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A Preliminary Study on the Response of Confectionery Sunflower (Helianthus annuus L.) to Arbuscular Mycorrhizal Fungi (AMF)

Yıl 2021, Cilt: 31 Sayı: 1, 1 - 8, 15.06.2021
https://doi.org/10.18615/anadolu.949814

Öz

This preliminary study was carried out to investigate the effect of arbuscular mycorrhizal fungi (AMF) on yield, seed characters and chlorophyll content of confectionery sunflower (Helianthus annuus L.). The experiment was conducted at Tavas/Denizli in the 2018 growing season. The experimental design was “Randomized Complete Block Design (RCBD)” with four replications. Seed coating and soil spraying of AMF applications were compared with control (non-treatment AMF). The differences among treatments were significant for plant height (cm), head diameter (cm), seed width (mm), single plant yield (g), thousand kernel weight (g), yield (kg ha-1), chlorophyll content index (CCI) and soil plant analysis development (SPAD) values. The seed coating had significant and higher values for plant height (cm), head diameter (cm), seed width (mm), single plant yield (g), thousand kernel weight (g), yield (kg ha-1), chlorophyll content index (CCI) and SPAD values, whereas hull ratio was found to be similar between AMF applications and control. It was concluded that seed coating with AMF can be profitable for confectionery sunflower producers due to increased yield and low cost. The results of this preliminary study should be supported by findings from multiple locations and years.

Kaynakça

  • Acikgoz, N., M. E. Akkas, A. Moughaddam, and K. Ozcan. 1994. TARIST: Statistics and quantitative genetic Package for pc's. Center of Computer Research and Practice. Proceedings of the International Symposium of Computer, October 5-7, 1994, University of Ege, Izmir, Turkey.
  • Anonim, 2018. Denizli ili 2018 yılı iklim verileri. Meteoroloji Genel Müdürlüğü. https://www.mgm.gov.tr/
  • Anonymous, 2018. Turkey Statistical Institute. www.tuik.gov.tr. [Date of access; 14.10.2018].
  • Anonymous, 2020. Application Guide of Shubhodaya Mycorrhizal Fertilizer. www.mikorizalgubre.com/ uygulama-yontemi. [Date of access; 09.09.2020].
  • Bago, B., P.E. Pfeffer, and Y. Shachar-Hill. 2000. Carbon metabolism and transport in arbuscular mycorrhizas. Plant Physiology 124: 949–957.
  • Baldini, M., and G.P. Vannozzi. 1996. Yield relationships under drought in sunflower genotypes obtained from a wild population and cultivated sunflowers in rain-out shelter in large pots and field experiments. Helia 22: 81-96.
  • Campanellii, A., C. Ruta, A. Tagarelli, I. Morone-Fortunato, and G. De Mastro. 2012. Effectiveness of mycorrhizal fungi on globe artichoke (Cynara cardunculus L. var. scolymus) micropropagation. Journal of Plant Interactions. 9 (1): 100-106.
  • Chaghamarani, N., G.H.R. Mohammadi, and M. Ghobadi. 2019. Yield and growth characteristics of sunflower cultivars inoculated by arbuscular mycorrhizal fungi under drought tension conditions. Crop Physiology (Iran) 10 (4): 75-92.
  • Chandrashekara, C.P., V.C. Patil, and M.N. Sreenivasa. 1995. VA-mycorrhiza mediated P effect on growth and yield of sunflower (Helianthus annuus L.) at different P levels. Plant and Soil. 176: 325-328.
  • Chang, S.X, and D.J. Robison. 2003. Nondestructive and rapid estimation of hardwood foliar nitrogen status using the SPAD-502 chlorophyll meter. Forest Ecology and Management 181: 331-338.
  • Fileccia,V., P. Ruisi, R. Ingraffia, D. Giambalvo, A. Salvatore Frenda, and F. Martinelli. 2017. Arbuscular mycorrhizal symbiosis mitigates the negative effects of salinity on durum wheat. PLoS One. 12 (9): e0184158. https://doi.org/10.1371/journal.pone.0184158.
  • Gholamhoseini, M. A. Ghalavand, A. Dolatabadian, E. Jamshidi, and A. Khodaei-Joghan. 2013. Effects of arbuscular mycorrhizal inoculation on growth, yield, nutrient uptake and irrigation water productivity of sunflowers grown under drought stress. Agricultural Water Management 117: 106-114.
  • Gornik, K. 2011. The effect of temperature treatments during ‘Wielkopolski’ sunflower seed imbibition and storage on plant tolerance to chilling. Folia Horticulture. 23(1):83-88.
  • Govindarajulu, M., P.E. Pfeffer, H.R. Jin, J. Abubaker, D.D. Douds, J.W. Allen, H. Bucking, P.J. Lammers, and Y. Shachar-Hill. 2005. Nitrogen transfer in the arbuscular mycorrhizal symbiosis. Nature 435: 819-823.
  • Heidari, M., and V. Karami. 2014. Effects of different mycorrhiza species on grain yield, nutrient uptake and oil content of sunflower under water stress. Journal of the Saudi Society of Agricultural Sciences. 13 (1): 9-13.
  • Hladni, N., V. Miklič, S. Jocić, M. Jocković, I. Radeka, and N. Lečić. 2012. Determining the influence of yield components on the confectionary sunflower seed yield. pp. 55-62. In: Proceedings of 53rd Conference of Oil Industry. Production and Processing of Oilseeds, Herceg Novi, Montenegro.
  • Hladni, N., S. Jocic, V. Miklic, D. Miladinovic, and M. Zoric. 2016. Interrelationship between 1000 seed weight with other quantitative traits in confectionary sunflower. Ekin Journal of Crop Breeding and Genetics 2 (1): 51-56.
  • Ibrahim, M. 2018. Response of seeds quality of sunflower to inoculation with single and mixed species of indigenous arbuscular mycorrhizal fungi. The Open Agriculture Journal. 12: 123-130.
  • Jalaluddin, M., and M. Hamid. 2011. Effect of adding inorganic organic and microbial fertilizers on seed germination and seedling growth of sunflower. Pakistan Journal of Botany 43: 2807-2809.
  • Jiang, Y., W. Wang, Q. Xie, N. Liu, L. Liu, D. Wang, X. Zhang, C. Yang, X. Chen, and D. Tang. 2017. Plants transfer lipids to sustain colonization by mutualistic mycorrhizal and parasitic fungi. Science 356: 1172.
  • Kalaiyarasan, C., M.V. Sriramachandrasekharan, S. Jawahar, K. Suseendran, R. Ramesh, S. Ramesh, and R. Kanagarajan. 2019. Growth and yield of sunflower as influenced by VAM and phosphorus application. Journal of Pharmacognosy and Photochemistry 8 (2): 836-839.
  • Kavitha, T., and R. Nelson. 2014. Effect of arbuscular mycorrhizal fungi (AMF) on growth and yield of sunflower (Helianthus annuus L.). Journal of Experimental Biology and Agricultural Sciences 2 (25): 226-232.
  • Kholghi, M., I. Bernousi, R. Darvishzadeh, A. Pirzad, and H. H. Maleki. 2011. Collection, evaluation and classification of Iranian confectionary sunflower (Helianthus annuus L.) populations using multivariate statistical techniques. African Journal of Biotechnology 10: 5444-5451.
  • Ma, Y., A. Látr, I. Rocha, H. Freitas, M. Vosátka, and R.S. Oliveira. 2019. Delivery of inoculum of Rhizophagus irregularis via seed coating in combination with Pseudomonas libanensis for cowpea production. Agronomy 9: 33.
  • Makarian, H., V. Poozesh, H.R. Asghari, and M. Nazari. 2016. Interaction effects of arbuscular mycorrhiza fungi and soil applied herbicides on plant growth. Communications in Soil Science and Plant Analysis. DOI: 10.1080/00103624.2016.1146744
  • Mayer, Z., N.H. Duc, Z. Sasvari, and K. Posta. 2017. How arbuscular mycorrhizal fungi influence the defense system of sunflower during different abiotic stresses. Acta Biological Hungarian. 68 (4): 376-387.
  • Mikiciuk, G., L.Sas-Paszt, M. Mikiciuk, E. Derkowska, P. Trzcinski, S. Gluszek, A. Lisek, S. Wera-Bryl, and J. Rudnicka. 2019. Mycorrhizal frequency, physiological parameters, and yield of strawberry plants inoculated with endomycorrhizal fungi and rhizosphere bacteria. Mycorrhiza 29: 489-501.
  • O’Callaghan, M. 2016. Microbial inoculation of seed for improved crop performance: Issues and opportunities. Applied Microbiology and Biotechnology 100: 5729-5746.
  • Oliveira, R.S., I. Rocha, Y. Ma, M. Vosátka, and H. Freitas. 2016. Seed coating with arbuscular mycorrhizal fungi as an ecotechnological approach for sustainable agricultural production of common wheat (Triticum aestivum L.). Journal Toxicology Environmental Health Part A 79: 329-337.
  • Pekcan, V., G. Evci, I.M. Yilmaz, and Y. Kaya. 2015. Developing confectionery sunflower hybrids and determination of their yield performances in different environmental conditions. Ekin Journal of Crop Breeding and Genetics 1-2:47-55.
  • Phiri, S., I. M. Rao, E. Barrios, and B. R. Singh. 2003. Plant growth, mycorrhizal association, nutrient uptake and phosphorus dynamics in a volcanic-ash soil in Colombia as affected by the establishment of Tithonia diversifolia, Journal of Sustainable Agriculture 21 (3): 41-59.
  • Rillig M.C., M.A. Sosa-Hernandez, MA, J. Roy, C.A. Aguilar-Trigueros, K. Valyi, and A. Lehmann. 2016. Towards an integrated mycorrhizal technology: harnessing mycorrhiza for sustainable intensification in agriculture. Frontiers in Plant Science 7: 1-5.
  • Schneiter, A.A., and J.F. Miller. 1981. Description of sunflower growth stages. Crop Science 21: 901-903.
  • Silva, A.P.J., R.A. Silva, J.S. Santos, J.C.S. Medeiros, F.G. Carvalho, V. N. Silva, C.J. Oliceira, A.C. Araujo, L.E.S.F. Silva, and J.G. Junior. 2015. Soil chemical properties and growth of sunflower (Helianthus annuus L.) as affected by the application of organic fertilizers and inoculation with arbuscular mycorrhizal fungi. Revista Brasileira de Ciencia do Solo 39 (1): 151-161.
  • Sıncık, M., and T. Goksoy. 2014. Investigation of correlation between traits and path analysis of confectionary sunflower genotypes. Notulae Botanicae Horti Agrobotanici 42 (1): 227-231.
  • Smith, S.E., and D.J. Read. 2008. Mycorrhizal symbiosis. San Diego, CA, USA: Academic Press.
  • Soleimanzadeh, H. 2010. Effect of VA-mycorrhiza on growth and yield of sunflower (Helianthus annuus L.) at different phosphorus levels. International Journal of Agricultural and Biosystems Engineering 4 (11): 820-823.
  • Steel, R. G. D., and J. H. Torrie. 1980. Principles and Procedures of Statistics. Second Ed. McGraw-Hill Book Company Inc., New York.
  • Tan, A.Ş., A.M. Altunok ve M. Aldemir. 2017. Bazı çerezlik ayçiçeği çeşit adaylarının Menemen, İzmir ekolojik koşullarında verim potansiyelleri. Anadolu, Ege Tarımsal Araştırma Enstitüsü Dergisi 27 (1): 1-16.
  • Tan, A.S., and Y. Kaya. 2019. Sunflower (Helianthus annuus L.) genetic resources, production and researches in Turkey. Oilseeds&fats Crops and Lipids. (open access). https://www.ocl-journal.org/articles /ocl/ full_ html/ 2019/01/ocl190004s/ocl190004s.html.
  • Thirkell, T.J, M.D. Charters, A.J. Elliott, S.M. Sait, and K.J. Field. 2017. Are mycorrhizal fungi our sustainable saviours? Considerations for achieving food security. Journal of Ecology 105: 921–929.
  • Veiga, R.S.L. J. Jansa, E. Frossard, and M.G.A. van der Heijden. 2011. Can arbuscular mycorrhizal fungi reduce the growth of agricultural weeds? PLoS ONE 6: e27825.
  • Vosátka, M., A. Latr, S. Gianinazzi, and J. Albrechtova. 2012. Development of arbuscular mycorrhizal biotechnology and industry: Current achievements and bottlenecks. Symbiosis 58: 29-37.

A Preliminary Study on the Response of Confectionery Sunflower (Helianthus annuus L.) to Arbuscular Mycorrhizal Fungi (AMF)

Yıl 2021, Cilt: 31 Sayı: 1, 1 - 8, 15.06.2021
https://doi.org/10.18615/anadolu.949814

Öz

This preliminary study was carried out to investigate the effect of arbuscular mycorrhizal fungi (AMF) on yield, seed characters and chlorophyll content of confectionery sunflower (Helianthus annuus L.). The experiment was conducted at Tavas/Denizli in the 2018 growing season. The experimental design was “Randomized Complete Block Design (RCBD)” with four replications. Seed coating and soil spraying of AMF applications were compared with control (non-treatment AMF). The differences among treatments were significant for plant height (cm), head diameter (cm), seed width (mm), single plant yield (g), thousand kernel weight (g), yield (kg ha-1), chlorophyll content index (CCI) and soil plant analysis development (SPAD) values. The seed coating had significant and higher values for plant height (cm), head diameter (cm), seed width (mm), single plant yield (g), thousand kernel weight (g), yield (kg ha-1), chlorophyll content index (CCI) and SPAD values, whereas hull ratio was found to be similar between AMF applications and control. It was concluded that seed coating with AMF can be profitable for confectionery sunflower producers due to increased yield and low cost. The results of this preliminary study should be supported by findings from multiple locations and years.

Kaynakça

  • Acikgoz, N., M. E. Akkas, A. Moughaddam, and K. Ozcan. 1994. TARIST: Statistics and quantitative genetic Package for pc's. Center of Computer Research and Practice. Proceedings of the International Symposium of Computer, October 5-7, 1994, University of Ege, Izmir, Turkey.
  • Anonim, 2018. Denizli ili 2018 yılı iklim verileri. Meteoroloji Genel Müdürlüğü. https://www.mgm.gov.tr/
  • Anonymous, 2018. Turkey Statistical Institute. www.tuik.gov.tr. [Date of access; 14.10.2018].
  • Anonymous, 2020. Application Guide of Shubhodaya Mycorrhizal Fertilizer. www.mikorizalgubre.com/ uygulama-yontemi. [Date of access; 09.09.2020].
  • Bago, B., P.E. Pfeffer, and Y. Shachar-Hill. 2000. Carbon metabolism and transport in arbuscular mycorrhizas. Plant Physiology 124: 949–957.
  • Baldini, M., and G.P. Vannozzi. 1996. Yield relationships under drought in sunflower genotypes obtained from a wild population and cultivated sunflowers in rain-out shelter in large pots and field experiments. Helia 22: 81-96.
  • Campanellii, A., C. Ruta, A. Tagarelli, I. Morone-Fortunato, and G. De Mastro. 2012. Effectiveness of mycorrhizal fungi on globe artichoke (Cynara cardunculus L. var. scolymus) micropropagation. Journal of Plant Interactions. 9 (1): 100-106.
  • Chaghamarani, N., G.H.R. Mohammadi, and M. Ghobadi. 2019. Yield and growth characteristics of sunflower cultivars inoculated by arbuscular mycorrhizal fungi under drought tension conditions. Crop Physiology (Iran) 10 (4): 75-92.
  • Chandrashekara, C.P., V.C. Patil, and M.N. Sreenivasa. 1995. VA-mycorrhiza mediated P effect on growth and yield of sunflower (Helianthus annuus L.) at different P levels. Plant and Soil. 176: 325-328.
  • Chang, S.X, and D.J. Robison. 2003. Nondestructive and rapid estimation of hardwood foliar nitrogen status using the SPAD-502 chlorophyll meter. Forest Ecology and Management 181: 331-338.
  • Fileccia,V., P. Ruisi, R. Ingraffia, D. Giambalvo, A. Salvatore Frenda, and F. Martinelli. 2017. Arbuscular mycorrhizal symbiosis mitigates the negative effects of salinity on durum wheat. PLoS One. 12 (9): e0184158. https://doi.org/10.1371/journal.pone.0184158.
  • Gholamhoseini, M. A. Ghalavand, A. Dolatabadian, E. Jamshidi, and A. Khodaei-Joghan. 2013. Effects of arbuscular mycorrhizal inoculation on growth, yield, nutrient uptake and irrigation water productivity of sunflowers grown under drought stress. Agricultural Water Management 117: 106-114.
  • Gornik, K. 2011. The effect of temperature treatments during ‘Wielkopolski’ sunflower seed imbibition and storage on plant tolerance to chilling. Folia Horticulture. 23(1):83-88.
  • Govindarajulu, M., P.E. Pfeffer, H.R. Jin, J. Abubaker, D.D. Douds, J.W. Allen, H. Bucking, P.J. Lammers, and Y. Shachar-Hill. 2005. Nitrogen transfer in the arbuscular mycorrhizal symbiosis. Nature 435: 819-823.
  • Heidari, M., and V. Karami. 2014. Effects of different mycorrhiza species on grain yield, nutrient uptake and oil content of sunflower under water stress. Journal of the Saudi Society of Agricultural Sciences. 13 (1): 9-13.
  • Hladni, N., V. Miklič, S. Jocić, M. Jocković, I. Radeka, and N. Lečić. 2012. Determining the influence of yield components on the confectionary sunflower seed yield. pp. 55-62. In: Proceedings of 53rd Conference of Oil Industry. Production and Processing of Oilseeds, Herceg Novi, Montenegro.
  • Hladni, N., S. Jocic, V. Miklic, D. Miladinovic, and M. Zoric. 2016. Interrelationship between 1000 seed weight with other quantitative traits in confectionary sunflower. Ekin Journal of Crop Breeding and Genetics 2 (1): 51-56.
  • Ibrahim, M. 2018. Response of seeds quality of sunflower to inoculation with single and mixed species of indigenous arbuscular mycorrhizal fungi. The Open Agriculture Journal. 12: 123-130.
  • Jalaluddin, M., and M. Hamid. 2011. Effect of adding inorganic organic and microbial fertilizers on seed germination and seedling growth of sunflower. Pakistan Journal of Botany 43: 2807-2809.
  • Jiang, Y., W. Wang, Q. Xie, N. Liu, L. Liu, D. Wang, X. Zhang, C. Yang, X. Chen, and D. Tang. 2017. Plants transfer lipids to sustain colonization by mutualistic mycorrhizal and parasitic fungi. Science 356: 1172.
  • Kalaiyarasan, C., M.V. Sriramachandrasekharan, S. Jawahar, K. Suseendran, R. Ramesh, S. Ramesh, and R. Kanagarajan. 2019. Growth and yield of sunflower as influenced by VAM and phosphorus application. Journal of Pharmacognosy and Photochemistry 8 (2): 836-839.
  • Kavitha, T., and R. Nelson. 2014. Effect of arbuscular mycorrhizal fungi (AMF) on growth and yield of sunflower (Helianthus annuus L.). Journal of Experimental Biology and Agricultural Sciences 2 (25): 226-232.
  • Kholghi, M., I. Bernousi, R. Darvishzadeh, A. Pirzad, and H. H. Maleki. 2011. Collection, evaluation and classification of Iranian confectionary sunflower (Helianthus annuus L.) populations using multivariate statistical techniques. African Journal of Biotechnology 10: 5444-5451.
  • Ma, Y., A. Látr, I. Rocha, H. Freitas, M. Vosátka, and R.S. Oliveira. 2019. Delivery of inoculum of Rhizophagus irregularis via seed coating in combination with Pseudomonas libanensis for cowpea production. Agronomy 9: 33.
  • Makarian, H., V. Poozesh, H.R. Asghari, and M. Nazari. 2016. Interaction effects of arbuscular mycorrhiza fungi and soil applied herbicides on plant growth. Communications in Soil Science and Plant Analysis. DOI: 10.1080/00103624.2016.1146744
  • Mayer, Z., N.H. Duc, Z. Sasvari, and K. Posta. 2017. How arbuscular mycorrhizal fungi influence the defense system of sunflower during different abiotic stresses. Acta Biological Hungarian. 68 (4): 376-387.
  • Mikiciuk, G., L.Sas-Paszt, M. Mikiciuk, E. Derkowska, P. Trzcinski, S. Gluszek, A. Lisek, S. Wera-Bryl, and J. Rudnicka. 2019. Mycorrhizal frequency, physiological parameters, and yield of strawberry plants inoculated with endomycorrhizal fungi and rhizosphere bacteria. Mycorrhiza 29: 489-501.
  • O’Callaghan, M. 2016. Microbial inoculation of seed for improved crop performance: Issues and opportunities. Applied Microbiology and Biotechnology 100: 5729-5746.
  • Oliveira, R.S., I. Rocha, Y. Ma, M. Vosátka, and H. Freitas. 2016. Seed coating with arbuscular mycorrhizal fungi as an ecotechnological approach for sustainable agricultural production of common wheat (Triticum aestivum L.). Journal Toxicology Environmental Health Part A 79: 329-337.
  • Pekcan, V., G. Evci, I.M. Yilmaz, and Y. Kaya. 2015. Developing confectionery sunflower hybrids and determination of their yield performances in different environmental conditions. Ekin Journal of Crop Breeding and Genetics 1-2:47-55.
  • Phiri, S., I. M. Rao, E. Barrios, and B. R. Singh. 2003. Plant growth, mycorrhizal association, nutrient uptake and phosphorus dynamics in a volcanic-ash soil in Colombia as affected by the establishment of Tithonia diversifolia, Journal of Sustainable Agriculture 21 (3): 41-59.
  • Rillig M.C., M.A. Sosa-Hernandez, MA, J. Roy, C.A. Aguilar-Trigueros, K. Valyi, and A. Lehmann. 2016. Towards an integrated mycorrhizal technology: harnessing mycorrhiza for sustainable intensification in agriculture. Frontiers in Plant Science 7: 1-5.
  • Schneiter, A.A., and J.F. Miller. 1981. Description of sunflower growth stages. Crop Science 21: 901-903.
  • Silva, A.P.J., R.A. Silva, J.S. Santos, J.C.S. Medeiros, F.G. Carvalho, V. N. Silva, C.J. Oliceira, A.C. Araujo, L.E.S.F. Silva, and J.G. Junior. 2015. Soil chemical properties and growth of sunflower (Helianthus annuus L.) as affected by the application of organic fertilizers and inoculation with arbuscular mycorrhizal fungi. Revista Brasileira de Ciencia do Solo 39 (1): 151-161.
  • Sıncık, M., and T. Goksoy. 2014. Investigation of correlation between traits and path analysis of confectionary sunflower genotypes. Notulae Botanicae Horti Agrobotanici 42 (1): 227-231.
  • Smith, S.E., and D.J. Read. 2008. Mycorrhizal symbiosis. San Diego, CA, USA: Academic Press.
  • Soleimanzadeh, H. 2010. Effect of VA-mycorrhiza on growth and yield of sunflower (Helianthus annuus L.) at different phosphorus levels. International Journal of Agricultural and Biosystems Engineering 4 (11): 820-823.
  • Steel, R. G. D., and J. H. Torrie. 1980. Principles and Procedures of Statistics. Second Ed. McGraw-Hill Book Company Inc., New York.
  • Tan, A.Ş., A.M. Altunok ve M. Aldemir. 2017. Bazı çerezlik ayçiçeği çeşit adaylarının Menemen, İzmir ekolojik koşullarında verim potansiyelleri. Anadolu, Ege Tarımsal Araştırma Enstitüsü Dergisi 27 (1): 1-16.
  • Tan, A.S., and Y. Kaya. 2019. Sunflower (Helianthus annuus L.) genetic resources, production and researches in Turkey. Oilseeds&fats Crops and Lipids. (open access). https://www.ocl-journal.org/articles /ocl/ full_ html/ 2019/01/ocl190004s/ocl190004s.html.
  • Thirkell, T.J, M.D. Charters, A.J. Elliott, S.M. Sait, and K.J. Field. 2017. Are mycorrhizal fungi our sustainable saviours? Considerations for achieving food security. Journal of Ecology 105: 921–929.
  • Veiga, R.S.L. J. Jansa, E. Frossard, and M.G.A. van der Heijden. 2011. Can arbuscular mycorrhizal fungi reduce the growth of agricultural weeds? PLoS ONE 6: e27825.
  • Vosátka, M., A. Latr, S. Gianinazzi, and J. Albrechtova. 2012. Development of arbuscular mycorrhizal biotechnology and industry: Current achievements and bottlenecks. Symbiosis 58: 29-37.
Toplam 43 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Ziraat, Veterinerlik ve Gıda Bilimleri
Bölüm Makaleler
Yazarlar

Filiz Parça Bu kişi benim 0000-0003-2396-9327

Aydın Ünay 0000-0002-7278-4428

Yayımlanma Tarihi 15 Haziran 2021
Gönderilme Tarihi 18 Haziran 2020
Yayımlandığı Sayı Yıl 2021 Cilt: 31 Sayı: 1

Kaynak Göster

APA Parça, F., & Ünay, A. (2021). A Preliminary Study on the Response of Confectionery Sunflower (Helianthus annuus L.) to Arbuscular Mycorrhizal Fungi (AMF). ANADOLU Ege Tarımsal Araştırma Enstitüsü Dergisi, 31(1), 1-8. https://doi.org/10.18615/anadolu.949814
AMA Parça F, Ünay A. A Preliminary Study on the Response of Confectionery Sunflower (Helianthus annuus L.) to Arbuscular Mycorrhizal Fungi (AMF). ANADOLU. Haziran 2021;31(1):1-8. doi:10.18615/anadolu.949814
Chicago Parça, Filiz, ve Aydın Ünay. “A Preliminary Study on the Response of Confectionery Sunflower (Helianthus Annuus L.) to Arbuscular Mycorrhizal Fungi (AMF)”. ANADOLU Ege Tarımsal Araştırma Enstitüsü Dergisi 31, sy. 1 (Haziran 2021): 1-8. https://doi.org/10.18615/anadolu.949814.
EndNote Parça F, Ünay A (01 Haziran 2021) A Preliminary Study on the Response of Confectionery Sunflower (Helianthus annuus L.) to Arbuscular Mycorrhizal Fungi (AMF). ANADOLU Ege Tarımsal Araştırma Enstitüsü Dergisi 31 1 1–8.
IEEE F. Parça ve A. Ünay, “A Preliminary Study on the Response of Confectionery Sunflower (Helianthus annuus L.) to Arbuscular Mycorrhizal Fungi (AMF)”, ANADOLU, c. 31, sy. 1, ss. 1–8, 2021, doi: 10.18615/anadolu.949814.
ISNAD Parça, Filiz - Ünay, Aydın. “A Preliminary Study on the Response of Confectionery Sunflower (Helianthus Annuus L.) to Arbuscular Mycorrhizal Fungi (AMF)”. ANADOLU Ege Tarımsal Araştırma Enstitüsü Dergisi 31/1 (Haziran 2021), 1-8. https://doi.org/10.18615/anadolu.949814.
JAMA Parça F, Ünay A. A Preliminary Study on the Response of Confectionery Sunflower (Helianthus annuus L.) to Arbuscular Mycorrhizal Fungi (AMF). ANADOLU. 2021;31:1–8.
MLA Parça, Filiz ve Aydın Ünay. “A Preliminary Study on the Response of Confectionery Sunflower (Helianthus Annuus L.) to Arbuscular Mycorrhizal Fungi (AMF)”. ANADOLU Ege Tarımsal Araştırma Enstitüsü Dergisi, c. 31, sy. 1, 2021, ss. 1-8, doi:10.18615/anadolu.949814.
Vancouver Parça F, Ünay A. A Preliminary Study on the Response of Confectionery Sunflower (Helianthus annuus L.) to Arbuscular Mycorrhizal Fungi (AMF). ANADOLU. 2021;31(1):1-8.
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