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Kireçli Topraklarda Yetiştirilen Roka (Eruca vesicaria subsp. Sativa) Bitkisine Mangan ve Kükürt Uygulamalarının Etkisi

Year 2024, , 1261 - 1271, 25.06.2024
https://doi.org/10.47495/okufbed.1121821

Abstract

Topraklardaki yüksek kireç ve pH’ dan dolayı yeşil sebze bitkilerinde kükürt ve mikro element noksanlığı gözlenmektedir. Yeşil sebzelerden biri olan ve Brassica familyasının bir üyesi olan roka ülkemizde yaygın şekilde üretilmektedir. Rokanın hemen her yerde yetiştirilmesi ve bölgemizde yetiştirilen bu bitkide de mikro element noksanlığı görülmesi dikkati çekmiştir. Bu nedenle yürütülen çalışmada, Konya kireçli topraklarında yetiştirilen rokanın kükürt (S) ve mangan (Mn) ihtiyacının belirlenmesi ve bu iki element arasındaki etkileşimin bitki gelişimi ve verimine etkisi araştırılmıştır. Çalışmamızda; kükürtlü gübre üç dozda (0- 40- 80 kg S da-1) ve manganlı gübrede üç dozda(0- 1- 2 kg da-1 Mn) roka bitkisine uygulanmıştır. Deneme sera şartlarında tesadüf parselleri faktöriyel deneme desenine göre yürütülmüştür. Deneme sonunda roka bitkisinde ortalama yaprak boyu, klorofil SPAD değeri, bitki yaş ağırlığı, bitki boyu ve bitki Mn konsantrasyonu farklı dozlarda gübre uygulamaları ile farklılık göstermemiştir. Buna karşın bitkide ve toprakta kükürt konsantrasyonu kükürt gübrelemesi ile önemli artış göstermiştir (p<0.05). Roka için toprakta yeterli seviyede kükürtün bulunması halinde ek kükürtlü gübrelemeye ihtiyaç olmadığı belirlenmiştir.

Supporting Institution

Selçuk Üniversitesi BAP Koordinatörlüğü

Project Number

20402001

Thanks

Selçuk Üniversitesi BAP Koordinatörlüğü'ne teşekkür ederim.

References

  • Alqasoumi S., Al-Sohaibani M., Al-Howiriny T., Al-Yahya M., Rafatullah S. Rocket “Eruca sativa”: A salad herb with potential gastric anti-ulcer activity. World Journal of Gastroenterology 2009; WJG, 15(16):1958. doi: 10.3748/wjg.15.1958
  • Anonymous. https: www.tuik.gov.tr 2022; Bitkisel üretim verileri.
  • Barlas NT., Irget ME., Tepecik M. Mineral content of the rocket plant (Eruca sativa). African Journal of Biotechnology 2011; 10(64): 14080-14082. DOI: 10.5897/AJB11.2171
  • Bayraklı F. Toprak ve Bitki Analizleri (Çeviri ve Derleme) 19 Mayıs Üniv., Zir. Fak Yay. 1987; 17, Samsun.
  • Bermejo JEH., León J. (Eds.). Neglected crops: 1492 from a different perspective (Vol. 26). Food & Agriculture Org. Plant Production and Protection Series 26, 1994; FAO, Rome: 303-332.
  • Bennett RN., Mellon FA., Botting NP., Eagles J., Rosa EAS., Williamson G. Identification of the major glucosinolate(4-mercaptobutyl glucosinolate) in leaves of Eruca sativa L. (salad rocket). Phytochemistry 2002; 61: 25-30. https://doi.org/10.1016/S0031-9422(02)00203-0
  • Bianco VV., Boari F. Up-to-date developments on wild rocket cultivation. In Rocket: A Mediterranean Crop for the World. Report of a Workshop 1997 (1996, December); Legnaro (Italy): 13-14.
  • Bouyoucos GJ. A Recalibration of the hydrometer method for making mechanical analysis of soils 1. Agronomy Journal 1951; 43 (9): 434-438. https://doi.org/10.2134/agronj1951.00021962004300090005x
  • Burnell JN. The biochemistry of manganese in plants. In Manganese in soils and plants. Springer, Dordrecht 1988; 125-137. DOI: 10.1007/978-94-009-2817-6_10
  • Cassel DK, Nielsen DR. Field capacity and available water capacity. In: Klute, A., Ed., Methods of Soil Analysis. Part I. Physical and Mineralogical Methods, Agronomy Monograph 9, Soil Science Society of America 1986; Madison: 901-926. https://doi.org/10.2136/sssabookser5.1.2ed.c36
  • Chesnin L., Yien CH. Turbidimetric determination of available sulfates. Soil Science Society of America Journal 1951; 15(C): 149-151. https://doi.org/10.2136/sssaj1951.036159950015000C0032x
  • Davidian JC., Kopriva S. Regulation of sulfate uptake and assimilation—the same or not the same?. Molecular plant 2010; 3(2): 314-325. https://doi.org/10.1093/mp/ssq001
  • Düzgüneş O. İstatistik - Prensip ve Metotları. Ege Üniversitesi Matbaası 1963.
  • El‐Jaoual T., Cox DA. Manganese toxicity in plants. Journal of Plant Nutrition 1998; 21(2): 353-386. https://doi.org/10.1080/01904169809365409
  • Fox RL., Olson RA., Rhoades HF. Evaluating the Sulfur Status of Soils by Plant and Soil Tests. 1964. https://doi.org/10.2136/sssaj1964.03615995002800020034x
  • Gülser F., Ayaş HÇ. Kükürt ve humik asit uygulamalarının ıspanak (Spinacea oleracea var. Spinoza) bitkisinin mikro besin elementi içeriklerine etkisi. Toprak Bilimi ve Bitki Besleme Dergisi 2016; 4 (1): 27 -31.
  • Hızalan E., Ünal H. Toprağın Kimyasal Analizleri. Ankara Üniversitesi Ziraat Fakültesi Yayınları 1966; 278.
  • Hocaoglu OL. Toprakta organik madde, nitrojen ve nitrat tayini. 1966. https://agris.fao.org/agris-search/search.do?recordID=US201300458499
  • Houhou M., Joutei KA., Louhalia S. Biomass production, chlorophyll content and morphorogical parameters are affected by sulfur deficiency in Eruca sativa L. Int. J. Ecol. Environ. Sci 2018; 44: 67-75.
  • Husted S., Thomsen MU., Mattsson M., Schjoerring JK. Influence of nitrogen and sulphur form on manganese acquisition by barley (shape Hordeum vulgare). Plant and Soil 2005; 268(1): 309-317. DOI 10.1007/s11104-004-0317-1
  • Jackson M. Soil chemical analysis. prentice Hall, Inc., Englewood Cliffs, NJ 1958; 498: 183-204.
  • Kacar B. Chemical analysis of plant and soil. Fac. of Agric., Univ. of Ankara Press, Ankara 1972; 468, Turkey. (in Turkish)
  • Kacar B. Chemical analysis of plant and soil. III. Soil analysis. Fac. of Agric., Education, Univ. of Ankara, Ankara 1997, Turkey. (in Turkish)
  • Kacar B., Katkat V. Bitki Besleme (Ders Kitabı), Güçlendirme Vakfı Yayın, Uludağ Üniversitesi 1998; 1-595.
  • Leustek T., Saito K. Sulfate transport and assimilation in plants. Plant Physiology 1999;120: 637-643. https://doi.org/10.1104/pp.120.3.637
  • Leustek T., Martin MN., Bick JA., Davies JP. Pathways and regulation of sulfur metabolism revealed through molecular and genetic studies. Annual Review of Plant Physiology and Plant Molecular Biology 2000; 51: 141-165. https://doi.org/10.1146/annurev.arplant.51.1.141
  • Lewandowska M., Sirko, A. Recent advances in understanding plant response to sulfur-deficiency stress. Acta Biochimica Polonica 2008; 55(3): 457-471.https://doi.org/10.18388/abp.2008_3051
  • Lindemann WC., Aburto JJ., Haffner WM., Bono AA. Effect of Sulfur Source on Sulfur Oxidation. New Mexico Agric. Exp. Stn. 1991; Journal Article no. 1486. https://doi.org/10.2136/sssaj1991.03615995005500010015x
  • Lindsay WL., Norvell WA. Development of a DTPA soil test for zinc, iron, manganese, and copper 1. Soil Science Society of America Journal 1978; 42 (3): 421-428. https://doi.org/10.2136/sssaj1978.03615995004200030009x
  • Mahmoud AWM., Taha SS. Main sulphur content in essential oil of Eruca Sativa as affected by nano iron and nano zinc mixed with organic manure. Agriculture 2018; 64(2): 65. DOI: 10.2478/agri-2018-0007
  • Marshner H. Mineral Nutrition of Higher Plants. Second edition. Elsevier Academic Press, London 2005, UK.
  • Martinez-Sanchez A., Allende A., Bennett, RN., Ferreres, F., Gil, MI. Microbial, nutritional and sensory quality of rocket leaves as affected by different sanitizers. Postharvest Biology and Technology 2006; 42: 86-97. https://doi.org/10.1016/j.postharvbio.2006.05.010
  • Morales M., Janick J. Arugula: A promising specialty leaf vegetable. In: Janick J, Whipkey A (Eds.). Trends in new crops and new uses. ASHS Press, Alexandria 2002; VA: 418-423.
  • Neilsen GH., Parchomchuk P., Wolk WD., Lau, OL. Growth and mineral composition of newly planted apple trees following fertigation with N and P. Journal of the American Society for Horticultural Science 1993;118 (1): 50-53. https://doi.org/10.21273/JASHS.118.1.50
  • Olsen LE, Sommers SR. Phosphorus, methods of soil analysis, Part 2. Chemical and Microbiological Properties, Agronomy Monograph 1982; Second Edition. No.9: 403-430.
  • Porto RDA., Bonfim-Silva EM., Souza DDM., Cordova NRM., Polyzel AC., da Silva TJA. Potassium fertilization in rocket plants: production and efficiency in water use. Agro@ mbiente On-line 2013; 7(1): 28-35.
  • Sarwar G., Hussain N., Schmeisky H., Suhammad S., Ibrahim M., Ahmad S. Efficiency of various organic residues for enhancing rice-wheat production under normal soil conditions. Pak. J. Bot. 2008; 40: 2107-2113. Scherer HW. Sulphur in crop Production. European Journal of Agronomy 2001;14(2): 81-111. https://doi.org/10.1016/S1161-0301(00)00082-4
  • Smatanová M., Richter R., Hluše J. Spinach and pepper responseto nitrogen and sulphur fertilization. Plant Soil Environment 2004; 50 (7): 303–308.
  • Staff US Salinity Lab. Diagnosis and improvement of saline and alkali soils. Agriculture Handbook 1954; 60: 83-100.
  • Wainwright M. Sulfur Oxidation in Soils. Advances in Agronomy 1984; 37: 349-396. https://doi.org/10.1016/S0065-2113(08)60458-7
  • Wallace A., Mueller RT., Cha JW., Alexander GV. Soil pH, excess lime, and chelation agent on micronutrients in soybeans and Bush beans. Agronomy Journal 1974; 66(5):698-700. https://doi.org/10.2134/agronj1974.00021962006600050027x
  • Yaniv Z., Schafferman D., Amar Z. Tradition, uses and biodiversity of rocket (Eruca sativa, Brassicaceae) in Israel. Economic botany 1998; 52(4): 394-400.
  • Yurtsever N. Deneysel İstatistik Metodları. T.C. Tarım Orman ve Köyişleri Bakanlığı, Köy Hizmetleri Genel Müdürlüğü Yayınları 1984; Genel Yayın No:121, Teknik Yayın No:56, Ankara-Türkiye.

The Effect of Manganese and Sulfur Applications on the Rocket (Eruca vesicaria subsp. Sativa) Plant Grown in Lime Soils

Year 2024, , 1261 - 1271, 25.06.2024
https://doi.org/10.47495/okufbed.1121821

Abstract

Due to the high lime and pH in the soil, sulfur and micro element deficiencies are observed in green vegetable plants. Rocket, one of the green vegetables and a member of the Brassicaceae family, is widely produced in our country. It is noteworthy that rocket is grown by producers almost everywhere and that this plant grown in our region also has a deficiency of microelements. For this reason, in this study were investigated that the sulfur and manganese requirement of rocket, which is one of the vegetable plants grown in Konya calcareous soil, and the effect of the interaction between these two elements on plant growth and yield. In our study, sulfur (S) fertilizer was applied in three doses (0- 40- 80 kg S da-1) and manganese (Mn) fertilizer in three doses (0- 1- 2 kg Mn da-1) was applied to the rocket plant. The experiment was carried out in the greenhouse conditions according to the randomized plots factorial design. At the end of the experiment, the average leaf height, chlorophyll SPAD value, plant fresh weight, plant height and plant Mn concentration did not differ with different doses of fertilizer applications in the rocket plant. On the other hand, the sulfur concentration in the plant and soil increased significantly with sulfur fertilization (p<0.05). It has been determined that if there is sufficient sulfur in the soil for rocket, there is no need for additional sulfur fertilization.

Project Number

20402001

References

  • Alqasoumi S., Al-Sohaibani M., Al-Howiriny T., Al-Yahya M., Rafatullah S. Rocket “Eruca sativa”: A salad herb with potential gastric anti-ulcer activity. World Journal of Gastroenterology 2009; WJG, 15(16):1958. doi: 10.3748/wjg.15.1958
  • Anonymous. https: www.tuik.gov.tr 2022; Bitkisel üretim verileri.
  • Barlas NT., Irget ME., Tepecik M. Mineral content of the rocket plant (Eruca sativa). African Journal of Biotechnology 2011; 10(64): 14080-14082. DOI: 10.5897/AJB11.2171
  • Bayraklı F. Toprak ve Bitki Analizleri (Çeviri ve Derleme) 19 Mayıs Üniv., Zir. Fak Yay. 1987; 17, Samsun.
  • Bermejo JEH., León J. (Eds.). Neglected crops: 1492 from a different perspective (Vol. 26). Food & Agriculture Org. Plant Production and Protection Series 26, 1994; FAO, Rome: 303-332.
  • Bennett RN., Mellon FA., Botting NP., Eagles J., Rosa EAS., Williamson G. Identification of the major glucosinolate(4-mercaptobutyl glucosinolate) in leaves of Eruca sativa L. (salad rocket). Phytochemistry 2002; 61: 25-30. https://doi.org/10.1016/S0031-9422(02)00203-0
  • Bianco VV., Boari F. Up-to-date developments on wild rocket cultivation. In Rocket: A Mediterranean Crop for the World. Report of a Workshop 1997 (1996, December); Legnaro (Italy): 13-14.
  • Bouyoucos GJ. A Recalibration of the hydrometer method for making mechanical analysis of soils 1. Agronomy Journal 1951; 43 (9): 434-438. https://doi.org/10.2134/agronj1951.00021962004300090005x
  • Burnell JN. The biochemistry of manganese in plants. In Manganese in soils and plants. Springer, Dordrecht 1988; 125-137. DOI: 10.1007/978-94-009-2817-6_10
  • Cassel DK, Nielsen DR. Field capacity and available water capacity. In: Klute, A., Ed., Methods of Soil Analysis. Part I. Physical and Mineralogical Methods, Agronomy Monograph 9, Soil Science Society of America 1986; Madison: 901-926. https://doi.org/10.2136/sssabookser5.1.2ed.c36
  • Chesnin L., Yien CH. Turbidimetric determination of available sulfates. Soil Science Society of America Journal 1951; 15(C): 149-151. https://doi.org/10.2136/sssaj1951.036159950015000C0032x
  • Davidian JC., Kopriva S. Regulation of sulfate uptake and assimilation—the same or not the same?. Molecular plant 2010; 3(2): 314-325. https://doi.org/10.1093/mp/ssq001
  • Düzgüneş O. İstatistik - Prensip ve Metotları. Ege Üniversitesi Matbaası 1963.
  • El‐Jaoual T., Cox DA. Manganese toxicity in plants. Journal of Plant Nutrition 1998; 21(2): 353-386. https://doi.org/10.1080/01904169809365409
  • Fox RL., Olson RA., Rhoades HF. Evaluating the Sulfur Status of Soils by Plant and Soil Tests. 1964. https://doi.org/10.2136/sssaj1964.03615995002800020034x
  • Gülser F., Ayaş HÇ. Kükürt ve humik asit uygulamalarının ıspanak (Spinacea oleracea var. Spinoza) bitkisinin mikro besin elementi içeriklerine etkisi. Toprak Bilimi ve Bitki Besleme Dergisi 2016; 4 (1): 27 -31.
  • Hızalan E., Ünal H. Toprağın Kimyasal Analizleri. Ankara Üniversitesi Ziraat Fakültesi Yayınları 1966; 278.
  • Hocaoglu OL. Toprakta organik madde, nitrojen ve nitrat tayini. 1966. https://agris.fao.org/agris-search/search.do?recordID=US201300458499
  • Houhou M., Joutei KA., Louhalia S. Biomass production, chlorophyll content and morphorogical parameters are affected by sulfur deficiency in Eruca sativa L. Int. J. Ecol. Environ. Sci 2018; 44: 67-75.
  • Husted S., Thomsen MU., Mattsson M., Schjoerring JK. Influence of nitrogen and sulphur form on manganese acquisition by barley (shape Hordeum vulgare). Plant and Soil 2005; 268(1): 309-317. DOI 10.1007/s11104-004-0317-1
  • Jackson M. Soil chemical analysis. prentice Hall, Inc., Englewood Cliffs, NJ 1958; 498: 183-204.
  • Kacar B. Chemical analysis of plant and soil. Fac. of Agric., Univ. of Ankara Press, Ankara 1972; 468, Turkey. (in Turkish)
  • Kacar B. Chemical analysis of plant and soil. III. Soil analysis. Fac. of Agric., Education, Univ. of Ankara, Ankara 1997, Turkey. (in Turkish)
  • Kacar B., Katkat V. Bitki Besleme (Ders Kitabı), Güçlendirme Vakfı Yayın, Uludağ Üniversitesi 1998; 1-595.
  • Leustek T., Saito K. Sulfate transport and assimilation in plants. Plant Physiology 1999;120: 637-643. https://doi.org/10.1104/pp.120.3.637
  • Leustek T., Martin MN., Bick JA., Davies JP. Pathways and regulation of sulfur metabolism revealed through molecular and genetic studies. Annual Review of Plant Physiology and Plant Molecular Biology 2000; 51: 141-165. https://doi.org/10.1146/annurev.arplant.51.1.141
  • Lewandowska M., Sirko, A. Recent advances in understanding plant response to sulfur-deficiency stress. Acta Biochimica Polonica 2008; 55(3): 457-471.https://doi.org/10.18388/abp.2008_3051
  • Lindemann WC., Aburto JJ., Haffner WM., Bono AA. Effect of Sulfur Source on Sulfur Oxidation. New Mexico Agric. Exp. Stn. 1991; Journal Article no. 1486. https://doi.org/10.2136/sssaj1991.03615995005500010015x
  • Lindsay WL., Norvell WA. Development of a DTPA soil test for zinc, iron, manganese, and copper 1. Soil Science Society of America Journal 1978; 42 (3): 421-428. https://doi.org/10.2136/sssaj1978.03615995004200030009x
  • Mahmoud AWM., Taha SS. Main sulphur content in essential oil of Eruca Sativa as affected by nano iron and nano zinc mixed with organic manure. Agriculture 2018; 64(2): 65. DOI: 10.2478/agri-2018-0007
  • Marshner H. Mineral Nutrition of Higher Plants. Second edition. Elsevier Academic Press, London 2005, UK.
  • Martinez-Sanchez A., Allende A., Bennett, RN., Ferreres, F., Gil, MI. Microbial, nutritional and sensory quality of rocket leaves as affected by different sanitizers. Postharvest Biology and Technology 2006; 42: 86-97. https://doi.org/10.1016/j.postharvbio.2006.05.010
  • Morales M., Janick J. Arugula: A promising specialty leaf vegetable. In: Janick J, Whipkey A (Eds.). Trends in new crops and new uses. ASHS Press, Alexandria 2002; VA: 418-423.
  • Neilsen GH., Parchomchuk P., Wolk WD., Lau, OL. Growth and mineral composition of newly planted apple trees following fertigation with N and P. Journal of the American Society for Horticultural Science 1993;118 (1): 50-53. https://doi.org/10.21273/JASHS.118.1.50
  • Olsen LE, Sommers SR. Phosphorus, methods of soil analysis, Part 2. Chemical and Microbiological Properties, Agronomy Monograph 1982; Second Edition. No.9: 403-430.
  • Porto RDA., Bonfim-Silva EM., Souza DDM., Cordova NRM., Polyzel AC., da Silva TJA. Potassium fertilization in rocket plants: production and efficiency in water use. Agro@ mbiente On-line 2013; 7(1): 28-35.
  • Sarwar G., Hussain N., Schmeisky H., Suhammad S., Ibrahim M., Ahmad S. Efficiency of various organic residues for enhancing rice-wheat production under normal soil conditions. Pak. J. Bot. 2008; 40: 2107-2113. Scherer HW. Sulphur in crop Production. European Journal of Agronomy 2001;14(2): 81-111. https://doi.org/10.1016/S1161-0301(00)00082-4
  • Smatanová M., Richter R., Hluše J. Spinach and pepper responseto nitrogen and sulphur fertilization. Plant Soil Environment 2004; 50 (7): 303–308.
  • Staff US Salinity Lab. Diagnosis and improvement of saline and alkali soils. Agriculture Handbook 1954; 60: 83-100.
  • Wainwright M. Sulfur Oxidation in Soils. Advances in Agronomy 1984; 37: 349-396. https://doi.org/10.1016/S0065-2113(08)60458-7
  • Wallace A., Mueller RT., Cha JW., Alexander GV. Soil pH, excess lime, and chelation agent on micronutrients in soybeans and Bush beans. Agronomy Journal 1974; 66(5):698-700. https://doi.org/10.2134/agronj1974.00021962006600050027x
  • Yaniv Z., Schafferman D., Amar Z. Tradition, uses and biodiversity of rocket (Eruca sativa, Brassicaceae) in Israel. Economic botany 1998; 52(4): 394-400.
  • Yurtsever N. Deneysel İstatistik Metodları. T.C. Tarım Orman ve Köyişleri Bakanlığı, Köy Hizmetleri Genel Müdürlüğü Yayınları 1984; Genel Yayın No:121, Teknik Yayın No:56, Ankara-Türkiye.
There are 43 citations in total.

Details

Primary Language English
Subjects Soil Sciences and Ecology
Journal Section RESEARCH ARTICLES
Authors

Ayşen Akay 0000-0002-2541-0167

Project Number 20402001
Publication Date June 25, 2024
Submission Date May 26, 2022
Acceptance Date February 12, 2024
Published in Issue Year 2024

Cite

APA Akay, A. (2024). The Effect of Manganese and Sulfur Applications on the Rocket (Eruca vesicaria subsp. Sativa) Plant Grown in Lime Soils. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 7(3), 1261-1271. https://doi.org/10.47495/okufbed.1121821
AMA Akay A. The Effect of Manganese and Sulfur Applications on the Rocket (Eruca vesicaria subsp. Sativa) Plant Grown in Lime Soils. Osmaniye Korkut Ata University Journal of The Institute of Science and Techno. June 2024;7(3):1261-1271. doi:10.47495/okufbed.1121821
Chicago Akay, Ayşen. “The Effect of Manganese and Sulfur Applications on the Rocket (Eruca Vesicaria Subsp. Sativa) Plant Grown in Lime Soils”. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi 7, no. 3 (June 2024): 1261-71. https://doi.org/10.47495/okufbed.1121821.
EndNote Akay A (June 1, 2024) The Effect of Manganese and Sulfur Applications on the Rocket (Eruca vesicaria subsp. Sativa) Plant Grown in Lime Soils. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi 7 3 1261–1271.
IEEE A. Akay, “The Effect of Manganese and Sulfur Applications on the Rocket (Eruca vesicaria subsp. Sativa) Plant Grown in Lime Soils”, Osmaniye Korkut Ata University Journal of The Institute of Science and Techno, vol. 7, no. 3, pp. 1261–1271, 2024, doi: 10.47495/okufbed.1121821.
ISNAD Akay, Ayşen. “The Effect of Manganese and Sulfur Applications on the Rocket (Eruca Vesicaria Subsp. Sativa) Plant Grown in Lime Soils”. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi 7/3 (June 2024), 1261-1271. https://doi.org/10.47495/okufbed.1121821.
JAMA Akay A. The Effect of Manganese and Sulfur Applications on the Rocket (Eruca vesicaria subsp. Sativa) Plant Grown in Lime Soils. Osmaniye Korkut Ata University Journal of The Institute of Science and Techno. 2024;7:1261–1271.
MLA Akay, Ayşen. “The Effect of Manganese and Sulfur Applications on the Rocket (Eruca Vesicaria Subsp. Sativa) Plant Grown in Lime Soils”. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi, vol. 7, no. 3, 2024, pp. 1261-7, doi:10.47495/okufbed.1121821.
Vancouver Akay A. The Effect of Manganese and Sulfur Applications on the Rocket (Eruca vesicaria subsp. Sativa) Plant Grown in Lime Soils. Osmaniye Korkut Ata University Journal of The Institute of Science and Techno. 2024;7(3):1261-7.

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