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Yerfıstığı Biyokömürü ve Organik Gübre Uygulamasının Mısır Bitkisinin Büyümesi ve Besin Elementi Konsantrasyonları Üzerine Etkileri

Year 2024, , 1783 - 1794, 16.09.2024
https://doi.org/10.47495/okufbed.1466531

Abstract

Çalışma, sera koşullarında, üç tekrarlı tesadüf parselleri deneme desenine göre yürütülmüştür. Bu çalışmada, mısır bitkilerine artan dozlarda yer fıstığı kabuklarından elde edilen biyokömür (%0, %0,5, %1 ve %2), kimyasal gübre, vermikompost (%5 w/w) ve hayvan gübresi uygulanmıştır. Mısır bitkileri hasat edildikten sonra, bitki boyu, biyokütle verimi, dokulardaki azot (N), fosfor (P), potasyum (K), kalsiyum (Ca), magnezyum (Mg), çinko (Zn), demir (Fe), bakır (Cu) ve mangan (Mn) konsantrasyonları belirlenmiştir. Deneme sonuçlarına göre, hayvan gübresi uygulaması buğday bitkisindeki mikro elementlerin yanı sıra P, K ve Mg konsantrasyonu üzerinde büyük etkiye sahip olmuştur. Biyokömür uygulaması incelendiğinde, %1 ve %2 biyokömür uygulamasının en etkili dozlar olduğu belirlenmiştir. Bu çalışmanın bulgularına göre, hayvan gübresi ve %1-2 biyokömür uygulamasının organik madde kaynağı olarak kullanılmasının bitki performansı üzerinde en olumlu etkiye sahip olduğu tespit edilmiştir.

Supporting Institution

OSMANİYE KORKUT ATA ÜNİVERSİTESİ BİLİMSEL ARAŞTIRMA PROJELERİ KOORDİNASYON BİRİMİ

Project Number

OKÜBAP-2022-PT1-004

References

  • Abu Zied Amin AEE. Impact of corn cob biochar on potassium status and wheat growth in a calcareous sandy soil. Communications in Soil Science and Plant Analysis 2016; 47(17): 2026-2033.
  • Akpinar C. Interaction of phosphorus chemical fertilizer and biochar application on wheat plant. Latin American Applied Research-An International Journal 2024; 54(2): 287-292.
  • Akpinar C., Demirbas, A., Ortas I. The effect of different compost compositions on arbuscular mycorrhizal colonization and nutrients concentration of leek (allium Porrum L.) plant. Communications in Soil Science and Plant Analysis 2019; 50(18): 2309-2320.
  • Arancon NQ., Edwards CA., Atiyeh R., Metzger JD. Effects of vermicomposts produced from food waste on the growth and yields of greenhouse peppers. Bioresource Technology 2004; 93(2): 139-144.
  • Bellitürk K. Vermicomposting in Turkey: challenges and opportunities in future. Eurasian Journal of Forest Science 2018; 6(4): 32-41.
  • Bera T., Collins HP., Alva AK., Purakayastha TJ., Patra AK. Biochar and manure effluent effects on soil biochemical properties under corn production. Applied Soil Ecology 2016; 107: 360-367.
  • Black CA. Methods of Soil Analysis. Part:2. American Society of Agronomy Inc., Publisher Maddison, Wisconsin, USA; 1957.
  • Boostani HR., Najafighiri M. Effect of organic manures, theirs biochar and mycorrhizae fungi application on the chemical forms of potassium in a calcareous soil. Journal of Water and Soil Conservation 2018; 24(6): 159-176.
  • Bouyoucos GJ. Hydrometer method ımproved for marking particle size analysis of soils. Agronomy J. 1951; 54: 464-465. Bremner JM. Total nitrogen. In Methods of Soil Analysis 1965; 1149-1178.
  • Chaudhary S., Dheri GS., Brar B. Long-term effects of NPK fertilizers and organic manures on carbon stabilization and management index under rice-wheat cropping system. Soil and Tillage Research 2017; 166: 59-66.
  • Çağlar KÖ. Toprak Bilgisi A.Ü. Ziraat Fakültesi Yayınları: 1949;10, Ankara.
  • Damodar RD., Rao AS., Reddy KS., Takkar PN. Yield sustainability and phosphorus utilization in soybean–wheat system on Vertisols in response to integrated use of manure and fertilizer phosphorus. Field Crops Research 1999; 62(2): 181-190.
  • Dong YH., Ouyang Z., Liu SL. Nitrogen transformation in maize soil after application of different organic manures. Journal of Environmental Sciences 2005; 17(2): 340-343.
  • Evanylo G., Sherony C., Spargo J., Starner D., Brosius M., Haering K. Soil and water environmental effects of fertilizer, manure, and compost-based fertility practices in an organic vegetable cropping system. Agriculture, Ecosystems & Environment 2008; 127(1): 50-58.
  • Ewulo BS., Ojeniyi SO., Akanni DA. Effect of poultry manure on selected soil physical and chemical properties, growth, yield and nutrient status of tomato. African Journal of Agricultural Resesearch 2008; 3(9): 612–616.
  • Garg S., Bahl GS. Phosphorus availability to maize as influenced by organic manures and fertilizer P associated phosphatase activity in soils. Bioresource Technology 2008; 99: 5773-5777.
  • Ghimire R., Machado S., Bista P. Decline in soil organic carbon and nitrogen limits yield in wheat-fallow systems. Plant and Soil 2018; 422(1): 423-435.
  • Gul S., Whalen JK. Biochemical cycling of nitrogen and phosphorus in biochar-amended soils. Soil Biology and Biochemistry 2016; 103: 1-15.
  • Havlin JL., Beaton JD., Tisdale SL., Nelson WL. Soil fertility and Fertilizers: an introduction to nutrient management (7th ed.). Upper Saddle River, N.J.: Pearson Prentice Hall, 2005.
  • Jones JB. Plant Nutrition Manual. London: Crc Press. 1998.
  • Kiran YK., Barkat A., Cui X., Feng Y., Pan FS, Tang L., Yang X. Cow manure and cow manure-derived biochar application as a soil amendment for reducing cadmium availability and accumulation by Brassica chinensis L. in acidic red soil. Journal of Integrative Agriculture 2017; 16(3): 725-734.
  • Laird D., Fleming P., Wang B., Horton R., Karlen D. Biochar impact on nutrient leaching from a Midwestern agricultural soil. Geoderma 2010; 158(3): 436-442.
  • Lazcano C., Domínguez J. Soil nutrients. The Use of Vermicompost in Sustainable Agriculture: Impact on Plant Growth and Soil Fertility: 336, 2011.
  • Lehmann J., da Silva JP., Steiner C., Nehls T., Zech W., Glaser B. Nutrient availability and leaching in an archaeological Anthrosol and a Ferralsol of the Central Amazon basin: fertilizer, manure, and charcoal amendments. Plant and Soil 2003; 249(2): 343-357.
  • Lentz RD., Ippolito JA. Biochar and manure affect calcareous soil and corn silage nutrient concentrations and uptake. Journal of Environmental Quality 2012; 41(4): 1033-1043.
  • Li J., Marschner P. Phosphorus pools and plant uptake in manure-amended soil. Journal of Soil Science and Plant Nutrition 2019; 19(1): 175-186.
  • Lindsay WL., Norvell WA. Development of a dtpa soil test for zinc, iron, manganese, and copper. Soil Science Society of America Journal 1978; 42(3): 421-428.
  • Liu S., Tang W., Yang F., Meng J., Chen W., Li X. Influence of biochar application on potassium-solubilizing Bacillus mucilaginosus as potential biofertilizer. Preparative Biochemistry & Biotechnology 2017; 47(1): 32-37.
  • Madari BE., Silva MAS., Carvalho MTM., Maia AHN., Petter FA., Santos JLS., Tsai SM., Leal WGO., Zeviani WM. Properties of a sandy clay loam Haplic Ferralsol and soybean grain yield in a five-year field trial as affected by biochar amendment. Geoderma 2017; 305: 100-112.
  • Marschner H. Mineral nutrition of higher plants 2nd edn. Institute of Plant Nutrition University of Hohenheim: Germany, 1995.
  • Masood S., Naz T., Javed MT., Ahmed I., Ullah H., Iqbal M. Effect of short-term supply of farmyard manure on maize growth and soil parameters in pot culture. Archives of Agronomy and Soil Science 2014; 60(3): 337-347.
  • McCann L., Abdalla C., Jenner M., Massey R. Improved manure management and utilization: A systems approach. Renewable Agriculture and Food Systems 2005; 20: 127-135.
  • Murphy J., Riley JP. A modified single solution method for the determination of phosphate in natural waters. Analytica Chimica Acta 1962; 27: 31-36.
  • Najafi-Ghiri M. Effect of different biochars application on some soil properties and nutrients availability in a calcareous soil. Iranian Journal of Soil Research 2015; 29(3): 352-358.
  • Najafi-Ghiri M., Niksirat SH., Soleimanpour L., Nowzari S. Comparison of different organic amendments on potassium release from two fine-textured soils. Organic Agriculture 2018; 8(2): 129-140.
  • Najafi-Ghiri M., Razeghizadeh T., Taghizadeh MS., Boostani HR. Effect of sheep manure and its produced vermicompost and biochar on the properties of a calcareous soil after barley harvest. Communications in Soil Science and Plant Analysis 2019; 50(20): 2610-2625.
  • Narwal RP., Antil RS. Integrated nutrient management in pearl millet–wheat cropping system. In: Kapoor KK., Dudeja SS., Kundu BS. editors. Management of organic wastes for crop production. Department of Microbiology, CCS Haryana Agricultural University, Hisar, India. pp 205–213, 2005.
  • Olsen SR., Cole CV., Watanabe FS., Dean LA. Estimation of available phosphorus in soils by extraction with sodium bicarbonate. Circular, Vol 939:19. Washington, D.C.: U.S. Dept. of Agriculture, 1954.
  • Patel BT., Patel JJ., Patel MM. Response of groundnut (Arachis hypogaea) to FYM, sulphur and micronutrients and their residual effect on wheat (Triticum aestivum). Journal of Soils and Crops 2007; 17: 18-23.
  • Pedersen IF., Rubæk GH., Sørensen P. Cattle slurry acidification and application method can improve initial phosphorus availability for maize. Plant and Soil 2017; 414(1): 143-158.
  • Purakayastha TJ., Kumari S., Pathak H. Characterisation, stability, and microbial effects of four biochars produced from crop residues. Geoderma 2015; 239-240: 293-303.
  • Schlegel AJ., Assefa Y., Bond HD., Haag LA., Stone LR. Changes in soil nutrients after 10 years of cattle manure and swine effluent application. Soil and Tillage Research 2017; 172: 48-58.
  • Trivedi P., Singh K., Pankaj U., Verma SK., Verma RK., Patra DD. Effect of organic amendments and microbial application on sodic soil properties and growth of an aromatic crop. Ecological Engineering 2017; 102: 127-136.
  • U.S. Salinity Laboratory Staff. Diaynosis and improvement of saline and alkaline soils. USDA 1954; 60.
  • U.S. Soil Survey Staff. Bureau of plant Industri, Soil and Agricultural Engineering. ‘’Soil Survey’’ U.S. Department of Agriculture, U.S. Goverment Printing Office; 1951.
  • Watts DB, Torbert HA., Prior SA., Huluka G. Long-term tillage and poultry litter impacts soil carbon and nitrogen mineralization and fertility. Soil Science Society of America Journal 2010; 74(4): 1239-1247.
  • Zandonadi D., Canellas L., Façanha A. Indolacetic and humic acids induce lateral root development through a concerted plasmalemma and tonoplast H+ pumps activation. Planta 2007; 225: 1583-1595.
  • Zhang H., Yu X., Jin Z., Zheng W., Zhai B., Li Z. Improving grain yield and water use efficiency of winter wheat through a combination of manure and chemical nitrogen fertilizer on the Loess plateau, China. Journal of Soil Science and Plant Nutrition 2017; 17(2): 461-4

Effects of Peanut Biochar and Organic Fertilizer Application on Maize Plant Growth and Nutrient Concentrations

Year 2024, , 1783 - 1794, 16.09.2024
https://doi.org/10.47495/okufbed.1466531

Abstract

The study was conducted under greenhouse conditions using a randomized experimental design with three replicates. In this study, increasing doses of biochar derived from peanut shells (0, 0.5%, 1%, and 2%), chemical fertilizer, vermicompost (5% w/w), and animal manure were applied to maize plants. After harvesting the maize plants, plant height, biomass yield, concentrations of nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), zinc (Zn), iron (Fe), copper (Cu) and manganese (Mn) were determined in the tissues. According to the results of the experiment, the application of animal manure had the greatest influence on the concentration of microelements as well as P, K and Mg in the maize plant. When the application of biochar was studied, it was found that the application of 1% and 2% biochar was the most effective doses. According to the results of this study, it was found that the application of animal manure and 1-2% biochar as a source of organic matter had the best effect on plant performance.

Project Number

OKÜBAP-2022-PT1-004

References

  • Abu Zied Amin AEE. Impact of corn cob biochar on potassium status and wheat growth in a calcareous sandy soil. Communications in Soil Science and Plant Analysis 2016; 47(17): 2026-2033.
  • Akpinar C. Interaction of phosphorus chemical fertilizer and biochar application on wheat plant. Latin American Applied Research-An International Journal 2024; 54(2): 287-292.
  • Akpinar C., Demirbas, A., Ortas I. The effect of different compost compositions on arbuscular mycorrhizal colonization and nutrients concentration of leek (allium Porrum L.) plant. Communications in Soil Science and Plant Analysis 2019; 50(18): 2309-2320.
  • Arancon NQ., Edwards CA., Atiyeh R., Metzger JD. Effects of vermicomposts produced from food waste on the growth and yields of greenhouse peppers. Bioresource Technology 2004; 93(2): 139-144.
  • Bellitürk K. Vermicomposting in Turkey: challenges and opportunities in future. Eurasian Journal of Forest Science 2018; 6(4): 32-41.
  • Bera T., Collins HP., Alva AK., Purakayastha TJ., Patra AK. Biochar and manure effluent effects on soil biochemical properties under corn production. Applied Soil Ecology 2016; 107: 360-367.
  • Black CA. Methods of Soil Analysis. Part:2. American Society of Agronomy Inc., Publisher Maddison, Wisconsin, USA; 1957.
  • Boostani HR., Najafighiri M. Effect of organic manures, theirs biochar and mycorrhizae fungi application on the chemical forms of potassium in a calcareous soil. Journal of Water and Soil Conservation 2018; 24(6): 159-176.
  • Bouyoucos GJ. Hydrometer method ımproved for marking particle size analysis of soils. Agronomy J. 1951; 54: 464-465. Bremner JM. Total nitrogen. In Methods of Soil Analysis 1965; 1149-1178.
  • Chaudhary S., Dheri GS., Brar B. Long-term effects of NPK fertilizers and organic manures on carbon stabilization and management index under rice-wheat cropping system. Soil and Tillage Research 2017; 166: 59-66.
  • Çağlar KÖ. Toprak Bilgisi A.Ü. Ziraat Fakültesi Yayınları: 1949;10, Ankara.
  • Damodar RD., Rao AS., Reddy KS., Takkar PN. Yield sustainability and phosphorus utilization in soybean–wheat system on Vertisols in response to integrated use of manure and fertilizer phosphorus. Field Crops Research 1999; 62(2): 181-190.
  • Dong YH., Ouyang Z., Liu SL. Nitrogen transformation in maize soil after application of different organic manures. Journal of Environmental Sciences 2005; 17(2): 340-343.
  • Evanylo G., Sherony C., Spargo J., Starner D., Brosius M., Haering K. Soil and water environmental effects of fertilizer, manure, and compost-based fertility practices in an organic vegetable cropping system. Agriculture, Ecosystems & Environment 2008; 127(1): 50-58.
  • Ewulo BS., Ojeniyi SO., Akanni DA. Effect of poultry manure on selected soil physical and chemical properties, growth, yield and nutrient status of tomato. African Journal of Agricultural Resesearch 2008; 3(9): 612–616.
  • Garg S., Bahl GS. Phosphorus availability to maize as influenced by organic manures and fertilizer P associated phosphatase activity in soils. Bioresource Technology 2008; 99: 5773-5777.
  • Ghimire R., Machado S., Bista P. Decline in soil organic carbon and nitrogen limits yield in wheat-fallow systems. Plant and Soil 2018; 422(1): 423-435.
  • Gul S., Whalen JK. Biochemical cycling of nitrogen and phosphorus in biochar-amended soils. Soil Biology and Biochemistry 2016; 103: 1-15.
  • Havlin JL., Beaton JD., Tisdale SL., Nelson WL. Soil fertility and Fertilizers: an introduction to nutrient management (7th ed.). Upper Saddle River, N.J.: Pearson Prentice Hall, 2005.
  • Jones JB. Plant Nutrition Manual. London: Crc Press. 1998.
  • Kiran YK., Barkat A., Cui X., Feng Y., Pan FS, Tang L., Yang X. Cow manure and cow manure-derived biochar application as a soil amendment for reducing cadmium availability and accumulation by Brassica chinensis L. in acidic red soil. Journal of Integrative Agriculture 2017; 16(3): 725-734.
  • Laird D., Fleming P., Wang B., Horton R., Karlen D. Biochar impact on nutrient leaching from a Midwestern agricultural soil. Geoderma 2010; 158(3): 436-442.
  • Lazcano C., Domínguez J. Soil nutrients. The Use of Vermicompost in Sustainable Agriculture: Impact on Plant Growth and Soil Fertility: 336, 2011.
  • Lehmann J., da Silva JP., Steiner C., Nehls T., Zech W., Glaser B. Nutrient availability and leaching in an archaeological Anthrosol and a Ferralsol of the Central Amazon basin: fertilizer, manure, and charcoal amendments. Plant and Soil 2003; 249(2): 343-357.
  • Lentz RD., Ippolito JA. Biochar and manure affect calcareous soil and corn silage nutrient concentrations and uptake. Journal of Environmental Quality 2012; 41(4): 1033-1043.
  • Li J., Marschner P. Phosphorus pools and plant uptake in manure-amended soil. Journal of Soil Science and Plant Nutrition 2019; 19(1): 175-186.
  • Lindsay WL., Norvell WA. Development of a dtpa soil test for zinc, iron, manganese, and copper. Soil Science Society of America Journal 1978; 42(3): 421-428.
  • Liu S., Tang W., Yang F., Meng J., Chen W., Li X. Influence of biochar application on potassium-solubilizing Bacillus mucilaginosus as potential biofertilizer. Preparative Biochemistry & Biotechnology 2017; 47(1): 32-37.
  • Madari BE., Silva MAS., Carvalho MTM., Maia AHN., Petter FA., Santos JLS., Tsai SM., Leal WGO., Zeviani WM. Properties of a sandy clay loam Haplic Ferralsol and soybean grain yield in a five-year field trial as affected by biochar amendment. Geoderma 2017; 305: 100-112.
  • Marschner H. Mineral nutrition of higher plants 2nd edn. Institute of Plant Nutrition University of Hohenheim: Germany, 1995.
  • Masood S., Naz T., Javed MT., Ahmed I., Ullah H., Iqbal M. Effect of short-term supply of farmyard manure on maize growth and soil parameters in pot culture. Archives of Agronomy and Soil Science 2014; 60(3): 337-347.
  • McCann L., Abdalla C., Jenner M., Massey R. Improved manure management and utilization: A systems approach. Renewable Agriculture and Food Systems 2005; 20: 127-135.
  • Murphy J., Riley JP. A modified single solution method for the determination of phosphate in natural waters. Analytica Chimica Acta 1962; 27: 31-36.
  • Najafi-Ghiri M. Effect of different biochars application on some soil properties and nutrients availability in a calcareous soil. Iranian Journal of Soil Research 2015; 29(3): 352-358.
  • Najafi-Ghiri M., Niksirat SH., Soleimanpour L., Nowzari S. Comparison of different organic amendments on potassium release from two fine-textured soils. Organic Agriculture 2018; 8(2): 129-140.
  • Najafi-Ghiri M., Razeghizadeh T., Taghizadeh MS., Boostani HR. Effect of sheep manure and its produced vermicompost and biochar on the properties of a calcareous soil after barley harvest. Communications in Soil Science and Plant Analysis 2019; 50(20): 2610-2625.
  • Narwal RP., Antil RS. Integrated nutrient management in pearl millet–wheat cropping system. In: Kapoor KK., Dudeja SS., Kundu BS. editors. Management of organic wastes for crop production. Department of Microbiology, CCS Haryana Agricultural University, Hisar, India. pp 205–213, 2005.
  • Olsen SR., Cole CV., Watanabe FS., Dean LA. Estimation of available phosphorus in soils by extraction with sodium bicarbonate. Circular, Vol 939:19. Washington, D.C.: U.S. Dept. of Agriculture, 1954.
  • Patel BT., Patel JJ., Patel MM. Response of groundnut (Arachis hypogaea) to FYM, sulphur and micronutrients and their residual effect on wheat (Triticum aestivum). Journal of Soils and Crops 2007; 17: 18-23.
  • Pedersen IF., Rubæk GH., Sørensen P. Cattle slurry acidification and application method can improve initial phosphorus availability for maize. Plant and Soil 2017; 414(1): 143-158.
  • Purakayastha TJ., Kumari S., Pathak H. Characterisation, stability, and microbial effects of four biochars produced from crop residues. Geoderma 2015; 239-240: 293-303.
  • Schlegel AJ., Assefa Y., Bond HD., Haag LA., Stone LR. Changes in soil nutrients after 10 years of cattle manure and swine effluent application. Soil and Tillage Research 2017; 172: 48-58.
  • Trivedi P., Singh K., Pankaj U., Verma SK., Verma RK., Patra DD. Effect of organic amendments and microbial application on sodic soil properties and growth of an aromatic crop. Ecological Engineering 2017; 102: 127-136.
  • U.S. Salinity Laboratory Staff. Diaynosis and improvement of saline and alkaline soils. USDA 1954; 60.
  • U.S. Soil Survey Staff. Bureau of plant Industri, Soil and Agricultural Engineering. ‘’Soil Survey’’ U.S. Department of Agriculture, U.S. Goverment Printing Office; 1951.
  • Watts DB, Torbert HA., Prior SA., Huluka G. Long-term tillage and poultry litter impacts soil carbon and nitrogen mineralization and fertility. Soil Science Society of America Journal 2010; 74(4): 1239-1247.
  • Zandonadi D., Canellas L., Façanha A. Indolacetic and humic acids induce lateral root development through a concerted plasmalemma and tonoplast H+ pumps activation. Planta 2007; 225: 1583-1595.
  • Zhang H., Yu X., Jin Z., Zheng W., Zhai B., Li Z. Improving grain yield and water use efficiency of winter wheat through a combination of manure and chemical nitrogen fertilizer on the Loess plateau, China. Journal of Soil Science and Plant Nutrition 2017; 17(2): 461-4
There are 48 citations in total.

Details

Primary Language Turkish
Subjects Plant Nutrition and Soil Fertility
Journal Section RESEARCH ARTICLES
Authors

Çağdaş Akpınar

Project Number OKÜBAP-2022-PT1-004
Publication Date September 16, 2024
Submission Date April 7, 2024
Acceptance Date July 17, 2024
Published in Issue Year 2024

Cite

APA Akpınar, Ç. (2024). Yerfıstığı Biyokömürü ve Organik Gübre Uygulamasının Mısır Bitkisinin Büyümesi ve Besin Elementi Konsantrasyonları Üzerine Etkileri. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 7(4), 1783-1794. https://doi.org/10.47495/okufbed.1466531
AMA Akpınar Ç. Yerfıstığı Biyokömürü ve Organik Gübre Uygulamasının Mısır Bitkisinin Büyümesi ve Besin Elementi Konsantrasyonları Üzerine Etkileri. Osmaniye Korkut Ata University Journal of The Institute of Science and Techno. September 2024;7(4):1783-1794. doi:10.47495/okufbed.1466531
Chicago Akpınar, Çağdaş. “Yerfıstığı Biyokömürü Ve Organik Gübre Uygulamasının Mısır Bitkisinin Büyümesi Ve Besin Elementi Konsantrasyonları Üzerine Etkileri”. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi 7, no. 4 (September 2024): 1783-94. https://doi.org/10.47495/okufbed.1466531.
EndNote Akpınar Ç (September 1, 2024) Yerfıstığı Biyokömürü ve Organik Gübre Uygulamasının Mısır Bitkisinin Büyümesi ve Besin Elementi Konsantrasyonları Üzerine Etkileri. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi 7 4 1783–1794.
IEEE Ç. Akpınar, “Yerfıstığı Biyokömürü ve Organik Gübre Uygulamasının Mısır Bitkisinin Büyümesi ve Besin Elementi Konsantrasyonları Üzerine Etkileri”, Osmaniye Korkut Ata University Journal of The Institute of Science and Techno, vol. 7, no. 4, pp. 1783–1794, 2024, doi: 10.47495/okufbed.1466531.
ISNAD Akpınar, Çağdaş. “Yerfıstığı Biyokömürü Ve Organik Gübre Uygulamasının Mısır Bitkisinin Büyümesi Ve Besin Elementi Konsantrasyonları Üzerine Etkileri”. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi 7/4 (September 2024), 1783-1794. https://doi.org/10.47495/okufbed.1466531.
JAMA Akpınar Ç. Yerfıstığı Biyokömürü ve Organik Gübre Uygulamasının Mısır Bitkisinin Büyümesi ve Besin Elementi Konsantrasyonları Üzerine Etkileri. Osmaniye Korkut Ata University Journal of The Institute of Science and Techno. 2024;7:1783–1794.
MLA Akpınar, Çağdaş. “Yerfıstığı Biyokömürü Ve Organik Gübre Uygulamasının Mısır Bitkisinin Büyümesi Ve Besin Elementi Konsantrasyonları Üzerine Etkileri”. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi, vol. 7, no. 4, 2024, pp. 1783-94, doi:10.47495/okufbed.1466531.
Vancouver Akpınar Ç. Yerfıstığı Biyokömürü ve Organik Gübre Uygulamasının Mısır Bitkisinin Büyümesi ve Besin Elementi Konsantrasyonları Üzerine Etkileri. Osmaniye Korkut Ata University Journal of The Institute of Science and Techno. 2024;7(4):1783-94.

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