Effects of Vermicompost Applications on Microelemental Contents of Olive Saplings’ Production Material

Yıl 2020, Cilt: 17 Sayı: 3, 285 - 291, 29.09.2020

Korkmaz Bellitürk Hatice Turan Selçuk Göçmez Yusuf Solmaz Özlem Üstündağ Aydın Adiloğlu

https://doi.org/10.33462/jotaf.652847

Cited By: 2

Öz

Disseminations of organic fertilizer use in olive sapling nursery is very important. When the saplings are developed well at the beginning, this will be important for root development after planting to land, decreasing the future yield lowness, and even obtaining large amount of high quality olive grain and oil, therefore studies about this subject are essential. In this study, Gemlik olive (Olea europaea L. cv. Gemlik) variety saplings were grown with applications of different doses of the vermicompost that is an organic fertilizer (0, 5, 10, 20 and 40%) to production material and single dose of chemical fertilizer which is used commonly by planters (100% production material + chemical fertilizer). The micro nutrients content of the production material were analyzed. According to the results, the micro nutrients analysis of the production material used for the growth of olive saplings at the 3rd and 6th months was significant. Fe, Cu, Mn, Zn and B values as the average of all treatments were 12309.56, 34.74, 625.66, 52.61 30.85 at the 3rd month and 12066.24, 28.60, 507.03, 47.40, 29.98 mg kg-1 at the 6th month. In general, 40% vermicompost (VC) + 60% production material (PM) increased the micro elemental content. Use of vermicompost in production material can be said to increase quality of production material and positively affect nourishment of olive saplings and their developments. Vermicomposting is a simple biotechnological process of composting, in which certain species of earthworms (Eisenia foetida etc.) are used to enhance the process of waste conversion and produce a better product. The use of vermicompost is important for the sustainability of agriculture. These results showed that the effects of different organic material (vermicompost) applications on olive sapling properties are important.

Anahtar Kelimeler

Olive sapling, Vermicompost, Production material, Micro nutrients

Kaynakça

• Alidadi, H., Saffari, A.R., Ketabi, D., Peiravi, R., Hosseinzadeh, A., 2014. Comparison of Vermicompost and Cow Manure Efficiency on the Growth and Yield of Tomato Plant. Health Scope, 3(4); e14661.
• Barlas, N.T., Cönkeroğlu, B., Unal, G., Bellitürk, K., 2018. The Effect of Different Vermicompost Doses on Wheat (Triticum vulgaris L.) Nutrition. Joulnal of Tekirdag Agricultural Faculty, 15 (2): 1-4.
• Bellitürk, K., Aslan, S., Eker, M., 2013. The Importance of Vermicompost Obtained From the Worms Called As the Ecosystem Engineers In Terms of Plant Production. Harvest (Plant Prodution) Monthly Agriculture Jounal, September, İstanbul, Year: 29 (340): 84-87.
• Bellitürk, K., Shrestha, P., Görres, J. H., 2015. The Importance of Phytoremediation of Heavy Metal Contaminated Soil Using Vermicompost for Sustainable Agriculture. Rice Journal 3:2, 6: e114, doi: 10.4172/2375-4338.1000e114.
• Bellitürk, K., 2016. Vermicompost Technology for Solid Waste Management in Sustainable Agricultural Production. 7th National Plant Nutrition and Fertlizer Congress, October 12-15, 2016. Çukurova Agriculture and Food Sciences Journal, 31 (3): 1-5 (Special Issue), Adana, Turkey.
• Fritz, J.I., Franke-White, I.H., Haindl, S., Insam, H., Braun, R., 2012. Microbiological Community Analysis of Vermicompost Tea and its Ifnluence on the Growth of Vegetables and Cereals. Canadaian Journal of Microbiology, 58:836-847.
• Göçmez, S., Bellitürk, K., Görres, H.J., Turan, H.S., Üstündağ, Ö., Solmaz, Y., Adiloğlu, A., 2019. The Effects of the Use of Vermicompost in Olive Tree Farming on Microbiological and Biochemical Characteristics of the Production Material. Erwerbs-Obstbau. (2019): 1-8.
• Kacar, B., Fox, R. L., 1966. Boron Status of Some Turkish Soils. University of Ankara, Yearbook of The Faculty of Agriculture, Ankara, 9-11p.
• Lindsay, W. L., Norwell, W. A., 1978. Development of a DTPA Soil Test for Zinc, Iron, Manganese and Copper. Soil Science Society of America Journal, 42:421-428.
• Ramnarain, Y.I., Ansari, A.A., Ori, L., 2019. Vermicomposting of Different Organic Materials Using The Epigeic Earthworm Eisenia foetida. International Journal of Recycling of Organic Waste in Agriculture, 8:23-36.
• Shrestha, P., Bellitürk, K., Görres, J.H. 2019. Phytoremediation of Heavy Metal-Contaminated Soil by Switchgrass: A Comparative Study Utilizing Different Composts and Coir Fiber on Pollution Remediation, Plant Prdoductivity, and Nutrient Leaching. International Journal of Enivronmental Research and Publich Health, 16 (7): 1261 (1-16). https://doi.org/10.3390/ijerph16071261
• Sönmez, S., Özen, N., 2019. Change of Nutritional Elemental Contents Depending on Different Incubation Periods and Vermicompost Applications. Mediterranean Agricultural Sciences, 32 (Special Issue): 121-125.
• SPSS, 2009. IBM SPSS Statistics Package Programme, Version 18.
• TÜİK, 2018. Database, Plant Production Statistics, https://biruni.tuik.gov.tr/medas/?kn=92&locale=tr, (June, 2019).
• Zarcinas, B. A., Cartwrigt, B., Spauncer, L. P., 1987. Nitric Acid Digestion and Multielement Analysis of Plant Material by Inductively Coupled Plasma Spectrometry. Commun. Soil Sci. Plant Anal., 18:131-147.