REFERENCES
- Ameri, A., and A. Tehranifar. 2012. Effect of Humic acid on nutrient uptake and physiological characteristic Fragaria ananassa var: Camarosa. Journal of Biological and Environmental Sciences 6 (16): 77–79.
- Atiyeh, R.M., S. Lee, C.A Edwards, N.Q Arancon, and J.D. Metzger. 2002. The influence of humic acids derived from earthworm-processed organic wastes on plant growth. Bioresource Technology 84: 7–14
- Bouyoucos, G.J. 1951. A recalibration of the hydrometer method for making mechanical analysis of the soils. Agronomy Journal 43: 434–438.
- Cesco, S., M. Nikolic, V. Romheld, Z. Varanini., and R. Pinton. 2002. Uptake of 59Fe from soluble 59Fe-humate complexes by cucumber and barley plants. Plant and Soil 241: 121–128.
- Chen, Y., and T. Aviad. 1990. Effects of humic substances on plant growth. In: Humic Substances in Soil And Crop Sciences, eds. P. MacCarthy, C.E. Clapp, R.L. Malcolm, and P.R. Bloom, pp. 161–186. Madison, WI: American Society of Agronomy.
- Cimrin, K.M., and I. Yılmaz. 2005. Humic acid applications to lettuce do not improve yield but do improve phosphorus availability. Acta Agriculturae Scandinavica Section B-Soil and Plant Science 55: 58–63.
- Çelik, H., A.V. Katkat, B.B. Aşık., and M.A. Turan. 2008. Effects of soil applied humic substances to dry weight and mineral nutrients uptake of maize under calcareous soil conditions. Archives of Agronomy and Soil Science 54: 605–614.
- Erdal, I., M.A. Bozkurt, K.M. Cimrin, S. Karaca., and M. Saglam. 2000. Effects of humic acid and phosphorus applications on growth and phosphorus uptake of corn plant (Zea mays L.) grown in a calcareous soil. Turkish Journal of Agriculture and Forestry 24: 663–668.
- Eyupoglu, F. 1999. Fertility Status of Turkish Soils. Ankara, Turkey: Soil and Fertilizer Research Institute Publications (in Turkish).
- Fagbenro, J.A., and A.A Agboola. 1993. Effect of different levels of humic acid on the growth and nutrient of teak seedlings. Journal of Plant Nutrition 16: 1465–1483.
- Hızalan, E., and H. Ünal. 1966. Important Soil Chemical Analysis. Ankara, Turkey: Ankara University, Agriculture Faculty Press (in Turkish).
- Jackson, M.L. 1958. Soil Chemical Analysis. Englewood Cliffs, NJ: Prentice Hall Inc.
- Jackson, M.L. 1967. Soil Chemical Analysis. Englewood Cliffs, NJ: Prentice Hall Inc.
- Kacar, B., and A. İnal. 2008. Plant Analysis. Ankara, Turkey: Nobel Press.
- Kreij, C.De., and H. Basar. 1995. Effect of humic substances in nutrient film technique on nutrient uptake. Journal of Plant Nutrition 18: 793–802.
- Lee, Y.S., and R.J. Bartlett. 1976. Stimulation of plant growth by humic substances. Soil Science Society of America Journal 40: 876–879.
- Leytem, A.B., and R.L. Mikkelsen. 2005. The nature of phosphorus in calcareous soils. Better Crop 89(2): 11–13.
- Lindsay, W.L., and W.A. Norwell. 1978. Development of a DTPA test for zinc, iron, manganese and copper. Soil Science Society of American Journal 42: 421–428.
- Lobartini, J.C., G.A. Orioli., and K.H. Tan. 1997. Characteristics of soil humic acid fractions separated by ultra filtration. Communication in Soil Science and Plant Analysis 28: 787–796.
- Marschner, H. 1995. Mineral Nutrition of Higher Plants. London: Academic Press.
- Morard, P., B. Eyheraguibel, M. Morard., and J. Silvestre. 2011. Direct effects of humic-like substance on growth, water, and mineral nutrition of various species. Journal of Plant Nutrition 34: 46–59.
- Nikbakht, A., M. Kafi, M. Babalar, Y.P. Xia, A. Luo., and N. Etemadi. 2008. Effect of humic acid on plant growth, nutrient uptake, and postharvest life of gerbera. Journal of Plant Nutrition 31: 2155–2167.
- Olsen, S.R., C.V. Cole., F.S. Watanabe., and L.A. Dean. 1954. Estimation of available phosphorus in 285 soils by extraction with sodium bicarbonate. US. Department of Agriculture, Circular No. 939. Washington, DC: U.S. Government Printing Office.
- Oren, Y., and H. Basal. 2006. The effect of humic acid and zinc (Zn) application on yield, yield components and fiber quality parameters in cotton (Gossypium hirsutum L.). Adnan Menderes University. Journal of Agriculture Faculty 3(2): 77–83.
- Paksoy, M., Ö. Türkmen., and A. Dursun. 2010 Effects of potassium and humic acid on emergence, growth and nutrient contents of okra (Abelmoschusesculentus L.) seedling under saline soil conditions. African Journal of Biotechnology 9: 5343–5346.
- Pilanalı, N., and M. Kaplan. 2003. Investigation of effects on nutrient uptake of humic acid applications of different forms to strawberry plants. Journal of Plant Nutrition 26: 835–843.
- Pinton, R., S. Cesco, S. Santi, F. Agnolon, and Z. Varanini. 1999. Water-extractable humic substances enhance iron deficiency responses by Fe-deficient cucumber plants. Plant and Soil 210: 145–157.
- Rauthan, B.S., and M. Schnitzer. 1981. Effects of a soil fulvic acid on the growth and nutrient content of cucumber (Cucumis sativus) plants. Plant and Soil 63: 491–495.
- Sharif, M., A.R. Khattak., and M.S. Sarir. 2002. Effect of different levels of lignitic coal derived humic acid on growth of maize plants. Communications in Soil Science and Plant Analysis 33: 3567–3580.
- Stevenson, F.J. 1994. Humus Chemistry: Genesis, Composition, Reactions. Hoboken, NJ: John Wiley and Sons.
- Tahir, M., M. Khurshid, M.Z. Khan., and M.H. Kazmi. 2011. Lignite-derived humic acid effect on growth of wheat plants in different soils. Pedosfer 21(1): 124–131.
- Tan, K.H., and V. Nopamornbodi. 1979. Effect of different levels of humic acids on nutrient content and growth of corn (Zea mays L.). Plant Soil 51: 283–387.
- Tan, K.H. 2003. Humic Matter in Soil and Environment, Principles and Controversies. New York: Marcel Dekker.
- Yıldırım, E. 2007. Foliar and soil fertilization of humic acid affect productivity and quality of tomato. Acta Agriculturae Scandinavica Section B-Soil and Plant Science 57: 182–186.