Steffenson BJ (2016). Mapping quantitative trait loci conferring resistance to a widely virulent isolate of Cochliobolus sativus in wild barley accession PI 466423. Theoretical and Applied Genetics, 129: 1831–1842.
  • Hetzler J, Eyal J, Fehrmann H, Mehta YR, Kushnir U, Zekaria-Oren J, Cohen L (1991). Interaction between Cochliobolus sativus and wheat cultivars. InSaunders, D.A., (Ed), Wheat for the Non-Traditional Warmer Areas. . CIMMYT, Mexico, D.F., Mexico,pp. 266–283.
  • Jana S, Bailey KL (1995). Responses of wild and cultivated barley from West Asia to net blotch and spot blotch. Crop Science, 35: 242-246.
  • Kumar J, Hückelhoven R, Beckhove U, Nagarajan S, Kogel K-H (2001). A compromised Mlo pathway affects the response of barley to the necrotrophic fungus Bipolarissorokiniana (teleomorph: Cochliobolus sativus). Phytopathology, 91: 127–133.
  • Kumar J, Schäfer P, Hückelhoven R, Langen G, Baltruschat H, Stein E, Nagarajan S, Kogel KH (2002). Bipolaris sorokiniana, a cereal pathogen of global concern: cytological and molecular approaches towards better control. Molecular Plant Pathology, 3: 185-195.
  • Legzdina L, Buerstmayr H (2004). Comparison of infection with Fusarium head blight and accumulation of mycotoxins in grain of hulless and covered barley. Journal of Cereal Science, 40: 61–67.
  • Singh D, Pande SK, Singh SP, (2017). Evaluation of the barley genotypes against spot blotch disease caused by Bipolaris sorokiniana. Plant Archives, 17: 167-170.
  • Mathre DE (1997). Compendium of barley diseases. American Phytopathological Society. APS Press. Minnesota, USA. p. 120.
  • Mujeeb-Kazi A (1998). Novel genetic diversity for stress tolerance in the triticale: strategic avenues and applied potentials.In Duveiller, E., Dubin, H.J., Reeves, J. and McNab A., (Eds), Helminthosporium Blights of Wheat: Spot Blotch and Tan Spot. CIMMYT, Mexico, D.F., Mexico,, pp. 223–229.
  • Novazaki F, Afanasenko O, Lashina N, Platz GJ, Snowdon, Loskutov I (2020). Genome-wide association studies in a barley (Hordeum vulgare) diversity set reveal a limited number of loci for resistance to spot blotch (Bipolaris sorokiniana). Plant Breeding, 139: 521-535.
  • Singh D, Pande SK, Singh SP (2017). Evaluation of the barley genotypes against spot blotch disease caused by Bipolaris sorokiniana. Plant Archives, 17: 167-170.
  • Ullrich SE (2011). Significance, adaptation, production, and trade of barley. In: Ullrich, S.E. (Ed.), Blackwell Publishing Ltd.,Barley. Chichester, UK, pp. 3-13
  • USDA (2022). United States Department of Agriculture, Foreign Agricultural Service. Website: https://apps.fas.usda.gov/psdonline/app/index.html#/app/adv Query (Access date: 21.03.2022).
  • Van Ginkel M, Rajaram S (1998). Breeding for resistance to spot blotch in wheat: global perspective. In Duveiller, E., Dubin, H.J., Reeves, J. and McNab A., (Eds), Helminthosporium Blights of Wheat: Spot Blotch and Tan Spot. CIMMYT, Mexico, D.F., Mexico, pp. 162–170.
  • Visioni A, Rehman S, Viash SS, Singh SP, Vishwakarma R, Gyawali S, Al-Abdallat AM, Verma RPS (2020). Genome wide association mapping of spot blotch resistance at seedling and adult plant stages in barley. Frontiers in Plant Science, 11: 642
  • Yıldırım AF, Araz A, Turgay EB, Ünal F, Büyük O (2016). Serin İklim Tahıllarında Kök ve Kökboğazı Hastalıklarının Dünü, Bugünü ve Mücadelesi, T. C. Gıda, Tarım ve Hayvancılık Bakanlığı, Tarımsal Araştırmalar ve Politikalar Genel Müdürlüğü, Ankara Zirai Mücadele Merkez Araştırma Enstitüsü, Ankara. 104 pp.
  • Yun SJ, Gyenis L, Hayes PM, Matus I, Smith KP, Steffenson BJ, Muehlbauer GJ (2005). Quantitative trait loci for multiple disease resistance in wild barley. Crop Science, 45: 2563–2572. Zadoks JC, Chang TT, Konzak CF (1974). A decimal code for the growth stages of cereals. Weed Research 14: 415-421.
  • Zhou H, Steffenson B (2013). Genome-wide association mapping reveals genetic architecture of durable spot blotch resistance in US barley germplasm. Molecular Breeding, 32: 139-154.
  • Zohary D, Hopf M (2000). Domestication of plants in the Old World. 3rd edn. Oxford: Oxford University Press. p. 666.
There are 40 citations in total.

Details

Primary Language English
Subjects Phytopathology
Journal Section ART
Authors

Nursena Kızıl This is me

Aziz Karakaya This is me

Arzu Çelik Oğuz This is me

Namuk Ergün

Early Pub Date August 30, 2023
Publication Date August 30, 2023
Submission Date January 2, 2023
Published in Issue Year 2023 Volume: 37 Issue: 2

Cite

EndNote Kızıl N, Karakaya A, Oğuz AÇ, Ergün N (August 1, 2023) Determination of Seedling Reactions of Some Barley Cultivars, Lines, and Wild Barley (Hordeum spontaneum) Genotypes to Cochliobolus Leaf Spot Disease. Selcuk Journal of Agriculture and Food Sciences 37 2 373–388.

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