Effect of Phosphorous-Enriched Biochar on the Growth and Mineral Element Concentration of Lettuce (Lactuca Sativa L. cv. Maritima)

Year 2016, Volume: 31 Issue: 3, 101 - 107, 30.12.2016

Özge Şahin Mehmet Burak Taşkın Emre Can Kaya Havva Taşkın

Abstract

The effectiveness of phosphorus, poultry manure-derived biochar (BC) and phosphorus-enriched biochar (BC+phosphorus) on fresh weight and mineral element concentration of first and second harvest of lettuce plant. In this purpose Maritima lettuce cultivars were grown with control and phosphorus, BC and BC+ phosphorus application, phosphorus concentration were to be 200 mg kg-1, during the vegetation period. After the first harvest, on the growth, and P, N, K, Ca, Mg, Fe, Zn, Cu and Mn concentration of lettuce plant were determined. After the harvesting, determined to residual effect on the same pot phosphorus, BC and BC+phosphorus were applied into the same pot. After the first harvesting phosphorus, BC and BC+phosphorus were applied into the same pot to determine the residual effect of application on lettuce plant, and plant growth and N, P, K, Ca, Mg, Fe, Zn, Cu concentrations were determined. As a result, the wet weight were determined were highest in the both yield by phosphorus and BC+phosphorus application. There were not statistically significant difference between the treatments on N concentration of the first crop. For the second crop, N concentrations of BC and BC+phosphorus were the highest. The highest P, K, Ca and Mg concentrations of the first and second crop was determined with BC+ P application. Depending on the application, there were differences on Fe, Zn, Cu and Mn concentration of both yields. The results of this research suggest that using phosphorus enriched biochar alternatively to the commercial phosphorus fertilizers is seems to be a good strategy to protect declining phosphate reserves.

Keywords

Biochar, phosphorous-enriched biochar, phosphorus, lettuce.

Fosfor ile Zenginleştirilmiş Biyokömürün Marul Bitkisinin (Lactucasativa L. cv. Maritima) Gelişimi ve Mineral Element Konsantrasyonu Üzerine Etkisi

Abstract

Tavuk gübresinden elde edilmiş biyokömür (BK) ve fosfor ile zenginleştirilmiş biyokömürün (BK+fosfor) marul bitkisinin birinci ve ikinci ürün verim ve mineral element konsantrasyonlarına etkisi belirlenmiştir. Araştırmada marul bitkisi kontrol ile P konsantrasyonu 200 mg kg-1 olacak şekilde fosfor, BK ve BK+fosfor uygulamaları ile vejetasyon dönemi boyunca yetiştirilmiştir. Hasat edilen bitkilerin yaş ağırlıkları ile N, P, K, Ca, Mg, Fe, Zn, Cu ve Mn konsantrasyonları belirlenmiştir. Bitkilerin ilk hasatının ardından aynı saksılara uygulamaların bakiye etkisini belirlemek amacıyla tekrar marul fidesi dikilmiş ve ilk hasattaki parametler üzerine etkisi belirlenmiştir. Araştırma sonucunda en yüksek yaş ağırlık her iki denemede de fosfor ve BK+fosfor uygulamasından elde edilmiştir. Birinci denemeden elde edilen ürünün N konsantrasyonları üzerine uygulamaların etkisi istatistiki olarak önemli bir fark yaratmazken, ikinci üründe en yüksek N konsantrasyonu BK ve BK+fosfor uygulamasında belirlenmiştir. Her iki üründe de en yüksek P, K, Ca ve Mg konsantrasyonunu BK+fosfor uygulamasında belirlenmiştir. Uygulamaların birinci ve ikinci ürünün Fe, Zn, Cu ve Mn konantrasyonları üserine etkisi farklı olmuştur. Bu araştırma sonucunda tükenmekte olan fosfor kaynaklarının daha etkin kullanılabilmeleri için biyokömür ile fosforun karıştırılarak uygulanmasının etkili bir strateji olacağını söylemek mümkündür.

Keywords

Biyokömür, fosforca zenginleştirilmiş biyokömür, fosfor, marul.

References

• Agblevor, F.A., Beis, S,. Kim, S.S., Tarrant, R., Mante, N.O. (2010) Biocrude oils from the fast pyrolysis of poultry litter and hardwood. Waste Management 30:298-307.
• Bouyoucos, G.J.A. (1951) Recalibration of hydrometer for making mechanical analysis of soil. Agronomy Journal 43:434-438.
• Bremner, J.M. 1965. Total Nitrogen Methods of Soil Analysis .Part 2.Chemical and Microbiological Properties, Ed. C. A. Black. Amer. Soc. of Agron. Inc. Pub. Agron.Series, No: 9, Madison, Wisconsin, U.S.A. 1149-117.
• Demir, K., Sahin, O., Kadioglu, Y.K., Pilbeam D.J., Gunes, A. (2010) Essential and non-essential element composition of tomato plants fertilized with poultry manure. Scientia Horticulturae 127:16-22.
• Glaser, B., Lehmann, J., Zech, W. (2002) Ameliorating physical and chemical properties of highly weathered soils in the tropics with charcoal–a review. Biology and Fertility of Soils 35:219-230.
• Gunes, A. Inal, A. Kadioglu, Y. K. (2009) Determination of mineral element concentrations in wheat, sunflower, chickpea and lentil cultivars in response to P fertilization by polarized energy dispersive X-ray fluorescence. X-Ray Spectrometry 38:451-462.
• Gunes, A. Inal, A., Bagcı, E.G., Kadioglu, Y.K. (2010) Combined effect of arsenic and phosphorus on mineral element concentrations of sunflower. Communications in Soil Science and Plant Analysis 41:361-372.
• Gunes A., Inal A., Taskin, M.B., Sahin O., Kaya E.C., Atakol A. (2014) Effect of phosphorus enriched biochar and poultry manure on growth and mineral composition of lettuce (Lactuca sativa L. cv.) grown in alkaline soil. Soil Use and Management.30:182-184
• Gunes, A., Inal, A., Sahin, O., Taskin, M.B., Atakol, O., Yılmaz, N. (2015) Variations in mineral element concentrations of poultry manure biochar obtained at different pyrolysis temperatures, and their effects on crop growth and mineral nutrition. Soil Use and Management 31:429-437.
• Hızalan, E., Ünal H. (1966) Topraklarda Önemli Kimyasal Analizler”, Ankara Üniversitesi Ziraat Fakültesi Yayınları, 278.
• Horwitz, W. (1980) Qfficial Methods of Analysis of the Association of Official Analytical Chemists. Thirteenth edition. Association of official analytical chemists, Arlington, VA.
• Inal, A., Gunes, A., Sahin, O., Taskin, M.B., Kaya, E.C. (2015) Impacts of biochar and processed poultry manure, applied to a calcareous soil on the growth of bean and maize. Soil Use and Management 31:106–113.
• Jackson, M.L. (1958) Soil Chemical Analysis, Prentice-Hall, Inc. Englewood Cliffs, New Jersey, USA, 1-498.
• Kalra, P.Y. (1998) Reference Methods for Plant Analysis Soil and Plant Analysis Council, Inc. Boca Raton Boston London New York Washington, D.C. 44.
• Lehmann, J., Perira da Silva, J., Steiner, C., Nehls, T. Zech, W. Glaser, B. (2003) Nutrient availability and leaching in an archaeological lanthrosol and a ferralsol of the central amazon basin:fertilizer, manure and charcoal amendments. Plant Soil 249:343-357.
• Lehmann, J., Rilling, M.C., Thies, J., Masiello, C., Hockaday, W.C., Crowley, D. (2011) Biochar effects on soil biota-a review. Soil Biology Biochemistry 43:1812-1836.
• Lindsay, W.L., Norvell W.A. (1969) Development of a DTPA Micronutrient Soil Test. Soil Scien Society of American Proceding 35:600-602.
• Madiba, O.F., Solaiman, Z.M.,Carson, J.K., Murphy, D.V. (2016) Biochar increases availability and uptake of phosphorus to wheat under leaching Conditions. Biol Fertil Soils 52:439–446.
• Nelson, N.O., Agudelo, S. C., Yuan, W.Q., Gan, J. (2011) Nitrogen and phosphorus availability in biochar-amended soils. Soil Science 176:218-226.
• Olsen, S.R., Cole, C.V., Watanabe, F.S., Dean, N.C. (1954) Estimation of Available Phosphorus in Soil by Extraction with Sodium Bicorbonate, U.S. Dept.of Agr.Cir., 939, Washington. D.C.
• Park, J.H., Choppala, G., K.Bolan, N.S., Chung, J.W., Chuasavathi, T. (2011) Biocharreduces the bioavailability and phytotoxicity of heavy metals. Plant Soil 348:439-451.
• Pratt, P.F. (1965) Methods of Soil Analysis Part 2. Chemical and Microbiological Propertie ed.c. a. black. American Society of Agronomy. Inc. Pub. Agron, Series No. 9.
• Revell, K.T., Maguire, R.O., Agarblevor, F.A. (2012) Influence of poultry litter biochar on soil properties and plant growth. Soil Science 177 :402-408.
• Richards, L.A. (1954) Diagnosis and Improvement of Saline and Alkaline Soils, U.S. Dept. of Agr. Handbook No: 60, 1954
• Sahin, O., Taskin, M.B., Kadioglu, Y.K., Pilbeam, D J., Inal, A., Gunes, A. (2014) Elemental composition of pepper plants fertilized with pelletized poultry manure. Journal of Plant Nutrition 37:458-468.
• Warnock, D.D., Lehmann, J., Kuyper, T.W. Rillig, M.C. (2007) Mycorrhizal responses to biochar in soil concepts and mechanisms. Plant Soil 300:9-20.
• Zolfi-Bavariani, M., Ronagh, A., Ghasemi-Fasaei, R., Yasrebi, J. (2016) Influence of poultry manurderived biochars on nutrients bioavailability and chemical properties of a calcareous soil. Archİves of Agronomy and Soil Science 62:1578-1591.