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Farklı oranlarda mavi çiçekli canavar otu (Phelipanche ramosa (L.) Pomel) tohumlarının bazı kültür bitkileri üzerindeki etkileri

Year 2024, Volume: 28 Issue: 4, 564 - 569, 15.12.2024
https://doi.org/10.29050/harranziraat.1561651

Abstract

Mavi çiçekli canavar otu olarak da bilinen Phelipanche ramosa (L.) Pomel (Syn: Orobanche ramosa L.), Orobanchaceae familyasına ait bir holoparazit bir bitkidir. Canavar otu patlıcangiller familyasından domates, patlıcan ve patatesi; baklagillerden ise mercimek, ayçiçeği ve baklayı konukçu olarak tercih eder. Bu çalışmada, farklı oranlarda canavar otu tohumlarının bazı bitki büyüme parametreleri üzerine etkilerinin belirlenmesi amaçlanmıştır. Çalışma 2022 yılında Van Yüzüncü Yıl Üniversitesi Bitki Koruma Bölümü iklim odası ve laboratuvarlarında yürütülmüştür. Çalışmada canavar otu domates, patlıcan ve biber bitkileri kullanılmıştır. Bu bitkilerin tohumları ekilmeden önce her saksıya 250, 500, 1000, 2000 ve 4000 adet canavar otu tohumu 8 cm toprak derinliğine homojen bir şekilde karıştırılmıştır. Deneme tesadüf parselleri deneme desenine göre dört tekerrürlü; her saksıda iki domates, iki biber ve bir patlıcan bitkisi olacak şekilde planlanmıştır. Elde edilen sonuçlara göre, canavar otunun sadece domates ve patlıcan köklerine tutunduğu, biberde ise tutunmadığı gözlenmiştir. Canavar otu tohumu miktarındaki artış tüberkül sayısını artırmıştır. Canavar otu bulaşıklığı arttıkça domateste yaprak sayısı, sürgün uzunluğu, kök uzunluğu, sürgün çapı, klorofil içeriği, toplam yaş ve kuru ağırlığı, patlıcanda ise yaprak sayısı ve sürgün boyunun azaldığı tespit edilmiştir. Artan tohum sayısının tür içi rekabet açısından olumsuz bir etkiye sahip olmadığı da söylenebilir.

Ethical Statement

Bu çalışma için etik kuruldan izin alınmasına gerek yoktur.

References

  • Aksoy, E., & Pekcan, V. (2014). Canavar otları (Orobanche spp., Phelipanche spp.) ve Mücadelesi. Gıda, Tarım ve Hayvancılık Bakanlığı Tarımsal Araştırmalar ve Politikalar Genel Müdürlüğü Bitki Sağlığı Araştırmaları Daire Başkanlığı Yayınları, Ankara, 80.
  • Awad, A. A., Sato., D, Kusumoto, D., Kamioka, H., Takeuchi, Y., & Yoneyama, K. 2006. Characterization of strigolactones, germination stimulants for the root parasitic plants Striga and Orobanche, produced by maize, millet and sorghum. Plant Growth Regul. 48:221-7.
  • Birgin, Ö. (2021). Effects of Foliar Application of Calcium on Tomato Plant Under Drought Stress in Greenhouse Conditions (Master's thesis). Şırnak University, Graduate School of Natural and AppliedSciences, Şırnak, Türkiye
  • Cubero, J.I., & Moreno, M.T. 1979. Agronomic control and sources of resistance in Vicia faba to Orobanche sp. p. 41—80. In LA. Bond et al. (ed.) Some current research on Vicia faba in Western Europe. Commission of the European Communities. Luxemburg.
  • Constantine, J., Sibuga, P., Rodenburg, J., Kayeke, J., & Kabiri, S. (2013). Effects of varying densities of Striga asiatica and Rhamphicarpa fistulosa on growth and physiology of rice. African Crop Science Conference Proceedings. (Vol. 11) 87-96.
  • Demirbaş, S. (2011). Bazı ayçiçeği (Helianthus annuus L.) varyetelerinde orobanche cumana Wallr. nın süperoksit dismütaz (SOD; E.C.1.15.1.1) ve peroksidaz (POD; E.C.1.11.1.7) aktiviteleri üzerine etkilerinin araştırılması. Yüksek lisans tezi. Çanakkale Onsekiz Mart Üniversitesi, Fen Bilimleri Enstitüsü, Çanakkale, Türkiye.
  • El-Halmouch, Y., & Thalouam P. 2006. Effect of root exudates from different tomato genotypes on broomrape (O. aegyptiaca) seed germination and tubercle development. Crop Prot. 25:501-7.
  • Elzein, A., & Kroschel, J. (2003). Progress on management of parasitic weeds. FAO Plant Production and Protection Paper, 109-143.
  • Faradonbeh, H., Nayerehalsadat H., Darbandi, E. I., Karimmojeni, H., & Nezami, A. (2020). Physiological and growth responses of cucumber (Cucumis sativus L.) genotypes to Egyptian broomrape (Phelipanche aegyptiaca (Pers.) Pomel) parasitism. Acta Physiologiae Plantarum, 42, 1-15.
  • Fernández-Aparicio, M., Flores, F., & Rubiales, D. (2016). The effect of Orobanche crenata infection severity in faba bean, field pea, and grass pea productivity. Frontiers in Plant Science, 7, 1409.
  • Fidan, E., 2023. Bazı Mikroorganizma ve Biyolojik Preparatların Domateste (Solanum lycopersicum L.) Mavi Çiçekli Canavar Otu (Phelipanche ramosa (L.) Pomel) Üzerine Etkisi. (Doktora tezi). Van Yüzüncü Yıl Üniversitesi, Fen Bilimleri Enstitüsü. Van, Türkiye.
  • Frost, D., Gurney, A., Press, M., & Scholes, J. (1997). Striga hermonthica reduces photosynthesis in sorghum: the importance of stomatal limitations and a potential role for ABA? Plant, Cell & Environment, 20, 483-492.
  • Grenz, J.H., Manschadi, AM., DeVoil, P., Meinke, H., & Sauerborn, J. (2005) Assessing strategies for Orobanche sp. control using a combined seed bank and competition model. Agron J 97:1551–1559.
  • Grenz, J. H., Iştoc, V. A., & Manschadi, A. M., Sauerborn, J. (2008). Interactions of sunflower (Helianthus annuus) and sunflower broomrape (Orobanche cumana) as affected by sowing date, resource supply and infestation level. Field Crops Research, 107(2), 170-179.
  • Habimana, S., Nduwumuremyi, A., & Chinama R, J. (2014). Managementof Orobanche in field crops: A review. Journal of soil science and plant nutrition, 14, 43-62.
  • Hall, J. A., Peirson, D., Ghosh, S., Glick, B. (1996). Root elongation in various agronomic crops by the plant growth promoting rhizobacterium Pseudomonas putida GR12– 2. Israel Journal of Plant Sciences, 44, 37-42.
  • Hershenhorn, J., Goldwasser, Y., Plakhine, D., Herzlinger, G., Golan, S., Russo, R., & Kleifeld, Y. (1996). Role of pepper (Capsicum annuum) as a trap and catch crop for control of Orobanche aegyptiaca and O. cernua. Weed Science, 44(4), 948-951.
  • Joel, D.M, Hershenhorn, Y., Eizenberg, H., Aly, R., Ejeta, G., Rich, P.J., Ransom, J.K, Sauerborn, J., & Rubiales, D. (2007) Biology and management of weedy root parasites. In: Janick J (ed) Horticultural reviews, vol 33. Wiley, Hokobken, NJ, pp 267–349.
  • Kaçar, B., 1984. Bitki Besleme Uygulama Kılavuzu, Ankara Üniversitesi Ziraat Fakültesi Yayınları: 900. Uygulama Kılavuzu, 214. Ankara. 140s.
  • Lopez-Ráez., JA., Matusova, R., Cardoso, C., Jamil, M., Charnikhova, T., Kohlen, W., Ruyter-Spira, C., Verstappen, F., & Bouwmeester, H. 2008. Stigolactones: ecological significance and use as a target for parasitic plant control. Pest. Manag. Sci. 65:471-7.
  • Lopez-Granados, F., & Garcia-Torres, L. (1993) Population dynamics of crenate broomrape (Orobanche crenata) in faba bean (Vicia faba). Weed Sci 41:563–567.
  • Manschadi, A. M., Kroschel, J., & Sauerborn, J. (1996). Dry matter production and partitioning in the host-parasite association Vicia faba–Orobanche crenata. J. Appl. Bot. 70, 224–229.
  • Manschadi, A. M., Sauerborn, J., & Stützel, H. (2001). Quantitative aspects of Orobanche crenata infestation in faba beans as affected by abiotic factors and parasite soil seedbank. Weed research, 41(4), 311-324.
  • Nabity, P. D., Barron-Gafford, G. A., & Whiteman, N. K. (2021). Intraspecific competition for host resources in a parasite. Current Biology, 31(6), 1344-1350.
  • Özkan, R. Y., Tepe, I., & Fidan, E. (2024). New Record in Summer Squash and Infestation of Branched Broomrape (Phelipanche ramosa (L.) Pomel) in Vegetable Areas in Van/Türkiye. Yüzüncü Yıl University Journal of Agricultural Sciences, 34(2), 192-198.
  • Tepe, (2014). Yabancı Otlarla Mücadele. Sidas Medya Yayınevi. ISBN: 978-605-5267-17-9. İzmir.
  • Parker., C (1991) Protection of crops against parasitic weeds. Crop Prot 10:6–22.
  • Parker, C., & Riches, C.R. (1993) Parasitic weeds of the world: biology and control. CAB International, Wallingford.
  • Perny, A. (1989). Branched broomrape, a new weed of rape. Bulletin CETIOM. 103, 17.
  • Ramaiah, K.V. (1987) Control of Striga and Orobanche species – a review. In: Weber HC, Forstreuter W (eds) Proceedings of the 4th ISPFP, Marburg, Germany, pp 637–664.
  • Rubiales, D., & Fernandez-Aparicio., M. (2012) Innovations in parasitic weeds management in legume crops. Agron Sustain Dev, 32:433–449.
  • Rubiales, D., Fernández‐Aparicio, M., Wegmann, K., & Joel, D. (2009). Revisiting strategies for reducing the seedbank of Orobanche and Phelipanche spp. Weed Research, 49, 23-33.
  • Strelyaeva, N. (1978). The germination of broomrape seeds under artificial conditions. Sel'skolhozyaistvennaya Biologia, 3, 462-463.
  • Xie, X., Kusumoto, D., Takeuchi, Y., Yoneyama, K., Yamada, Y., & Yoneyama, K. (2007). 2’-Epi-orobanchol and solanacol, two unique strigolactones, germination stimulants for root parasitic weeds, produced by tobacco. J. Agric. Food Chem. 55:8067-72.

The effects of different amounts of branched broomrape (Phelipanche ramosa (L.) Pomel) seeds on some cultivated plants

Year 2024, Volume: 28 Issue: 4, 564 - 569, 15.12.2024
https://doi.org/10.29050/harranziraat.1561651

Abstract

Phelipanche ramosa (L.) Pomel (Syn: Orobanche ramosa L.), also known as branched broomrape, is a holoparasite belonging to the family Orobanchaceae. Broomrape prefers tomato, eggplant and potato from Solanaceae family and lentil, sunflower and broad bean from legumes as hosts. In this study, it was aimed to determine the effects of different rates of branched broomrape seeds on some plant growth parameters. The study was carried out in the laboratory and climate room of Van Yüzüncü Yıl University Plant Protection Department in 2022. In the study, branched broomrape, tomato, eggplant and pepper plants were used. Before these plants were planted 250, 500, 1000, 2000, and 4000 seeds of branched broomrape were mixed homogeneously to a soil depth of 8 cm in each pot. The experiment was planned according to the completely randomized experimental design with four replications; two tomatoes, two peppers and one eggplant in each pot. According to the results, it was observed that broomrape was attached only to the roots of tomato and eggplant, but not peppers. The increase in the amount of branched broomrape seeds increased the number of tubercles. It was determined that the number of leaves, shoot length, root length, shoot diameter, chlorophyll content, total fresh and dry biomass of tomato and the number of leaves and shoot length in eggplant decreased as the weed infestation increased. It can also be stated that the increased number of seeds did not have a negative effect in terms of intraspecific competition.

References

  • Aksoy, E., & Pekcan, V. (2014). Canavar otları (Orobanche spp., Phelipanche spp.) ve Mücadelesi. Gıda, Tarım ve Hayvancılık Bakanlığı Tarımsal Araştırmalar ve Politikalar Genel Müdürlüğü Bitki Sağlığı Araştırmaları Daire Başkanlığı Yayınları, Ankara, 80.
  • Awad, A. A., Sato., D, Kusumoto, D., Kamioka, H., Takeuchi, Y., & Yoneyama, K. 2006. Characterization of strigolactones, germination stimulants for the root parasitic plants Striga and Orobanche, produced by maize, millet and sorghum. Plant Growth Regul. 48:221-7.
  • Birgin, Ö. (2021). Effects of Foliar Application of Calcium on Tomato Plant Under Drought Stress in Greenhouse Conditions (Master's thesis). Şırnak University, Graduate School of Natural and AppliedSciences, Şırnak, Türkiye
  • Cubero, J.I., & Moreno, M.T. 1979. Agronomic control and sources of resistance in Vicia faba to Orobanche sp. p. 41—80. In LA. Bond et al. (ed.) Some current research on Vicia faba in Western Europe. Commission of the European Communities. Luxemburg.
  • Constantine, J., Sibuga, P., Rodenburg, J., Kayeke, J., & Kabiri, S. (2013). Effects of varying densities of Striga asiatica and Rhamphicarpa fistulosa on growth and physiology of rice. African Crop Science Conference Proceedings. (Vol. 11) 87-96.
  • Demirbaş, S. (2011). Bazı ayçiçeği (Helianthus annuus L.) varyetelerinde orobanche cumana Wallr. nın süperoksit dismütaz (SOD; E.C.1.15.1.1) ve peroksidaz (POD; E.C.1.11.1.7) aktiviteleri üzerine etkilerinin araştırılması. Yüksek lisans tezi. Çanakkale Onsekiz Mart Üniversitesi, Fen Bilimleri Enstitüsü, Çanakkale, Türkiye.
  • El-Halmouch, Y., & Thalouam P. 2006. Effect of root exudates from different tomato genotypes on broomrape (O. aegyptiaca) seed germination and tubercle development. Crop Prot. 25:501-7.
  • Elzein, A., & Kroschel, J. (2003). Progress on management of parasitic weeds. FAO Plant Production and Protection Paper, 109-143.
  • Faradonbeh, H., Nayerehalsadat H., Darbandi, E. I., Karimmojeni, H., & Nezami, A. (2020). Physiological and growth responses of cucumber (Cucumis sativus L.) genotypes to Egyptian broomrape (Phelipanche aegyptiaca (Pers.) Pomel) parasitism. Acta Physiologiae Plantarum, 42, 1-15.
  • Fernández-Aparicio, M., Flores, F., & Rubiales, D. (2016). The effect of Orobanche crenata infection severity in faba bean, field pea, and grass pea productivity. Frontiers in Plant Science, 7, 1409.
  • Fidan, E., 2023. Bazı Mikroorganizma ve Biyolojik Preparatların Domateste (Solanum lycopersicum L.) Mavi Çiçekli Canavar Otu (Phelipanche ramosa (L.) Pomel) Üzerine Etkisi. (Doktora tezi). Van Yüzüncü Yıl Üniversitesi, Fen Bilimleri Enstitüsü. Van, Türkiye.
  • Frost, D., Gurney, A., Press, M., & Scholes, J. (1997). Striga hermonthica reduces photosynthesis in sorghum: the importance of stomatal limitations and a potential role for ABA? Plant, Cell & Environment, 20, 483-492.
  • Grenz, J.H., Manschadi, AM., DeVoil, P., Meinke, H., & Sauerborn, J. (2005) Assessing strategies for Orobanche sp. control using a combined seed bank and competition model. Agron J 97:1551–1559.
  • Grenz, J. H., Iştoc, V. A., & Manschadi, A. M., Sauerborn, J. (2008). Interactions of sunflower (Helianthus annuus) and sunflower broomrape (Orobanche cumana) as affected by sowing date, resource supply and infestation level. Field Crops Research, 107(2), 170-179.
  • Habimana, S., Nduwumuremyi, A., & Chinama R, J. (2014). Managementof Orobanche in field crops: A review. Journal of soil science and plant nutrition, 14, 43-62.
  • Hall, J. A., Peirson, D., Ghosh, S., Glick, B. (1996). Root elongation in various agronomic crops by the plant growth promoting rhizobacterium Pseudomonas putida GR12– 2. Israel Journal of Plant Sciences, 44, 37-42.
  • Hershenhorn, J., Goldwasser, Y., Plakhine, D., Herzlinger, G., Golan, S., Russo, R., & Kleifeld, Y. (1996). Role of pepper (Capsicum annuum) as a trap and catch crop for control of Orobanche aegyptiaca and O. cernua. Weed Science, 44(4), 948-951.
  • Joel, D.M, Hershenhorn, Y., Eizenberg, H., Aly, R., Ejeta, G., Rich, P.J., Ransom, J.K, Sauerborn, J., & Rubiales, D. (2007) Biology and management of weedy root parasites. In: Janick J (ed) Horticultural reviews, vol 33. Wiley, Hokobken, NJ, pp 267–349.
  • Kaçar, B., 1984. Bitki Besleme Uygulama Kılavuzu, Ankara Üniversitesi Ziraat Fakültesi Yayınları: 900. Uygulama Kılavuzu, 214. Ankara. 140s.
  • Lopez-Ráez., JA., Matusova, R., Cardoso, C., Jamil, M., Charnikhova, T., Kohlen, W., Ruyter-Spira, C., Verstappen, F., & Bouwmeester, H. 2008. Stigolactones: ecological significance and use as a target for parasitic plant control. Pest. Manag. Sci. 65:471-7.
  • Lopez-Granados, F., & Garcia-Torres, L. (1993) Population dynamics of crenate broomrape (Orobanche crenata) in faba bean (Vicia faba). Weed Sci 41:563–567.
  • Manschadi, A. M., Kroschel, J., & Sauerborn, J. (1996). Dry matter production and partitioning in the host-parasite association Vicia faba–Orobanche crenata. J. Appl. Bot. 70, 224–229.
  • Manschadi, A. M., Sauerborn, J., & Stützel, H. (2001). Quantitative aspects of Orobanche crenata infestation in faba beans as affected by abiotic factors and parasite soil seedbank. Weed research, 41(4), 311-324.
  • Nabity, P. D., Barron-Gafford, G. A., & Whiteman, N. K. (2021). Intraspecific competition for host resources in a parasite. Current Biology, 31(6), 1344-1350.
  • Özkan, R. Y., Tepe, I., & Fidan, E. (2024). New Record in Summer Squash and Infestation of Branched Broomrape (Phelipanche ramosa (L.) Pomel) in Vegetable Areas in Van/Türkiye. Yüzüncü Yıl University Journal of Agricultural Sciences, 34(2), 192-198.
  • Tepe, (2014). Yabancı Otlarla Mücadele. Sidas Medya Yayınevi. ISBN: 978-605-5267-17-9. İzmir.
  • Parker., C (1991) Protection of crops against parasitic weeds. Crop Prot 10:6–22.
  • Parker, C., & Riches, C.R. (1993) Parasitic weeds of the world: biology and control. CAB International, Wallingford.
  • Perny, A. (1989). Branched broomrape, a new weed of rape. Bulletin CETIOM. 103, 17.
  • Ramaiah, K.V. (1987) Control of Striga and Orobanche species – a review. In: Weber HC, Forstreuter W (eds) Proceedings of the 4th ISPFP, Marburg, Germany, pp 637–664.
  • Rubiales, D., & Fernandez-Aparicio., M. (2012) Innovations in parasitic weeds management in legume crops. Agron Sustain Dev, 32:433–449.
  • Rubiales, D., Fernández‐Aparicio, M., Wegmann, K., & Joel, D. (2009). Revisiting strategies for reducing the seedbank of Orobanche and Phelipanche spp. Weed Research, 49, 23-33.
  • Strelyaeva, N. (1978). The germination of broomrape seeds under artificial conditions. Sel'skolhozyaistvennaya Biologia, 3, 462-463.
  • Xie, X., Kusumoto, D., Takeuchi, Y., Yoneyama, K., Yamada, Y., & Yoneyama, K. (2007). 2’-Epi-orobanchol and solanacol, two unique strigolactones, germination stimulants for root parasitic weeds, produced by tobacco. J. Agric. Food Chem. 55:8067-72.
There are 34 citations in total.

Details

Primary Language English
Subjects Phytopathology, Herbology
Journal Section Araştırma Makaleleri
Authors

Enes Fidan 0000-0002-4567-2375

Reyyan Yergin Özkan 0000-0003-2319-404X

Işık Tepe 0000-0002-9156-9467

Early Pub Date December 14, 2024
Publication Date December 15, 2024
Submission Date October 7, 2024
Acceptance Date November 26, 2024
Published in Issue Year 2024 Volume: 28 Issue: 4

Cite

APA Fidan, E., Yergin Özkan, R., & Tepe, I. (2024). The effects of different amounts of branched broomrape (Phelipanche ramosa (L.) Pomel) seeds on some cultivated plants. Harran Tarım Ve Gıda Bilimleri Dergisi, 28(4), 564-569. https://doi.org/10.29050/harranziraat.1561651

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