- Alva, A. K., Baugh, T. J., Paramasive, S. and Sajwan, K. S. 2005. Adsorption/desorption of a sandy soil amendment with various rates of manure, sewage sludge, and incinerated sewage sludge. Journal of Environmental Science and Health, Part B, 40: 687-696.
- Bansal, R. L., P. N. Taklear, A. l. Bhandari, and D. S. Rana. 1990. Critical levels of DTPA extractable Zn for wheat in alkaline soils of semiarid region of Punjab, India. Fertilizer Research, 21:163-166.
- Cakmak., I. 2008. Enrichment of cereal grains with Zn. Agronomic or genetic biofortification. Plant and Soil, 302: 1-17.
- Cakmak., I. and Marschner, H. 1988. Increase in membrane-permeability and exudation in roots of zinc deficient plants. Journal of Plant Physiology, 132: 356-361.
- Carvalhais, L. C., Dennis, P. G, Fedoseyenko, D., Hajirezaei, M. R., Borriss, R., and Wirén, N. 2011. Root exudation of sugars, amino acids, and organic acids by maize as affected by nitrogen, phosphorus, potassium, and iron deficiency. Journal of Plant Nutrition and Soil Science, 174: 3–11.
- Chen, Y. L., Guo, Y. Q., Han, S. J., Zou, C. J., Zhou, Y. M., Cheng, G. L. 2002. Effect of root derived organic acids on the activation of nutrients in the rhizosphere soil. Journal of Forest Research. (in Chinese), 13: 115–118.
- Cristina, A. Rocha, S. Marisa, C. Almeida, R. Clara, M. Basto, P. Teresa, M. Vasconcelos S.D. 2015. Influence of season and salinity on the exudation of aliphatic low molecular weight organic acids (ALMWOAs) by Phragmites australis and Halimione portulacoides roots. Journal of Sea Research, 95: 180–187.
- Daneshbakhsh, B., Khoshgoftarmanesh, A. M., Shariatmadari, H., and Cakmakc, H. 2013. Phytosiderophore release by wheat genotypes differing in Zn deficiency tolerance grown with Zn-free nutrient solution as affected by salinity. Plant Physiology, 170: 41– 46.
- Degryse, F., Verma, V. K., Smolders, E. 2008. Mobilization of Cu and Zn by root exudates of dicotyledonous plants in resinbuffered solutions and in soil. Plant and Soil, 306: 69–84.
10. Gao, X., Zhang, F., andHoffland, E. 2009. Malate exudation by six aerobic rice genotypes varying in Zn uptake efficiency. Journal of Environmental Quality, 38: 2315–2321.
11. Genc, Y., Verbyla, A., Torun, A. A., Cakmak, I., Willsmore, K., Wallwork, H. and McDonald, G. K. 2009. Quantitative trait loci analysis of zinc efficiency and grain zinc concentration in wheat using whole genome average interval mapping. Plant and Soil, 314: 49–66.
12. Graham, R.D., Ascher , J.S., and Hynes, S.C.1992. Selecting zinc efficient cereal genotypes for soil of low zinc status. Plant and soil, 146: 241-250.
13. Hinsinger, P. 2001. Bioavailability of soil inorganic P in the rhizosphere as affected by root-induced chemical changes: a review. Plant and Soil, 237: 173–195.
14. Hoagland. D. R., Arnon. I. R. 1938. The water culture method for growing plants without soil. University of California, Experimental Station, Circular, 347.
- Hussain, S., Maqsood, M. A. 2011. Root zone temperature influences nutrient accumulation and use in maize. Pakistan Journal of Botany, 43: 1551−1556.
- Jones, D. L. and Darrah, P. R. 1994. Amino-acid influx at the soil-root interface of Zea mays L. and its implications in the rhizosphere. Plant and Soil, 163: 1-12.
- Khademi, Z., Jones, D. L. and Malakouti, M. J. 2006. Organic acids behavior in calcareous soils. PhD thesis. University of Wales, Bangor.
- Lombnaes, B. and Singh, B. R. 2003. Varietal tolerance to zinc deficiency in wheat and barley grown in chelator buffered nutrient solution and its effect on uptake of Cu, Fe, and Mn. Journal of Plant Nutrition, 166: 76-83.
- Maqsood, M. A., Hussain, S., Aziz, T., Ashraf, M. (2011): wheat Exuded organic acids influence Zn release from calcareous soils. Pedosphere, 21(5): 657–665.
- Marschner, H., 1998. Role of root growth, arbuscular mycorrhiza, and root exudates for the efficiency in nutrient acquisition. Field Crops Research, 56: 203-207.
- Marschner, H., Romheld, and V., Cakmak, I. 1987. Root- induced changes of nutrient availability in the rhizosphere. Journal of Plant Nutrition, 10:1175-1184.
- Marschner, P., Rengel, Z. 2003. Contributions of rhizosphere interactions to soil biological fertility In: Soil Biological Fertility, A key to Sustainable Land use in Agriculture. Edited by Lynette K, Abbott and Daniel V Murphy, Kluwer Academic publishers.
- Oburger, E., Jones, D., Wenzel, W. 2011. Phosphorus saturation and pH differentially regulate the efficiency of organic acid anion-mediated P solubilization mechanisms in soil. Plant and Soil, 341: 363–382.
- Parker, D. R., J. J. Aguilera, and D. N. Thompson. 1992. Zinc-phosphorus interactions in two cultivars of tomato (Lycopersicon esculentum L.,) grown in chelator-buffered nutrient solutions. Plant and Soil, 143:163-177.
- Peleg, Z., Cakmak, I., Ozturk, L., Yazici, A., Jun, Y., Budak, H., Korol, A. B., Fahima, T., and Saranga, Y. 2009. Quantitative trait loci conferring grain mineral nutrient concentrations in durum wheat×wild emmer wheat RIL population. Theoretical and Applied Genetics, 19(2): 353–69.
- Rose, M. T., Pariasca-Tanaka, J., Widodo, B., Wissuwa, M. 2011. Revisiting the role of organic acids in the bicarbonate tolerance of Zn-efficient rice genotypes. Functional Plant Biology, 38: 493–504.
- Song, S.K. and Huang, P.M. 1988. Dynamics of potassium release from potassium bearing minerals as influenced by oxalic and citric acids. Soil Science Society of America Journal, 52:383 – 390.
- Sun, Y.-L., Hong, S.-K., 2011. Effects of citric acid as an important component of the responses to saline and alkaline stress in the halophyte Leymus chinensis (Trin.). Plant Growth Regulation, 64: 129–139.
- Waters, B. M., and Sankaran, R. P. 2011 Moving micronutrients from the soil to the seeds: genes and physiological processes from a biofortification perspective. Plant Science, 180(4): 562–74.
- Widodo, B., Broadley, M. R., Rose, M. T., Frei, M., Pariasca-Tanaka, J., Yoshihashi, T., Thomson, M., Hammond, J. P., Aprile, A., and Close, T. J. 2010. Response to Zn deficiency of two rice lines with contrasting tolerance is determined by root growth maintenance and organic acid exudation rates, and not by Zn-transporter activity. New Phytologist, 186: 400–414.
- Yang, C. H. and Crowley, D. E. 2000. Rhizosphere microbial community structure in relation to root location and plant iron nutritional status. Applied and Environmental Microbiology, 66: 345-351.
- Zhang, F., Romheld, V., and Marschner, H. 2008: Release of zinc mobilizing root exudates in different plant species as affected by zinc nutritional status. Journal of Plant Nutrition, 14: 675-686.
- Zhou, X., Wu, F. 2012. p-Coumaric acid influenced cucumber rhizosphere soil microbial communities and the frowth of Fusarium oxysporum f.sp. cucumerinum Owen. PLoS ONE, 7(10): e48288.
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