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Effect of Foliar Manganese Applications on Yield Quality and Diseases Progresses of Soybean

Yıl 2020, , 4 - 21, 01.10.2020
https://doi.org/10.33724/zm.675983

Öz

In plants, manganese mainly acts as a cofactor in relation to basic metabolic processes such as photosynthesis, lipid biosynthesis and oxidative stress. Growth and yield decreases and sensitivity to pathogens and frost damage increases when Mn get deficient in plants. Giving salts such as manganese sulphate to calcareous, high pH soils where manganese deficiency is common is generally assumed to be useless due to fast oxidization of the applied manganese and convertion it i soil into unavailable form for plants to absorb. Furthermore, Mn in soils is the only element that can be both deficient and toxic throughout a growing season in the same location. Reason for this is the adverse affects of flooding due to irrigation, microbial activities and volume weight of soils on the efficiency of manganese. Soybean plant is very sensitive to Mn deficiency and manganese deficiency in soybean is more frequent than other micronutrient deficiencies but responce to Mn fertilizers is well when it is deficient.

Very low soybean production self sufficiency levels of Turkey creates a force to increase production of soybean. In Cukurova region, where the majority of the soybean acreage in Turkey locates, Mn levels in soils are low. Soybean plant is very sensitive to Mn deficiency and manganese deficiency in soybean is more common than other micronutrient deficiencies but responce of this crop to Mn fertilizers is good in case of deficiency. Manganese deficiency is a recurrent problem in soybean grown on soils with high pH. The application of chemical fertilizers from the soil is used to alleviate yield losses due to this deficiency, but is often ineffective. In this review, in addition to the foliar manganese nutritioning studies carried out in the World, the studies on the usage of manganese as a fungicide as a new study field were assembled and evaluated for soybean crop.


Kaynakça

  • Abass, J. M., Serhan, I. A., and Mutlag, N. A. (2011). Effect of leaf nutrition by iron and manganese in yield and quality of three soybean cultivars. Diyala Agricultural Sciences Journal, 3(1).
  • Adams, M. L., Norvell, W. A., Philpot, W. D., and Peverly, J. H. (2000). Toward the discrimination of manganese, zinc, copper, and iron deficiency in ‘Bragg’soybean using spectral detection methods. Agronomy Journal, 92(2), 268-274.
  • Alt, D., Ng, S. J., Grusenmeyer, J., and Lindsey, L. E. (2018). Seed Yield and Quality of Transgenic High-Oleic and Conventional Soybean as Influenced by Foliar Manganese Application. Crop Science, 58(2), 874-879.
  • Basso, C. J., Santi, A. L., Lamego, F. P., and Girotto, E. (2011). Foliar application of manganese in transgenic soybean tolerant to glyphosate. Ciência Rural, 41(10), 1726-1731.
  • Burnell, J. N. (1988). The biochemistry of manganese in plants. In Manganese in soils and plants (pp. 125-137). Springer, Dordrecht.
  • Campbell, L. C.,and Nable, R. O. (1988). Physiological functions of manganese in plants. In Manganese in soils and plants (pp. 139-154). Springer, Dordrecht.
  • Carmona, M. A., Simonetti, E., Ravotti, M. E., Scandiani, M., Luque, A. G., Formento, N. A., and Sautua, F. J. (2017). In vitro antifungal/fungistatic activity of manganese phosphite against soybean soil-borne pathogens. Phyton, International Journal of Experimental Botany, 86, 265-269.
  • Carvalho, E. R., Oliveira, J. A., Reis, L. V., and Ferreira, T. F. (2015). Foliar manganese in the health and lignin quality of conventional and glyphosateresistant soybean seeds. Revista Ciência Agronômica, 46(1), 135-143.
  • Chen, D., Zhao, H., Wang, Q., Wu, L. L., Li, C. S., Yu, H., and Zhang, Y. X. (2011). Effects of seed-coat and foliar-applied manganese on agronomic traits and yield of soybean. Soybean Science, 30(5), 880-882.
  • De Novaes, M. I. C. (2016). Physiological and Biochemical Aspects of Soybean Sprayed with Manganese Phosphite for the White Mold Control (Doctoral dissertation, Universidade Federal de Viçosa).
  • Dhoble, S. M., and Kulkarni, N. S., 2016. Antimycotic activity of zinc and manganese nanoparticles on commercially important phytopathogens of soybean (Glycine max (L.) Merril). , Sch. Acad. J. Biosci.,4(11):1032-1037.
  • Diedrick, K., 2010. Manganese fertility in soybean production. Crop Insights. Pioneer Hi-Bred Int., Inc., Johnston, IA.[Online] https://www. pioneer. com/home/site/us/agronomy/library/template. CONTENT/guid. 6693CDF7-8169-DE29-F6B2-52A7C87A6E80.
  • Gettier, S. W., Martens, D. C., and Brumback, T. B., 1985b. Timing of Foliar Manganese Application for Correction of Manganese Deficiency in Soybean 1. Agronomy journal, 77(4), 627-630.
  • Gettier, S. W., Martens, D. C., and Donohue, S. J., 1985a. Soybean Yield Response Prediction from Soil Test and Tissue Manganese Levels 1. Agronomy journal, 77(1), 63-67.
  • Ghasemi‐Fasaei, R., Ronaghi, A., Maftoun, M., Karimian, N., and Soltanpour, P. N., 2002. Influence of FeEDDHA on iron–manganese interaction in soybean genotypes in a calcareous soil. Journal of plant nutrition, 26(9), 1815-1823.
  • Ghazali, N. J.,and Cox, F. R., 1981. Effect of Temperature on Soybean Growth and Manganese Accumulation 1. Agronomy Journal, 73(2), 363-367.
  • Graham, M. J., Nickell, C. D., and Hoeft, R. G., 1995. Inheritance of tolerance to manganese deficiency in soybean. Crop science, 35(4), 1007-1010.
  • Hameed, H. M., Shaker, A. T., and Ali, K. A. A., 2019. Effect of Manganese and Zinc Foliar Application on Growth and Yield of Some Soybean Varieties Glycine max (L.) Merrill. Tikrit Journal for Agricultural Sciences. Mağallaẗ Tikrīt li-l-ʻulūm al-zirāʻat, 16(3), 14-27.
  • Heckman, J. R., Majek, B. A., and Prostko, E. P., 1999. Application of manganese fertilizer with postemergence soybean herbicides. Journal of production agriculture, 12(3), 445-448.
  • Izaguirre-Mayoral, M. L., and Sinclair, T. R., 2005. Variation in manganese and iron accumulation among soybean genotypes growing on hydroponic solutions of differing manganese and nitrate concentrations. Journal of plant nutrition, 28(3), 521-535.
  • Johansson, J., 2005. Manganese solubility due to compaction in soils under corn and soybean. SLU, Dept. of Soil Sciences, Uppsala.
  • Kluthcouski, J., and Nelson, L. E., 1979. Variations in the manganese concentrations in soybean trifoliolates. Communications in Soil Science and Plant Analysis, 10(10), 1299-1310.
  • Kobraee, S., Shamsi, K., and Saeed, V. M., 2013. Soybean growth under drought stress and foliar manganese. International Journal of Biosciences (IJB), 3(2), 122-131.
  • Mann, E. N., Resende, P. M. D., Mann, R. S., Carvalho, J. G. D., and Von Pinho, É. V. D. R., 2002. Effect of manganese application on yield and seed quality of soybean. Pesquisa Agropecuaria Brasileira, 37(12), 1757-1764.
  • Mascagni, H. J., and Cox, F. R., 1985. Calibration of a Manganese Availability Index for Soybean Soil Test Data 1. Soil Science Society of America Journal, 49(2), 382-386.
  • Masuda, T., and Goldsmith, P. D., 2009. World soybean production: area harvested, yield, and long-term projections. International food and agribusiness management review, 12(1030-2016-82753), 1-20.
  • Mederski, H. J., and Hoff, D. J., 1958. Factors Affecting Absorption of Foliar-Applied Manganese by Soybean Plants 1. Agronomy Journal, 50(4), 175-178.
  • Millaleo, R., Reyes-Díaz, M., Ivanov, A. G., Mora, M. L., and Alberdi, M., 2010. Manganese as essential and toxic element for plants: transport, accumulation and resistance mechanisms. Journal of soil science and plant nutrition, 10(4), 470-481.
  • Moosavi, A. A., and Ronaghi, A., 2011. Influence of foliar and soil applications of iron and manganese on soybean dry matter yield and iron-manganese relationship in a Calcareous soil. Australian Journal of Crop Science, 5(12), 1550.
  • Mukhopadhyay, M. J., and Sharma, A., 1991. Manganese in cell metabolism of higher plants. The Botanical Review, 57(2), 117-149.
  • Nava, I. A., Gonçalves Jr, A. C., Schwantes, D., Coelho, G. F., Stangarlin, J. R., and Leismann, E. A. V., 2015. Foliar application rates of manganese in phenological stages of roundup ready soybean. Spanish Journal of Rural Development, 6, 3-4.
  • Novaes, M. I. C., Debona, D., Fagundes-Nacarath, I. R. F., Brás, V. V., and Rodrigues, F. A., 2019. Physiological and biochemical responses of soybean to white mold affected by manganese phosphite and fluazinam. Acta Physiologiae Plantarum, 41(12), 186.
  • Ohki, K., 1981. Manganese critical levels for soybean growth and physiological processes. Journal of plant nutrition, 3(1-4), 271-284.
  • Parker, K. E., 2016. Agronomic management of soybean with foliar manganese and apical meristem alterations (Doctoral dissertation).
  • Purcell, L. C., King, C. A., and Ball, R. A., 2000. Soybean cultivar differences in ureides and the relationship to drought tolerant nitrogen fixation and manganese nutrition. Crop Science, 40(4), 1062-1070.
  • Reddy, K. R., Saxena, M. C., and Pal, U. R., 1978. Effect of iron and manganese on 65 Zn absorption and translocation in soybean seedlings. Plant and soil, 49(2), 409-415.
  • Santos, E. F., Santini, J. M. K., Paixão, A. P., Júnior, E. F., Lavres, J., Campos, M., and dos Reis, A. R., 2017. Physiological highlights of manganese toxicity symptoms in soybean plants: Mn toxicity responses. Plant physiology and biochemistry, 113, 6-19.
  • Singh, K., and Banerjee, N. K., 1984. Soybean yield and manganese content as affected by rates of manganese. Legume Research, 7(1):17-22.
  • Socha, A. L., and Guerinot, M. L., 2014. Mn-euvering manganese: the role of transporter gene family members in manganese uptake and mobilization in plants. Frontiers in Plant Science, 5, 106.
  • Sönmez, B., Özbahçe, A., Akgül, S., ve Keçeci, M., 2018. "Türkiye topraklarının bazı verimlilik ve organik karbon (TOK) içeriğinin coğrafi veritabanının oluşturulması". Proje Sonuç Raporu (TAGEM/TSKAD/11/A13/P03). Toprak Gübre ve Su Kaynakları Merkez Araştırma Enstitüsü. Tarımsal Araştırmalar ve Politikalar Genel Müdürlüğü, Ankara.
  • TÜİK., 2018. Bitkisel üretim istatistikleri. http://www.tuik.gov.tr/PreTablo.do?alt_id=1001 (Erişim tarihi: 19.11.2019).
  • Weiland, R. T., Noble, R. D., and Crang, R. E., 1975. Photosynthetic and chloroplast ultrastructural consequences of manganese deficiency in soybean. American Journal of Botany, 62(5), 501-508.
  • Wilson, D. O., Boswell, F. C., Ohki, K., Parker, M. B., Shuman, L. M., and Jellum, M. D., 1982. Changes in Soybean Seed Oil and Protein as Influenced by Manganese Nutrition 1. Crop Science, 22(5), 948-952.
  • Zhang, Y., 2005. Effect of manganese on yield in different soybean genetic types. Chinese agricultural science bulletin, 21(7), 245-247.

Soyada Bitki Besleme ve Hastalıklarla Mücadele Yöntemi Olarak Yapraktan Mangan Uygulamaları

Yıl 2020, , 4 - 21, 01.10.2020
https://doi.org/10.33724/zm.675983

Öz

Mangan bitkilerde esas olarak fotosentez, lipid biyosentezi ve oksidatif stres ile ilişkili temel metabolik işlemlerde kofaktör olarak görev yapmaktadır. Mn eksikliği bitkilerde büyüme ve verim azalırken patojenlere ve don hasarına karşı hassasiyet artmaktadır. Mangan noksanlığının sık görüldüğü kireçli, yüksek pH’ya sahip topraklara mangan sülfat gibi tuzlar vermek genellikle faydasız bulunmaktadır. Çünkü verilen mangan kısa sürede yükseltgenerek alınamaz forma dönüşmektedir. Ayrıca topraktaki Mn, aynı yerde bir yetiştirme sezonu boyunca hem eksik hem de toksik olabilen tek elementtir. Bu durumun sebebi olarak toprağın sulama gibi sebeplerle su altında kalması, mikrobiyal faaliyetleri ve hacim ağırlığının manganın etkinliğini ciddi şekilde etkilemesidir.
Türkiye’nin soya üretiminde kendine yeterliliğinin çok düşük bir düzeyde olması, soya üretiminin artırılmasını zorunlu kılmaktadır. Türkiye’de soya ekim alanlarının büyük kısmının bulunduğu Çukurova Bölgesi’nde toprakların Mn düzeyi düşük durumdadır. Soya bitkisi Mn eksikliğine karşı oldukça hassastır ve soyada mangan eksikliği diğer mikro besin eksikliklerinden daha sık görülür fakat soya, eksiklik durumunda Mn gübrelerine iyi yanıt verir. Mangan eksikliği, yüksek pH’ya sahip topraklarda yetiştirilen soyada tekrarlayan bir sorundur. Kimyasal gübrelerin topraktan uygulanması bu eksiklikten kaynaklanan verim kayıplarını hafifletmek için kullanılmaktadır ancak çoğu zaman etkisiz kalmaktadır. Bu derlemede soyada yapraktan mangan uygulamaları konusunda dünyada yürütülmüş bitki besleme çalışmalarının yanında manganın, yeni bir alan olan fungusit olarak kullanımı konusunda yapılmış çalışmalar da bir araya getirilmiş ve değerlendirilmiştir.

Kaynakça

  • Abass, J. M., Serhan, I. A., and Mutlag, N. A. (2011). Effect of leaf nutrition by iron and manganese in yield and quality of three soybean cultivars. Diyala Agricultural Sciences Journal, 3(1).
  • Adams, M. L., Norvell, W. A., Philpot, W. D., and Peverly, J. H. (2000). Toward the discrimination of manganese, zinc, copper, and iron deficiency in ‘Bragg’soybean using spectral detection methods. Agronomy Journal, 92(2), 268-274.
  • Alt, D., Ng, S. J., Grusenmeyer, J., and Lindsey, L. E. (2018). Seed Yield and Quality of Transgenic High-Oleic and Conventional Soybean as Influenced by Foliar Manganese Application. Crop Science, 58(2), 874-879.
  • Basso, C. J., Santi, A. L., Lamego, F. P., and Girotto, E. (2011). Foliar application of manganese in transgenic soybean tolerant to glyphosate. Ciência Rural, 41(10), 1726-1731.
  • Burnell, J. N. (1988). The biochemistry of manganese in plants. In Manganese in soils and plants (pp. 125-137). Springer, Dordrecht.
  • Campbell, L. C.,and Nable, R. O. (1988). Physiological functions of manganese in plants. In Manganese in soils and plants (pp. 139-154). Springer, Dordrecht.
  • Carmona, M. A., Simonetti, E., Ravotti, M. E., Scandiani, M., Luque, A. G., Formento, N. A., and Sautua, F. J. (2017). In vitro antifungal/fungistatic activity of manganese phosphite against soybean soil-borne pathogens. Phyton, International Journal of Experimental Botany, 86, 265-269.
  • Carvalho, E. R., Oliveira, J. A., Reis, L. V., and Ferreira, T. F. (2015). Foliar manganese in the health and lignin quality of conventional and glyphosateresistant soybean seeds. Revista Ciência Agronômica, 46(1), 135-143.
  • Chen, D., Zhao, H., Wang, Q., Wu, L. L., Li, C. S., Yu, H., and Zhang, Y. X. (2011). Effects of seed-coat and foliar-applied manganese on agronomic traits and yield of soybean. Soybean Science, 30(5), 880-882.
  • De Novaes, M. I. C. (2016). Physiological and Biochemical Aspects of Soybean Sprayed with Manganese Phosphite for the White Mold Control (Doctoral dissertation, Universidade Federal de Viçosa).
  • Dhoble, S. M., and Kulkarni, N. S., 2016. Antimycotic activity of zinc and manganese nanoparticles on commercially important phytopathogens of soybean (Glycine max (L.) Merril). , Sch. Acad. J. Biosci.,4(11):1032-1037.
  • Diedrick, K., 2010. Manganese fertility in soybean production. Crop Insights. Pioneer Hi-Bred Int., Inc., Johnston, IA.[Online] https://www. pioneer. com/home/site/us/agronomy/library/template. CONTENT/guid. 6693CDF7-8169-DE29-F6B2-52A7C87A6E80.
  • Gettier, S. W., Martens, D. C., and Brumback, T. B., 1985b. Timing of Foliar Manganese Application for Correction of Manganese Deficiency in Soybean 1. Agronomy journal, 77(4), 627-630.
  • Gettier, S. W., Martens, D. C., and Donohue, S. J., 1985a. Soybean Yield Response Prediction from Soil Test and Tissue Manganese Levels 1. Agronomy journal, 77(1), 63-67.
  • Ghasemi‐Fasaei, R., Ronaghi, A., Maftoun, M., Karimian, N., and Soltanpour, P. N., 2002. Influence of FeEDDHA on iron–manganese interaction in soybean genotypes in a calcareous soil. Journal of plant nutrition, 26(9), 1815-1823.
  • Ghazali, N. J.,and Cox, F. R., 1981. Effect of Temperature on Soybean Growth and Manganese Accumulation 1. Agronomy Journal, 73(2), 363-367.
  • Graham, M. J., Nickell, C. D., and Hoeft, R. G., 1995. Inheritance of tolerance to manganese deficiency in soybean. Crop science, 35(4), 1007-1010.
  • Hameed, H. M., Shaker, A. T., and Ali, K. A. A., 2019. Effect of Manganese and Zinc Foliar Application on Growth and Yield of Some Soybean Varieties Glycine max (L.) Merrill. Tikrit Journal for Agricultural Sciences. Mağallaẗ Tikrīt li-l-ʻulūm al-zirāʻat, 16(3), 14-27.
  • Heckman, J. R., Majek, B. A., and Prostko, E. P., 1999. Application of manganese fertilizer with postemergence soybean herbicides. Journal of production agriculture, 12(3), 445-448.
  • Izaguirre-Mayoral, M. L., and Sinclair, T. R., 2005. Variation in manganese and iron accumulation among soybean genotypes growing on hydroponic solutions of differing manganese and nitrate concentrations. Journal of plant nutrition, 28(3), 521-535.
  • Johansson, J., 2005. Manganese solubility due to compaction in soils under corn and soybean. SLU, Dept. of Soil Sciences, Uppsala.
  • Kluthcouski, J., and Nelson, L. E., 1979. Variations in the manganese concentrations in soybean trifoliolates. Communications in Soil Science and Plant Analysis, 10(10), 1299-1310.
  • Kobraee, S., Shamsi, K., and Saeed, V. M., 2013. Soybean growth under drought stress and foliar manganese. International Journal of Biosciences (IJB), 3(2), 122-131.
  • Mann, E. N., Resende, P. M. D., Mann, R. S., Carvalho, J. G. D., and Von Pinho, É. V. D. R., 2002. Effect of manganese application on yield and seed quality of soybean. Pesquisa Agropecuaria Brasileira, 37(12), 1757-1764.
  • Mascagni, H. J., and Cox, F. R., 1985. Calibration of a Manganese Availability Index for Soybean Soil Test Data 1. Soil Science Society of America Journal, 49(2), 382-386.
  • Masuda, T., and Goldsmith, P. D., 2009. World soybean production: area harvested, yield, and long-term projections. International food and agribusiness management review, 12(1030-2016-82753), 1-20.
  • Mederski, H. J., and Hoff, D. J., 1958. Factors Affecting Absorption of Foliar-Applied Manganese by Soybean Plants 1. Agronomy Journal, 50(4), 175-178.
  • Millaleo, R., Reyes-Díaz, M., Ivanov, A. G., Mora, M. L., and Alberdi, M., 2010. Manganese as essential and toxic element for plants: transport, accumulation and resistance mechanisms. Journal of soil science and plant nutrition, 10(4), 470-481.
  • Moosavi, A. A., and Ronaghi, A., 2011. Influence of foliar and soil applications of iron and manganese on soybean dry matter yield and iron-manganese relationship in a Calcareous soil. Australian Journal of Crop Science, 5(12), 1550.
  • Mukhopadhyay, M. J., and Sharma, A., 1991. Manganese in cell metabolism of higher plants. The Botanical Review, 57(2), 117-149.
  • Nava, I. A., Gonçalves Jr, A. C., Schwantes, D., Coelho, G. F., Stangarlin, J. R., and Leismann, E. A. V., 2015. Foliar application rates of manganese in phenological stages of roundup ready soybean. Spanish Journal of Rural Development, 6, 3-4.
  • Novaes, M. I. C., Debona, D., Fagundes-Nacarath, I. R. F., Brás, V. V., and Rodrigues, F. A., 2019. Physiological and biochemical responses of soybean to white mold affected by manganese phosphite and fluazinam. Acta Physiologiae Plantarum, 41(12), 186.
  • Ohki, K., 1981. Manganese critical levels for soybean growth and physiological processes. Journal of plant nutrition, 3(1-4), 271-284.
  • Parker, K. E., 2016. Agronomic management of soybean with foliar manganese and apical meristem alterations (Doctoral dissertation).
  • Purcell, L. C., King, C. A., and Ball, R. A., 2000. Soybean cultivar differences in ureides and the relationship to drought tolerant nitrogen fixation and manganese nutrition. Crop Science, 40(4), 1062-1070.
  • Reddy, K. R., Saxena, M. C., and Pal, U. R., 1978. Effect of iron and manganese on 65 Zn absorption and translocation in soybean seedlings. Plant and soil, 49(2), 409-415.
  • Santos, E. F., Santini, J. M. K., Paixão, A. P., Júnior, E. F., Lavres, J., Campos, M., and dos Reis, A. R., 2017. Physiological highlights of manganese toxicity symptoms in soybean plants: Mn toxicity responses. Plant physiology and biochemistry, 113, 6-19.
  • Singh, K., and Banerjee, N. K., 1984. Soybean yield and manganese content as affected by rates of manganese. Legume Research, 7(1):17-22.
  • Socha, A. L., and Guerinot, M. L., 2014. Mn-euvering manganese: the role of transporter gene family members in manganese uptake and mobilization in plants. Frontiers in Plant Science, 5, 106.
  • Sönmez, B., Özbahçe, A., Akgül, S., ve Keçeci, M., 2018. "Türkiye topraklarının bazı verimlilik ve organik karbon (TOK) içeriğinin coğrafi veritabanının oluşturulması". Proje Sonuç Raporu (TAGEM/TSKAD/11/A13/P03). Toprak Gübre ve Su Kaynakları Merkez Araştırma Enstitüsü. Tarımsal Araştırmalar ve Politikalar Genel Müdürlüğü, Ankara.
  • TÜİK., 2018. Bitkisel üretim istatistikleri. http://www.tuik.gov.tr/PreTablo.do?alt_id=1001 (Erişim tarihi: 19.11.2019).
  • Weiland, R. T., Noble, R. D., and Crang, R. E., 1975. Photosynthetic and chloroplast ultrastructural consequences of manganese deficiency in soybean. American Journal of Botany, 62(5), 501-508.
  • Wilson, D. O., Boswell, F. C., Ohki, K., Parker, M. B., Shuman, L. M., and Jellum, M. D., 1982. Changes in Soybean Seed Oil and Protein as Influenced by Manganese Nutrition 1. Crop Science, 22(5), 948-952.
  • Zhang, Y., 2005. Effect of manganese on yield in different soybean genetic types. Chinese agricultural science bulletin, 21(7), 245-247.
Toplam 44 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Ziraat Mühendisliği
Bölüm Makaleler
Yazarlar

Uğur Sevilmis 0000-0003-3030-3160

Deniz Sevilmiş 0000-0003-3030-3160

Yaşar Ahu Ölmez 0000-0003-1922-1228

Sait Aykanat 0000-0002-5690-408X

Oktay Burak Özcan 0000-0001-8438-7932

Yayımlanma Tarihi 1 Ekim 2020
Gönderilme Tarihi 16 Ocak 2020
Kabul Tarihi 23 Mart 2020
Yayımlandığı Sayı Yıl 2020

Kaynak Göster

APA Sevilmis, U., Sevilmiş, D., Ölmez, Y. A., Aykanat, S., vd. (2020). Soyada Bitki Besleme ve Hastalıklarla Mücadele Yöntemi Olarak Yapraktan Mangan Uygulamaları. Ziraat Mühendisliği(369), 4-21. https://doi.org/10.33724/zm.675983