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REFERENCES
1. Adam, F & Fua, HK 2008, ‘Production of silica from biogenic material’, Malaysian Patent No.: MY-136715-A
2. Adam, F & Iqbal, A 2010, ‘The oxidation of styrene by chromium–silica heterogeneous catalyst prepared from rice husk’, Chemical Engineering Journal, vol. 160, no. 2, pp. 742-750.
3. Affandi, S, Setyawan, H, Winardi, S, Purwanto, A & Balgis, R 2009, ‘A facile method for production of high-purity silica xerogels from bagasse ash’, Advanced Powder Technology, vol. 20, no. 5, pp. 468-472.
4. Ahmed, AE & Adam, F 2009, ‘The benzylation of benzene using aluminium, gallium and iron incorporated silica from rice husk ash’, Microporous and Mesoporous Materials, vol. 118, no.1, pp. 35-43.
5. Aira, M, Gomez-Brandon, M, Lazcano, C, Baath, E & Dominguez, J 2010, ‘Plant genotype strongly modifies the structure and growth of maize rhizosphere microbial communities’, Soil Biology and Biochemistry, vol. 42, no. 12 pp. 2276-2281.
6. Akhtar, MJ, Ahamed, M, Kumar, S, Siddiqui, H, Patil, G, Ashquin, M & Ahmad, I 2010, ‘Nanotoxicity of pure silica mediated through oxidant generation rather than glutathione depletion in human lung epithelial cells’, Toxicology, vol. 276, no. 2, pp. 95-102.
7. Ale-Agha, N, Albrecht, C & Klotz, LO 2010, ‘Loss of gap junctional intercellular communication in rat lung epithelial cells exposed to carbon or silica-based nanoparticles’, Biological Chemistry, vol. 391, no. 11, pp. 1333-1339.
8. Ali, MA, Lee, CH & Kim, PJ 2008, ‘Effect of silicate fertilizer on reducing methane emission during rice cultivation’, Biology and Fertility of Soils, vol. 44, no. 4, pp. 597-604.
9. Allen, ON 1959. The isolation of Azotobacter sp: In: Experiments in soil bacteriology. 46-47. Minneapolis 15, Minnasota, Burgeous publishing company.
144
10. Alloway, BJ 2008, Micronutrient deficiencies in global crop production. In: Alloway BJ (eds), Dordrecht : Springer, Chapter 8, pp. 201-244.
11. Amutha, K, Ravibaskar, R & Sivakumar, G 2010, ‘Extraction, synthesis and characterization of nanosilica from rice husk ash’, International Journal of Nanotechnology and Applications, vol. 4, no.1, pp. 61-66.
12. An, D, Guo, Y, Zhu, Y & Wang, Z 2010, ‘A green route to preparation of silica powders with rice husk ash and waste gas’, Chemical Engineering Journal, vol. 162, no. 2 , pp. 509-514.
13. Ana, MT, Henriqueta, L, Susana, A, Stephanie, Q, Sophie, S, Pieter-Jan DT, Eveline, V, Jan, M, Keld, AJ, Hannu, N, Fabrice, N & Maria, JS 2014, ‘Genotoxicity evaluation of nanosized titanium dioxide, synthetic amorphous silica and multi-walled carbon nanotubes in human lymphocytes’, Toxicology in Vitro, vol. 28, no. 1, pp. 60-69.
14. Aoudou, Y, Tatsadjieu, NL & Mbofung, CM 2011, ‘Mycelia growth inhibition of some Aspergillus and Fusarium species by essential oils and their potential use as antiradical agent’, Agriculture and Biology Journal of North America, vol. 2, no. 11, pp. 1362-1367.
15. Arnon, DI 1949, ‘Copper enzymes in isolated chloroplasts Polyphenol oxidase in Beta vulgaris’, Plant Physiology, vol. 24, no.1, pp. 1-15.
16. Aziz, T, Ullah, S, Sattar, A, Nasim, M, Farooq, M & Khan, MM 2010, ‘Nutrient availability and maize Zea mays L. growth in soil amended with organic manures’, International Journal of Agricultural Biology, vol.12, pp. 621- 624.
17. Bakaev, VA & Pantano, CG 2009, ‘Inverse reaction chromatography. 2. Hydrogen/deuterium exchange with silanol groups on the surface of fumed silica’, Journal of Physical Chemistry C, vol. 113, no. 31,pp. 13894-13898.
18. Bao-shan, L, Shao-qi, D, Chun-hui, L, Li-jun, F, Shu-chun, Q & Min, Y 2004, ‘Effects of TMS (nanostructured silicon dioxide) on growth of Changbai larch seedlings’, Journal of Forestry Research, vol. 15, no.2, pp. 138-140.
19. Barik, TK, Sahu, B & Swain, V 2008, ‘Nanosilica-from medicine to pest control’, Parasitology Research, vol. 103, no. 2, pp. 253-258.
145
20. Barillet, S, Jugan, ML, Laye, M, Leconte, Y, Herlin-Boime, N, Reynaud, C & Carriere, M 2010, ‘In vitro evaluation of SiC nanoparticle impact on A549 pulmonary cells cyto genotoxicity and oxidative stress’, Toxicoogy Letters, vol. 198, no. 3, pp. 324-330.
21. Barrett, EP, Joyner, LG & Halenda, PP 1951, ‘The determination of pore volume and area distributions in porous substances’, Journal of American Chemical Society, vol. 73, no.1, pp. 373-380.
22. Baruah, S & Dutta, J 2009, ‘Nanotechnology applications in pollution sensing and degradation in agriculture: A review’, Environmental Chemistry Letters, vol. 7, no. 3, pp. 161-204.
23. Basile-Doelsch, R, Amundson, WEE, Stone, CA, Masiello, JY, Bottero, F, Colin, F, Masin, D, Borschneck, JD & Meunier 2005, ‘Mineralogical control of organic carbon dynamics in a volcanic ash soil on La Reunion’, European Journal of Soil Science, vol. 56, no. 6, pp. 689-703.
24. Boonen, J, Baert, B, Lambert, J, De & Spiegeleer, B 2011, ‘Skin penetration of silica microparticles’, Pharmazie, vol. 66, no.6, pp. 463-464.
25. Bradford, MM 1976, ‘A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein dye binding’, Analytical Biochemistry, vol. 72, pp. 248-254.
26. Bradley, EL, Castle, L & Chaudhry, Q 2011, ‘Applications of nanomaterials in food packaging with a consideration of opportunities for developing countries’, Trends in Food Science and Technology, vol. 22, no. 11, pp. 604-610.
27. Braunack, MV 1995, ‘Effect of aggregate size and soil water content on emergence of soybean (Glycine max L. Merr.) and maize (Zea mays L.)’, Soil and Tillage Research, vol. 33, no. 3-4, pp. 149-161.
28. Brunner, TJ, Wick, P, Manser, P, Spohn, P, Grass, RN, Limbach, LK, Bruinink, A & Stark, WJ 2006, ‘In vitro cytotoxicity of oxide nanoparticles: comparison to asbestos silica and the effect of particle solubility’, Environment Science and Technology, vol. 40, no. 14, pp. 4374-4381.
29. Bunt, JS & Rovira, AD 1955, ‘Microbiological studies of some sub antarctic soils’, I Soil Science, vol. 6, no. 1, pp. 119-128.
146
30. Camberato, J 2001, ‘Cation Exchange Capacity – Everything You Want to Know and Much More’, South Carolina Turfgrasss Foundation News, October-December, 2001.
31. Camille, L, Hiram, CM, Sophie, S, Lauric, C, Sarah, B, Veronique, B, Laurent, O, Marie, C & Geraldine, S 2014, ‘Foliar exposure of the crop Lactuca sativa to silver nanoparticles: Evidence for internalization and changes in Ag speciation’, Journal of Hazardous Materials, vol. 264, pp. 98-106.
32. Carmen, IU, Chithra, P, Huang, Q, Takhistov, P, Liu, S & Kokini, JL 2003, ‘Nanotechnology: A new frontier in food science’, Food Technology, vol. 57, pp. 24-29.
33. Carmona VB, Oliveira, RM, Silva, WTL, Mattosoa, LHC & Marconcini, JM 2013, ‘Nanosilica from rice husk: Extraction and characterization’, Industrial Crops and Products, vol. 43, pp. 291-296.
34. Carter, MR 1991, ‘Ninhydrin reactive 'N' released by the fumigation extraction method as a measure of MB under field conditions’ Soil Biology and Biochemistry, vol. 23, no. 2, pp.139-143.
35. Carver, TLW, Robbins, MP, Thomas, BJ, Troth, K, Raistick, N & Zeyen, RJ 1998, ‘Silicon deprivation enhances localized autofluorescent responses and phenylalanine ammonia-lyase activity in at attacked by Blumeria graminis’, Physiology and Molecular Plant Pathology, vol. 52, no. 3, pp. 245-257.
36. Chang-An, L, Li-Min, Z, Ju-Jie, J, Li-Jun, W, Jian-Ting, S, Xin, L, Cheng-Chen, P, Kadambot, HMS & Feng-Min, L 2014, ‘Maize yield and water balance is affected by nitrogen application in a film-mulching ridge–furrow system in a semiarid region of China’, European Journal of Agronomy, vol. 52, pp. 103-111.
37. Cherif, M, Asselin, A & Belanger, RR 1994, ‘Defense responses induced by soluble Si in cucumber roots infected by Pythium spp’, Phytopathology, vol. 84, pp. 236-242.
38. Clark, LJ, Whalley, WE, Ellis-Jones, J, Dent, K & Rowse, HR 2001, ‘On farm seed priming in maize: A physiological evaluation. Proceedings of the 7th eastern and South africa regional maize conference Kenya’, pp. 268-273.
147
39. Corradini, E, Moura, MR & Mattoso, LHC 2010 ‘A preliminary study of the incorporation of NPK fertilizer into chitosan nanoparticles’, eXPRESS Polymer Letters, vol. 4, no. 8, pp. 509-515.
40. Cunha, KPV, Clistenes, W, Araujo, D, & Nascimento 2009, ‘Silicon effects on metal tolerance and structural changes in maize Zea mays L. grown on a cadmium and zinc enriched soil’, Water, Air and Soil Pollution, vol. 197, no.1-4, pp. 323-330.
41. Currie, HA & Perry, CC 2007, ‘Silica in plants: biological, biochemical and chemical studies’, Annals of Botany, vol. 100, no. 7, pp. 1383-1389.
42. Darryl, NW, Sheryl, HE & Tracey, RPH 2006, ‘Evaluation of the microbial growth response to inorganic nanoparticles’, Journal of Nanobiotechnology, vol. 4:3.
43. Datnoff, LE & Rodrigues, FA 2005, ‘The role of silicon in suppressing rice diseases. APSnet feature story’, American Phytopathological Society, pp. 1-28.
44. Datnoff, LE, Rodrigues, FA & Seebold, KW 2007, ‘Silicon and plant disease’, In: Datnoff L. E., Elmer W. H., Huber D. M. (Eds.). 2007. Mineral Nutrition and Plant Disease. APS Press - The American Phytopathological Society, St. Paul, Minnesota, USA, pp. 233-246.
45. Debnath, N, Das, S, Seth, D, Chandra, R, Bhattacharya, CS & Goswami, A 2011, ‘Entomotoxic effect of silica nanoparticles against Sitophilus oryzae (L.)’, Journal of Pest Science, vol. 84, pp. 99-105.
46. Dietz, KJ & Herth, S 2011, ‘Plant nanotoxicology’, Trends in Plant Science, vol. 16, no. 11, pp. 582-589.
47. Dimkpa, CO, McLean, JE, Latta, DE, Manangon, E, Britt, DW, Johnson, WP, Boyanov, MI & Anderson, AJ 2012, ‘CuO and ZnO nanoparticles: phytotoxicity, metal speciation, and induction of oxidative stress in sand-grown wheat’, Journal of Nanoparticle Research, vol. 14, no. 9, pp. 1125.
48. Emamifar, A, Kadivar, M, Shahedi, M & Soleimanian-Zad, S 2010, ‘Evaluation of nanocomposite packaging containing Ag and ZnO on shelf life of fresh orange juice’, Innovations in Food Science and Emerging Technology, vol. 11, pp. 742-748.
148
49. Emilia, IN, Matthias, V, Stefanie, E, Albert, D & Victor, FP 2013, ‘Altered characteristics of silica nanoparticles in bovine and human serum: the importance of nanomaterial characterization prior to its toxicological evaluation’, Particle and Fibre Toxicology, vol. 10,no. 56, pp.1-12.
50. EPA 2007. Nanotechnology White Paper. U.S. Environmental Protection Agency publication, Washington, DC. Available at: http://www.epa.gov/nanoscience/ files/epa_nano_wp_2007.pdf.
51. Epstein, E & Bloom, AJ 2005, ‘Mineral nutrition of plants: principles and perspectives’, 2nd edn. Sunderland’, MA: Sinauer Associates. vol. 58, pp. 169-171.
52. Epstein, E 1999, ‘Silicon’, Annual Review of Plant Physiology and Plant Molecular Biology, vol. 50, no. 1, pp. 641-664.
53. Epstein, E 1999, ‘The discovery of the essential elements’, In: S.D. Kung and S.F. Yang (eds.), vol. 3, Discoveries in plant biology, World Scientific Publishing, Singapore.
54. Epstein, E 2001, ‘Silicon in plants: facts vs. concepts’, in Dantoff, L.E., Snyder, G.H., Korndoper, G.H. (eds) ‘Silicon in agriculture’, Elsevier Science, Amsterdam, pp. 1-15.
55. Farook, Adam, Thiam-Seng, Chew & Jeyashelly, Andas 2011, ‘A simple template-free sol–gel synthesis of spherical nanosilica from agricultural biomass’, Cellular and Molecular Life Sciences, vol. 59, no. 3, pp. 580-583.
56. Fauteux, F, Remus-Borel, W, Menzies, JG & Belanger, RR 2005, ‘Silicon and plant disease resistance against pathogenic fungi’, FEMS Microbiology Letters, vol. 249, no. 1, p. 1-6.
57. Fawe, A, Abou-Zaid, M, Menzies, JG & Belanger, RR 1998, ‘Silicon-mediated accumulation of flavinoid phytoalexins in cucumber’, Phytopathology, vol. 88, no. 5, pp. 396-401.
58. Finney, JR 1994, ‘Pesticides and water quality’, In: Marshall BJ, Miller FA, editors. Water services and agriculture Centre for Agricultural Strategy, Reading: UK; pp. 69-83.
149
59. Fujiwara, K, Suematsu, H, Kiyomiya, E, Aoki, M, Sato, M & Moritoki, N 2008, ‘Size-dependent toxicity of silica nanoparticles to Chlorella kessleri’, Journal of Environmental Science and Health A, vol. 43, no. 29, pp.1167-1173.
60. Gamliel, A & Katan, J 1993, ‘Supression of major and minor pathogens by fluorescent pseudomonads in solarized and non solarized soils’, Phytopathology, vol. 83, pp. 68-75.
61. Gan, N, Yang, X, Xie, D, Wu, Y & Wen, WA 2010, ‘Disposable organophosphorus pesticides enzyme biosensor based on magnetic composite nanoparticles modified screen printed carbon electrode’, Sensors, vol. 10, no. 1, pp. 625-638.
62. Gao, X, Zou, C, Wang, L & Zhang, F 2004, ‘Silicon improves water use efficiency in maize plants’, Journal of Plant Nutrition, vol. 27, no. 8, pp. 1457-1470.
63. Gao, X, Zou, C, Wang, L & Zhang, F 2006, ‘Silicon decreases transpiration rate and conductance from stomata of maize plants’, Journal of Plant Nutrition, vol. 29, no. 9, pp. 1637-1647.
64. Ghanmi, D, McNally, DJ, Benhamou, N, Menzies, JG & Belanger, RR 2004, ‘Powdery mildew of Arabidopsis thaliana: a pathosystem for exploring the role of silicon in plant-microbe interactions’, Physiology and Molecular Plant Pathology, vol. 64, no. 4, pp. 189-99.
65. Ghormade, V, Deshpande, MV & Paknikar, KM 2011, ‘Perspectives for nano-biotechnology enabled protection and nutrition of plants’, Biotechnology Advances, vol. 29, no. 6, pp. 792-803.
66. Ghosh, M, Bandyopadhyay, M & Mukherjee, A 2010, ‘Genotoxicity of titanium dioxide (TiO2) nanoparticles at two trophic levels’, Plant and human lymphocytes. Chemosphere, vol. 81, no.10, pp. 1253-1262
67. Goto, M, Ehara, H, Karita, S, Takabe, K, Ogawa, N, Yamada, Y, Ogawa, S, Yahaya, MS & Morita, O 2003, ‘Protective effect of silicon on phenolic biosynthesis and ultraviolet spectral stress in rice crop’, Plant Science, vol. 164, no. 3, pp. 349-356.
68. Goussain, MM, Prado, E & Moraes, JC 2005, ‘Effect of silicon applied to wheat plants on the biology and probing behaviour of the greenbug Schizaphis graminum Homoptera: Aphididae’, Neotropical Entomology, vol. 34, no. 5, pp. 807-813.
150
69. Guo, YR, Liu, SH, Gui, WJ & Zhu, GN 2009, ‘Gold immunochromatographic assay for simultaneous detection of carbofuran and triazophos in water samples’, Analalytical Biochemistry, vol. 389, no. 1, pp. 32-39.
70. Haas, D & Defago, G 2005, ‘Biological control of soil-borne pathogens by fluorescent pseudomonads’, Nature Reviews in Microbiology, vol. 3, no. 4, pp. 307-319.
71. Hafiz Faiq, B, Stefan, H & Sven, S 2009, ‘Optimal level of silicon for maize (Zea mays L. c.v. AMADEO) growth in nutrient solution under controlled conditions’, Proceedings of the International Plant Nutrition Colloquium XVI UC Davis, esholarship, University of California, pp. 1-4.
72. Haghighi, M, Afifipour, Z & Mozafarian, M 2012, ‘The effect of N-Si on tomato seed germination under salinity levels’, Journal of Biology and Environment Science, vol. 6, no. 3, pp. 87-90.
73. Hammerschmidt, R, Nuckles, EM & Ku, CJ 1982, ‘Association of enhanced peroxidase activity with induced systemic resistance of cucumber to Colletotrichum lagenarium’, Physiological Plant Pathology, vol. 20, pp. 73-82.
74. He, X, Liu, F, Wang, K, Ge, J, Qin, D, Gong, P & Tan, W 2006, ‘Bioeffects of different functionalized silica nanoparticles on HaCaT cell line’, Chinese Science Bulletin, vol. 51, no. 16, pp. 1939-1946.
75. Heather, CA & Carole, PC 2007, ‘Silica in Plants: Biological, Biochemical and Chemical Studies’, Annals of Botany, vol. 100, no. 7 pp. 1383-1389.
76. Heffer, P & Prudhomme, M 2010, In: Heffer P, Prud'homme M, editors. 78th IFA Annual Conference Summary Report; 2010 Fertilizer outlook.
77. Helal, RM 2006, ‘Influence of exogenous application of silicon on physiological response of salt-stressed maize (Zea mays L.)’, International Journal of Agriculture & Biology, vol. 8, no. 2, pp. 293-297.
78. Hiroshi, N 1994, ‘Time course of effects of tetraethoxysilane (TEOS) on the kidney and blood silicon concentration in mice’, Archives of Toxicology, vol. 69, no. 1, pp. 59-64.
151
79. Hodson, MJ & Evans, DE 1995, ‘Aluminium/silicon interactions in higher plants’, Journal of Experimental Botany, vol. 46, no. 2, pp. 161-171.
80. Hoffmann, WC, Walker, TW, Smith, VI, Martin, DE & Fritz, BK 2007, ‘Droplet-size characterization of handheld atomization equipment typically used in vector control’, Journal of American Mosquito Control Association, vol. 23, no. 3, pp. 315-320.
81. Hossain, MT, Mori, R, Soga, K, Wakabayashi, K, Kamisaka, S, Fujii, S, Yamamoto, R & Hoson, T 2002, ‘Growth promotion and an increase in cell wall extensibility by silicon in rice and some other Poaceae seedlings’, Journal of Plant Research, vol. 115, no. 1117, pp. 23-27.
82. Hoyt, VW & Mason, E 2008, ‘Nanotechnology emerging health issues’, Journal of Chemical Health and Safety, vol. 15, no. 2, pp. 10-15.
83. Huang, X, Li, L, Liu, T, Hao, N, Liu, H, Chen, D & Tang, F 2011, ‘The shape effect of mesoporous silica nanoparticles on biodistribution, clearance, and biocompatibility in vivo’, ACS Nano, vol. 5, no. 7, pp. 5390-5399.
84. Hui, C, Fen, W, Congyun, Z, Yuanchang, S, Guiyun, J & Shiling, Y 2010, ‘Preparation of nano-silica materials: The concept from wheat straw’, Journal of Non-Crystalline Solids, vol. 356, no. 50-51, pp. 2781-2785.
85. Hwang, G, Ahna, IS, Mhin, BJ & Kim, JY 2012, ‘Adhesion of nano-sized particles to the surface of bacteria: Mechanistic study with the extended DLVO theory’, Colloids and Surfaces: B, vol. 97, pp. 138-144.
86. Ihsan, M, Mahmood, A, Mian, MA & Cheema NM 2007, ‘Effect of different methods of fertilizer application to wheat after germination under rainfed conditions’, Journal of Agriculture Research, vol. 45, pp. 277-281.
87. Jaganathan, H & Godin, B 2012, ‘Biocompatibility assessment of Si-based nano- and micro-particles’, Advanced Drug Delivery Reviews, vol. 64, no. 15, pp. 1800-1819.
88. Jha, MN & Prasad, AN 2006, ‘Efficacy of new inexpensive cyanobacterial biofertilizer including its shelf-life’, World Journal of Microbiology and Biotechnology, vol. 22, no. 1, pp. 73-79.
152
89. Jordan-Meille, L & Pellerin, S 2008, ‘Shoot and root growth of hydroponic maize Zea mays L. as influenced by K deficiency’, Plant and Soil, vol. 304, no. 1-2, pp. 157-168.
90. Jorg, S, Carsten, B, Silvia, P, Eike, B, Ernst, B & Gert, DE 2013, ‘Silica uptake from nanoparticles and silica condensation state in different tissues of Phragmites australis’, Science of The Total Environment, vol. 442, pp. 6-9.
91. Joshi, KA, Tang, J, Haddon, R, Wang, J, Chen, W & Mulchandani, A 2005, ‘A disposable biosensor for organophosphorus nerve agents based on carbon nanotubes modified thick film strip electrode’, Electroanalysis vol. 17, no. 1, pp. 54-58.
92. Kalapathy, U, Proctor, A & Shultz, J 2000, ‘A simple method for production of pure silica from rice hull ash’, Bioresource Technology, vol. 73, pp. 257-262.
93. Karunakaran, G, Suriyaprabha, R, Manivasakan, P, Yuvakkumar, R, Rajendran, V & Kannan, N 2012, ‘Impact of nano and bulk ZrO2, TiO2particles on soil nutrient contents and PGPR’, Journal of Nanoscience and Nanotechnology, vol. 13, no. 1, pp. 678-685.
94. Kaya, C, Tuna, L & Higgs, D 2006, ‘Effect of silicon on plant growth and mineral nutrition of maize grown under water-stress conditions’, Journal of Plant Nutrition, vol. 29, pp. 1469-1480.
95. Khodakovskaya, M, Dervishi, E, Mahmood, M, Xu, Y, Li, Z, Watanabe, F & Alexandru, SB 2009, ‘Carbon nanotubes are able to penetrate plant seed coat and dramatically affect seed germination and plant growth’, ACS Nano, vol. 3, no. 10, pp. 3221-3227.
96. Kidd, PS, Llugany, M, Poschenrieder, C, Gunse, B & Barcelo, J 2001, ‘The role of root exudates in aluminium resistance and silicon-induced amelioration of aluminium toxicity in three varieties of maize (Zea mays L.)’, Journal of Experimental Botany, vol. 52, no. 359, pp. 1339-1352.
97. Kim, J, Grate, JW & Wang, P 2006, ‘Nanostructures for enzyme stabilization’, Chemical Engineering Science’, vol. 61, no. 3, pp. 1017-1026.
98. Kim, KD & Kim, HT 2002, ‘Formation of Silica Nanoparticles by Hydrolysis of TEOS using a mixed semi-batch/batch method’, Journal of Sol-Gel Science and Technology, vol. 25, no.3, pp.183-189.
153
99. Kim, SG, Kim, KW, Park, EW & Choi, D 2002, ‘Silicon induced cell wall fortification of rice leaves: a possible cellular mechanism of enhanced host resistance to blast’, Phytopathology, vol. 92, no. 10, pp. 1095-1103.
100. Kimanya, ME, Shirima, CP, Magoha,H, Shewiyo, DH, De Meulenae, B, Kolsteren, P & Gong, YY 2014, ‘Co-exposures of aflatoxins with deoxynivalenol and fumonisins from maize based complementary foods in Rombo, Northern Tanzania’, Food Control, vol. 41, pp. 76–81.
101. Kulikova, ZL & Lux, A 2010, ‘Silicon influence on maize, Zea maysL. hybrids exposed to cadmium treatment’, Bulletin of Environment Contamination and Toxicology, vol. 85, no. 3, pp. 243-250.
102. Kuzma, J 2007, ‘Moving forward responsibly: Oversight for the nanotechnology-biology interface’, Journal of Nanoparticle Research, vol. 9, pp. 165-182.
103. Lai, F, Wissing, SA, Muller, RH & Fadda, AM 2006, ‘Artemisia arborescens L essential oil–loaded solid lipid nanoparticles for potential agricultural application: preparation and characterization’, AAPS Pharm SciTech, vol. 7, no.1, pp. E10-E18.
104. Landa, BB, Mavrodi, DM, Thomashow, LS & Weller, DM 2003, ‘Interactions between strains of 2,4-diacetylphloroglucinol-producing Pseudomonas fluorescens in the rhizosphere of wheat’, Phytopathology, vol. 93, pp. 982-994.
105. Landschoot, S, Audenaert, K, Waegeman, W, Baets, BD & Haesaert, G 2013, ‘Influence of maize–wheat rotation systems on Fusarium head blight infection and deoxynivalenol content in wheat under low versus high disease pressure’, Crop Protection, vol. 52, pp.14-21.
106. Latin, R 2006, ‘Residual efficacy of fungicides for control of dollar spot on creeping bentgrass’, Plant Disease, vol. 90, pp. 571-575.
107. Lee, J, Mahendra, S & Alvarez, PJJ, 2010, ‘Nanomaterials in the construction industry: a review of their applications and environmental health and safety considerations’, ACS Nano, vol. 4, no. 7, pp. 3580-3590.
154
108. Li, W, Zhu, X, Chen, H, He, Y & Xu, J 2013, ‘Enhancement of extraction amount and dispersibility of soil nanoparticles by natural organic matter in soils’, Functions of Natural Organic Matter in Changing Environment, In Book : Amorphous nanosilica induce endocytosis-dependent ROS generation and DNA, Part V, pp. 769-772.
109. Li, ZZ, Chen, JF, Liu, F, Liu, AQ, Wang, Q, Sun, HY & Wen, LX 2007, ‘Study of UV-shielding properties of novel porous hollow silica nanoparticle carriers for avermectin’, Pest Management Science, vol. 63, no.3, pp. 241-246.
110. Liang, J & Karamanos RE 1993, ‘Soil reaction and exchangeable acidity. In: M. R. Carter (ed.) Soil sampling and methods of analysis’, Ann Arbor, MI, Lewis publishers. Canadian Society of Soil Science, pp. 87-90.
111. Liang, Y, Chen, Q, Liu, Q, Zhang, W & Ding, R 2003, ‘Exogenous silicon (Si) increases antioxidant enzyme activity and reduces lipid peroxidation in roots of salt-stressed barley (Hordeum vulgare L.)’, Journal of Plant Physiology, vol. 160, no. 10, pp. 1157-1164.
112. Liang, YC, Sun, WC, Zhu, YG & Christie, P 2007, ‘Mechanisms of silicon-mediated alleviation of abiotic stresses in higher plants; A review’, Environmental Pollution, vol. 147, no. 2, pp. 422-428.
113. Lin, D & Xing, B 2007, ‘Phytotoxicity of nanoparticles: Inhibition of seed germination and root growth’, Environmental Pollution, vol. 150, no. 2, pp. 243-250.
114. Lin, W, Huang, YW, Zhou, XD & Ma, Y 2006, ‘In vitro toxicity of silica nanoparticles in human lung cancer cells’, Toxicology and Applied Pharmacology, vol. 217, no. 3, pp. 252-259.
115. Liou, TH 2004, ‘Preparation and characterization of nano-structured silica from rice husk’, Materials Science and Engineering A, vol. 364, no. 1-2, pp. 313-323.
116. Liou, TH, Chang, FW & Lo, JJ 1997, ‘Pyrolysis kinetics of acid-leached rice husk’, Industrial & Engineering Chemistry Research, vol. 36, no. 3, pp. 568-573.
117. Liu, J, Wang, FH, Wang, LL, Xiao, SY, Tong, CY, Tang, DY & Liu XM 2008 ‘Preparation of fluorescence starch-nanoparticle and its application as plant transgenic vehicle’, Journal of Central South University of Technology, vol. 15, no. 6, pp. 768-773.
155
118. Liu, QP & Zhu, ZJ 2010, ‘Functional divergence of the NIP III subgroup proteins involved altered selective constraints and positive selection’, BMC Plant Biology, vol. 10, no.1, pp. 256.
119. Lu, CM, Zhang, CY, Wen, JQ, Wu, GR & Tao, MX 2002, ‘Research of the effect of nanometer materials on germination and growth enhancement of Glycine max and its mechanism’, Soybean Science, vol. 21, no.2, pp. 168-172.
120. Lux, A, Luxova, M, Morita, S, Abe, J & Inanaga, S 1999, ‘Endodermal silicification in developing seminal roots of lowland and upland cultivars of rice Oryza sativa L.’, Canadian Journal of Botany, vol. 77, pp. 955-960.
121. Ma, JF & Takahashi, E 2002, ‘Soil, fertilizer and plant silicon research in Japan’, Elsevier Science, vol.133, pp.151-155.
122. Ma, JF & Yamaji, N 2006, ‘Silicon uptake and accumulation in higher plants’, Trends in Plant Science, vol. 11, no. 8, pp. 392-397.
123. Ma, JF & Yamaji, N 2008, ‘Functions and transport of Si in plants’, Cellular and Molecular Life Sciences, vol. 65, no. 19, pp. 3049-3057.
124. Ma, JF 2002, ‘Silicon sources for agriculture’, Soil, fertilizer and plant silicon research in Japan, Elsevier Science, Amsterdam, pp. 5-26.
125. Ma, JF 2004, ‘Role of silicon in enhancing the resistance of plants to biotic and abiotic stresses’, Soil Science and Plant Nutrition, vol. 50, no. 1, pp. 11-18.
126. Mahmood, S, Hussain, A, Saeed, Z & Athar, M 2005, ‘Germination and seedling growth of corn (Zea mays L.) under varying levels of copper and zinc’, International Journal of Environment Science and Technology, vol. 2, no. 3, pp. 269-274.
127. Maize Project Director Review Report by Directorate of Maize research, New Delhi in Annual Workshop, Angrau, Hyderabad, April 6-8, 2013.
128. Marmiroli, M, Pigoni, V, Savo-Sardaro, ML & Marmiroli, N 2014, ‘The effect of silicon on the uptake and translocation of arsenic in tomato (Solanum lycopersicum L.)’, Environmental and Experimental Botany, vol. 99, pp. 9-17.
156
129. Marschner, H 1996, ‘Mineral nutrition of higher plants’, Academic Press INC San Diego, CA 92101.
130. Martens, DC & Westermann, DT 1991, ‘Fertilizer applications for correcting micronutrient deficiencies’, Micronutrients in Agriculture Springer, pp. 549, Soil Science Society of America, Wisconsin.
131. Martin, EK, Candida, PS, Happy, M, Danstan, HS, Bruno, DM, Patrick, K & Yun, YG 2014, ‘Co-exposures of aflatoxins with deoxynivalenol and fumonisins from maize based complementary foods in Rombo’, Northern Tanzania’, Food Control, vol. 41, pp. 76-81.
132. Maryam, H & Mohammad, P 2013, ‘Influence of silicon and nano-silicon on salinity tolerance of cherry tomatoes (Solanum lycopersicum L.)at early growth stage’, Scientia Horticulturae, vol. 161, pp. 111-117.
133. Maryam, MA, Masoud, SN, Davood, G & Gholamreza, N 2014, ‘A sonochemical-assisted synthesis of spherical silica nanostructures by using a new capping agent, Ceramics International’, vol. 40, no. 1, pp. 495-499.
134. Matichenkov, VV & Ammosova, YM 1996, ‘Effect of amorphous silica on soil properties of a sod-podzolic soil’, Eurasian Soil Science, vol. 28, no.10, pp. 87-99.
135. Matichenkov, VV & Bocharnikova, EA 2000, ‘Comparison study of soil silicon status in sandy soils of south Florida’, Proceedings in Soil Crop Science, vol. 59, pp. 132-137.
136. Matichenkov, VV & Bocharnikova, EA 2001, ‘The relationship between silicon and soil physical and chemical properties’, In: Datnoff, L.E., Snyder, G.H., Korndorfer, H., (eds.) Silicon in Agriculture. Amsterdam: Elsevier, pp. 209-219.
137. Matichenkov, VV & Calvert, DV 2002, ‘Silicon as a beneficial element for sugarcane’, Journal of American Society of Sugarcane Technologists, vol. 22, pp. 21-30.
138. Matichenkov, VV, Calvert, DV & Snyder, GH 1999, ‘Silicon fertilizers for citrus in florida’, Proceedings of Florida State Horticultural Society, vol. 112, pp. 5-8.
157
139. Matthew, L & Narayanankutty, SK 2010, ‘Synthesis and characterisation of nanosilica’, International Conference on Advances in Polymer Technology, India, pp. 279-284.
140. Matthews, GA & Thomas, N 2000, ‘Working towards more efficient application of pesticides’, Pest Management Science, vol. 56, no. 11, pp. 974-976.
141. Matthews, GA 2008, ‘Developments in application technology’, Environmentalist, vol. 28, no. 1, pp. 19-24.
142. McCray, JM, Rice, RW, Ezenwa, IV, Lang, TA & Baucum, L 2013, ‘Sugarcane plant nutrient diagnosis’, Florida Sugarcane Handbook, University of Florida.
143. Miao, BH, Han, XG & Zhang, WH 2010, ‘The ameliorative effect of silicon on soybean seedlings grown in potassium-deficient medium’, Annals of Botany, vol. 105, no. 6, pp. 967-973.
144. Mitani, N & Ma, JF 2005, ‘Uptake system of silicon in different plant species’, Journal of Experimental Botany, vol. 56, no. 414 pp. 1255-1261.
145. Mitani, N, Yamaji, N & Ma, JF 2009, ‘Identification of maize silicon influx transporters’, Plant Cell Physiology, vol. 50, no. 1, pp. 5-12.
146. Miwa, K, Kamiya, T & Fujiwara, T 2009, ‘Homeostasis of the structurally important micronutrients B and Si’, Current Opinion in Plant Biology, vol. 12, no.3, pp. 307-311.
147. Mondal, A, Basu, R, Das, S, & Nandy, P 2011, ‘Beneficial role of carbon nanotubes on mustard plant growth: an agricultural prospect’, Journal of Nanoparticle Research, vol. 13, no. 10, pp. 4519-4528.
148. Monica, RC & Cremonini, R, 2009, ‘Nanoparticles and higher plants’, Caryologia, vol. 62, no. 2, pp. 161-165.
149. Munzuroglu, O & Geckil, H 2002, ‘Effects of metals on seed germination root elongation and coleoptile and hypocotyl growth in Triticum aestivum and Cucumis sativus’, Archives of Environmental Contamination and Toxicology, vol. 43, no. 2, pp. 203-213.
158
150. Muralikannan, N 1996, ‘Biodissolution of silicate, phosphate and potassium by silicate solubilising bacteria in rice ecosystem. 115. M.Sc. (Ag.). Thesis, submitted to Tamil Nadu Agricultural University, Coimbatore.
151. Nabeshi, H, Yoshikawa, T, Matsuyama, K, Nakazato, Y, Tochigi, S, Kondoh, S, Hirai, T, Akase, T, Nagano, K, Abe, Y, Yoshioka, Y, Kamada, H, Itoh, N, Tsunoda, S & Tsutsumi, Y 2011, ‘Amorphous nanosilica induce endocytosis-dependent ROS generation and DNA damage in human keratinocytes’, Particle and Fibre Toxicology, vol. 8, no.1, Pages. 10.
152. Nair, R, Varghese, SH, Nair, BG, Maekawa, T, Yoshida, Y & Kumar, DS 2010, ‘Nanoparticulate material delivery to plants’, Plant Science, vol. 179, pp. 154-163.
153. Nalan Oya San, Canan Kursungoz, Yasin Tumtas, Oncay Yasa, Bulend Ortac,Turgay Tekinay ‘Novel one-step synthesis of silica nanoparticles from sugarbeet bagasse by laser ablation and their effects on the growth of freshwater algae culture’, Particuology, 2014, 10.1016/j.partic.2013.11.003 (In press).
154. Navarro, E, Baun, A, Behra, R, Hartmann, NB, Filser, J, Miao, AJ, Quigg, A, Santschi, PH & Sigg, L 2008, ‘Environmental behaviour and ecotoxicity of engineered nanoparticles to algae, plants and fungi’, Ecotoxicology, vol. 17, no. 5, pp. 372-386.
155. Navrotsky, A 2000, ‘Technology and applications Nanomaterials in the environment, agriculture, and technology (NEAT)’, Journal of Nanoparticle Research, vol. 2, pp. 321-323.
156. Niemeyer, CM & Doz, P 2001, ‘Nanoparticles, proteins, and nucleic acids: biotechnology meets materials science’, Angewandte Chemie International Edition, vol. 40, no. 22, pp. 4128-4158.
157. Niki, B, Florence, B, Bejoy, T & Thibaud, C 2009, ‘Introducing ecodesign in silica sol–gel materials’, Journal of Materials Chemistry, vol. 19, pp. 8537-8559.
158. Oskam, G 2006, ‘Metal oxide nanoparticles: Synthesis, characterization and application’, Journal of Sol- Gel Science and Technology, vol. 37, no. 3, pp. 161-164.
159
159. Owino-Gerroh, C & Gascho, GJ 2004, ‘Effect of silicon on low pH soil phosphorus sorption and on uptake and growth of maize’, Communications in Soil Science and Plant Analysis, vol. 35, no.15-16, pp. 2369-2378.
160. Paknikar, KM, Nagpal, V, Pethkar, AV & Rajwade, JM 2005, ‘Degradation of lindane from aqueous solutions using iron sulfide nanoparticles stabilized by biopolymers’, Science and Technology of Advanced Materials, vol. 6, no. 3-4, pp. 370-374.
161. Park, YH, Kim, JN, Jeong, SH, Choi, JE, Lee, SH, Choi, BH, Lee, JP, Sohn, KH, Park, KL, Kim, MK & Son, SW 2010, ‘Assessment of dermal toxicity of nanosilica using cultured keratinocytes a human skin equivalent model and an in vivo model’, Toxicology, vol. 267, no.1-3 , pp. 178-181.
162. Peng, J, Sun, Y, Liu, Q, Yang, Y, Zhou, J, Feng, W, Zhang, X & Li, F 2012, ‘Upconversion nanoparticles dramatically promote plant growth without toxicity’, Nano Research, vol. 5, no. 11, pp. 770-782.
163. Peteu, SF, Oancea, F, Sicuia, OA, Constantinescu, F & Dinu, S 2010, ‘Responsive polymers for crop protection’, Polymers, vol.2, no. 3, pp. 229–251.
164. Piper, C. S 1966, ‘Soil and plant analysis’, Academic press. New York, pp. 47-77.
165. Prakash, N.B, Narayanaswamy, C & Hanumantharaju, T.H 2010,‘Effect of calcium silicate as a silicon source on growth and yield of rice in different acid soils of Karnataka Southern India’, International Rice Research Notes, Pages. 4.
166. Prasetyoko, D, Ramli, Z, Endud, S, Hamdan, H & Sulikowski, B 2006, ‘Conversion of rice husk ash to zeolite beta’, Waste management, vol. 26, no.10, pp. 1173-1179.
167. Puoci, F, Lemma, F, Spizzirri, UG, Cirillo, G, Curcio, M & Picci, N 2008, ‘Polymer in agriculture: A review’, American Journal of Agriculture and Biological Science, vol. 3, no. 1, pp. 299-314.
168. Racke, KD 2003, ‘Development and registration of pesticides with reduced risk characteristics’, In: Voss G, Ramos G, editors. Weinheim, Germany: Wiley-VCH; pp. 322-333.
160
169. Rafi, MM, Epstein, E & Falk, RH 1997, ‘Silicon deprivation causes physical abnormalities in wheat (Triticum aestivum L.)’, Journal of Plant Physiology, vol. 151, no. 4, pp. 497-501.
170. Ramamoorthy, R, Sundararaman, D & Ramasamy, R 1999, ‘X-ray Diffraction study of phase transformation in hydrolyzed zirconia nanoparticles’, Journal of European Ceramic Society, vol. 19, no. 10, pp. 1827-1833.
171. Ramamoorthy, V, Raguchander, T & Samiyappan, R 2002, ‘Enhancing resistance of tomato and hot pepper to Pythium diseases by seed treatment with fluorescent pseudomonads’, European Journal of Plant Pathology, vol. 108, pp. 429-441.
172. Ramanathan, M, Luckarift, HR, Sarsenova, A, Wild, JR, Ramanculov, ER, Olsen, EV & Simonian, AL 2009, ‘Lysozyme-mediated formation of protein–silica nano-composites for biosensing applications’, Colloids and Surface B Biointerfaces, vol. 73, no. 1, pp. 58-64.
173. Ranganathan, S, Suvarchala, V, Rajesh, YBRD, Srinivasa Prasad, M, Padmakumari, AP & Voleti, SR 2006, ‘Effects of silicon sources on its deposition, chlorophyll content, and disease and pest resistance in rice’, Biologia Plantaraum, vol. 50, no. 4, pp. 713-716.
174. Rao, S & Shekhawat, GS 2014, ‘Toxicity of ZnO engineered nanoparticles and evaluation of their effect on growth, metabolism and tissue specific accumulation in Brassica juncea’, Journal of Environmental Chemical Engineering, vol. 2, no.1, pp. 105-114.
175. Robinson DKR & Salejova, ZG (2010). Observatory NANO Working Paper Version, April 2010. Nanotechnologies for nutrient and biocide delivery in agricultural production 2010, Report.
176. Rodrigues, FA, Benhamou, N, Datnoff, LE, Jones, JB & Bélanger, RR 2003, ‘Ultrastructural and cytochemical aspects of silicon-mediated rice blast resistance’, Phytopathology, vol. 93, no. 5, pp. 535-546.
177. Romero-Aranda, MR, Jurado, O & Cuartero, J 2006, ‘Silicon alleviates the deleterious salt effect on tomato plant growth by improving plant water status’, Journal of Plant Physiology, vol. 163, no. 8, pp. 847-855.
178. Rus, A, Lee, BH, Munoz-Mayor, A, Sharkhuu, A, Miura, K, Zhu, JK, Bressan, RA & Hasegawa, PM 2004, ‘At HKT1 facilities Na+
homeostasis and K + nutrition in planta’, Plant Physiology, vol. 136, no. 1, pp. 2500-2511.
161
179. Sadasivan, S, Rasmussen, DH, Chen, FP & Kannabiran, RK 1998, ‘Preparation and characterization of ultrafine silica’, Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol. 132, no. 1, pp. 45-52.
180. Sadgrove, N 2006, ‘Nutrient and moisture economics in diatomaceous earth amended growth media’, Southern Cross University.
181. Sasson, Y, Levy-Ruso, G, Toledano, O & Ishaaya, I 2007, ‘Nanosuspensions: emerging novel agrochemical formulations’, In: Ishaaya I, Nauen R, Horowitz AR, editors. Insecticides design using advanced technologies Netherlands: Springer-Verlag; pp. 1-32.
182. Savant, NK, Datnoff, LE & Synder, GH 1997, ‘Depletion of plant available silicon in soils: A possible cause of declining rice yields’, Communications in Soil Science and Plant Analysis, vol. 28, no. 13-14, pp. 1245-1252.
183. Savant, NK, Snyder, GH & Datnoff, LE 1999, ‘Silicon management and sustainable rice production. Advances in Agronomy, vol. 58, pp. 151-199.
184. Sayes, CM, Reed, KL & Warheit, DB 2007, ‘Assessing toxicity of fine and nanoparticles: comparing in vitro measurements to in vivopulmonary toxicity profiles’, Toxicological Sciences, vol. 97, no. 1, pp. 163-180.
185. Schaller, J, Brackhage, C, Gessner, MO, Bauker, E & Gert, DE 2012, ‘Silicon supply modifies C:N:P stoichiometry and growth of Phragmites australis’, Plant Biology, vol. 14, no. 2, pp. 392-396.
186. Schaller, J, Brackhage, C, Paasch, S, Brunner, E, Bäucker, E & Dudel, E 2013, ‘Silica uptake from nanoparticles and silica condensation state in different tissues of Phragmites australis’, Science of the Total Environment, vol. 442, pp. 6-9.
187. Schmohl, N & Horst, WJ 2002, ‘Effect of aluminium on the activity of apoplastic acid phosphatase and the exudation of macromolecules by roots and suspension-culture cells of Zea mays L’, Journal of Plant Physiology, vol. 159, pp. 1213-1218.
188. Schoelynck, J, Bal, K, Backx, H, Okruszko, T, Meire, P & Struyf, E 2010, ‘Silica uptake in aquatic and wetland macrophytes: a strategic choice between silica, lignin and cellulose’, New Phytologists, vol. 186, no. 2, pp. 385-391.
162
189. Schwabe, F, Schulin, R, Limbach, LK, Stark, W, Burge, D &Nowack, B 2013, ‘Influence of two types of organic matter on interaction of CeO2 nanoparticles with plants in hydroponic culture’, Chemosphere, vol. 91, no. 4, pp. 512-520.
190. Sharifi, M, Zebarth, BJ, Burton, DL, Grant, CA, Hajabbasi, MA & Abbassi Kalo, G 2009, ‘Sodium hydroxide direct distillation: A method for estimating total nitrogen in soil’, Communications in Soil Science and Plant Analysis, vol. 40, no.15-16, pp. 2505-2520.
191. Sharon, M, Choudhary, A & Kumar, R 2010, ‘Nanotechnology in agricultural diseases and food safety’, Journal of Phytology, vol. 2, no. 4, pp. 83-92.
192. Shi, Y, Yadav, S, Wang, F & Wang, H 2010, ‘Endotoxin promotes adverse effects of amorphous silica nanoparticles on lung epithelial cells in vitro’, Journal of Toxicology and Environment Health A, vol. 73, no. 11, pp. 748-756.
193. Shin-Woo, H, James, AS, Neale, WM & George, RB 2014, ‘Bio-active engineered 50 nm silica nanoparticles with bone anabolic activity: Therapeutic index, effective concentration, and cytotoxicity profile in vitro’, Toxicology in Vitro, vol. 28, no. 3, pp. 354-364.
194. Siddiqui, MH & Al-Whaibi, MH 2014, ‘Role of nano-SiO2 in germination of tomato (Lycopersicum esculentum seeds Mill.)’, Saudi Journal of Biological Sciences, vol. 21, no. 1, 2014, pp. 13-17.
195. Silva, LFO, DaBoit, K, Sampaio, CH, Jasper, A, Andrade, ML,Kostova, IJ, Waandersg, FB, Henkeh, KR & Hower, JC 2012, ‘The occurrence of hazardous volatile elements and nanoparticles in Bulgarian coal fly ashes and the effect on human health exposure’, Science of The Total Environment, vol. 416, pp. 513-526.
196. Skuland, T, Ovrevik, J, Lag, M & Refsnes, M 2014, ‘Role of size and surface area for pro-inflammatory responses to silica nanoparticles in epithelial lung cells: Importance of exposure conditions’, Toxicologyin Vitro, vol. 28, no. 2, pp. 146-155.
197. Sohaebuddin, SK, Thevenot, PT , Baker, D, Eaton, JW & Tang, L 2010, ‘Nanomaterial cytotoxicity is composition, size, and cell type dependent’, Particle Fibre Toxicology, vol. 7, no. 22, pp. 1-17.
163
198. Sommer, M, Kaczorek, D, Kuzyakov, Y & Breuer, J 2006, ‘Silicon pools and fluxes in soils and landscapes – A review’, Journal of Plant Nutrition and Soil Science, vol. 169, no. 3, pp. 310-329.
199. Sperber, JI 1958, ‘The incidence of apatite solubilising organisms in the rhizosphere and soil’, Australian Journal of Agricultural Research, vol. 9, pp. 778-781.
200. Srinivasarao, C, Singh, RN, Ganeshamurthy, AN, Ghansham Singh & Masood, Ali 2007, ‘Fixation and recovery of added phosphorus and potassium in different soil types of pulse growing regions of India’, Communications in Soil Science and Plant Analysis, vol. 38, no.3-4, pp. 449-460.
201. Struyf, E, Van Damme, S, Gribsholt, B, Middelburg, JJ & Meire, P 2005, ‘Biogenic silica in tidal freshwater marsh sediments and vegetation’, Marine Ecology Progress Series, vol. 303, pp.51-60.
202. Susana, MO, David, JP, Justin, SV, Victor, SYL, Brian, G, Trewyn, L. Alexander, L & Kan, W 2013, ‘Mesoporous silica nanoparticle mediated intracellular Cre protein delivery for maize genome editing via loxP sites excision’, Plant Physiology, vol. 113, pp. 233650-233659.
203. Tamburic-Ilincic, L, & Schaafsma, AW 2009, ‘The prevalence of Fusarium spp. colonizing seed corn stalks in south western Ontario Canada’, Canadian Journal of Plant Science, vol. 89, no. 1, pp. 103-106.
204. Theng, BKG & Yuan, G 2008, ‘Nanoparticles in the soil environment’, Elements, vol. 4, no. 6, pp. 395-399.
205. Tilman, D, Cassman, KG, Matson, PA, Naylor, R & Polasky, S 2002, ‘Agricultural sustainability and intensive production practices’, Nature, vol. 418, pp. 671-677.
206. Tomozawa, M, Kim, DL & Lou, V 2001, ‘Preparation of high purity, low water content fused silica glass’, Journal of Non-Crystalline Solids, vol. 296, no. 1-2, pp. 102-106.
207. Torney, F, Trewyn, BG, Lin, VS & Wang, K 2007 ‘Mesoporous silica nanoparticles deliver DNA and chemicals into plants’, Nature Nanotechnology, vol. 2, pp. 295-300.
164
208. Tzong-Horng, L & Chun-Chen, Y 2011, ‘Synthesis and surface characteristics of nanosilica produced from alkali-extracted rice husk ash’, Materials Science and Engineering B, vol. 176, no. 7, pp. 521-529.
209. Ulrichs, C, Krause, F, Rocksch, T, Goswami, A & Mewis, I 2006, ‘Electrostatic application of inert silica dust based insecticides onto plant surfaces’, Communications in Agricultural and Applied Biological Sciences, vol. 71, no. 2 , pp. 171-178.
210. Van, HL, Chi, NHT & Huy, HT 2013, ‘Synthesis of silica nanoparticles from Vietnamese rice husk by sol–gel method’, Nanoscale Research Letters, vol. 8, no. 58, pp.1-10.
211. Vandergheynst, J, Scher, H, GuoHy & Schultz, D 2007, ‘Water-in-oil emulsions that improve the storage and delivery of the biolarvacide Lagenidium giganteum’, BioControl, vol. 52, no. 2, pp. 207-229.
212. Veluchamy, P, Barathan, S, Sivakumar, G & Anandhan, N 2009, X-Ray diffraction analysis on the effect of silica fume and water in blended cement paste. International Journal of Applied Engineering Research, vol. 4, pp. 2311-2318.
213. Vijayakumar, PS, Abhilash, OU, Khan, BM & Prasad, BLV, 2010 Nanogold-loaded sharp-edged carbon bullets as plant-gene carriers’, Advanced Functional Materials, vol. 20, no. 15, pp. 2416-2423.
214. Wakabayashi, K, Hoson, T & Kamisaka, S 1997, ‘Osmotic stress suppresses the cell wall stiffening and the increase in cell wall-bound ferulic and diferulic acids in wheat coleoptiles’, Plant Physiology, vol. 113, no.3, pp. 967-973.
215. Wang, H, Wang, J, Choi, D, Tang, Z, Wu, H & Lin, Y 2009, ‘EQCM immunoassay for phosphorylated acetylcholinesterase as a biomarker for organophosphate exposures based on selective zirconia adsorption and enzyme-catalytic precipitation’, Biosensors and Bioelectronics, vol. 24, no. 8, pp. 2377-2383.
216. Wei-min, D, Ke-qin, Z, Bin-wu, D, Cheng-xiao, S, Kang-le, Z, Run, C & Jie-yun, Z 2005, ‘Rapid determination of silicon content in rice’, Rice Sci., vol. 12, no.2, pp. 145-147.
217. Wilson, MA, Tran, NH, Milev, AS, Kannangara, GSK, Volk, H & Lu, GHM 2008, ‘Nanomaterials in soils’, Geoderma, vol. 146, no. 1-2 , pp. 291-302.
165
218. Wong, FP & Midland, SL 2004, ‘Fungicide-resistant anthracnose: bad.news for greens management’, Golf Course Management, vol. 72, no. 6, pp. 75-81.
219. Wong, FP & Midland, SL 2007, ‘Sensitivity distributions of California populations of Colletotrichum cereale to four sterol demethylation inhibitor fungicides propiconazole, myclobutanil, tebuconazole and triadimefon’, Plant Disease, vol. 91, pp. 1547-1555.
220. Wu, G, Wang, J, Shen, J, Yang, T, Zhang, Q, Zhou, B, Zhongsheng, D, Fan, B, Dongping, Z & Fengshan, Z 2000, ‘Properties of sol–gel derived scratch-resistant nano-porous silica films by a mixed atmosphere treatment’ Journal of Non-Crystalline Solids, vol. 275, no. 3, pp. 169-174.
221. Wu, SC, Cao, ZH, Li, ZG, Cheung, KC & Wong, MH 2005, ‘Effects of biofertilizer containing N-fixer, P and K solubilizers and Am fungi on maize growth: a greenhouse trial’, Geoderma, vol. 125, no. 1-2, pp. 155-166.
222. Xia, X, Beland, R, Miersch, S, Houde, D, Hassan, Y & Aboul-Enein 2000, ‘Development and validation method for silica determination by spectrophotometry in some herbs and pharmaceutical formulations’, Analytical Letters, vol. 33, no.3, pp. 455-463.
223. Yang, L & Watts, DJ 2005, ‘Particle surface characteristics may play an important role in phytotoxicity of alumina nanoparticles’, Toxicology Letters, vol. 158, no. 2, pp. 122-132.
224. Yang, Y, Li J, Shi, H, Ke, Y, Yuan, J & Tang, Z 2008, ‘Alleviation of silicon on low-P stressed maize (Zea mays L.) seedlings under hydroponic culture conditions, World Journal of Agricultural sciences, vol. 4, pp. 168-172.
225. Yasuhiro, T, Satoru, M, Kazuki, S & Hidetoshi, A 2014, ‘Limited Si-nutrient status of rice plants in relation to plant-available Si of soils, nitrogen fertilizer application, and rice-growing environments across Sub-Saharan Africa’, Field Crops Research, vol. 155, pp. 1-9.
226. Youssef, NAR, Maaitah, ON & Qtaishat, KS 2010, ‘Soil stabilization by mixing sodium silicate and lime’, Electronic Journal of Geotechnical Engineering, vol. 15, pp. 1747-1758.
166
227. Yuvakkumar, R, Elango, V, Rajendran, V & Kannan, N 2014, ‘High-purity nano silica powder from rice husk using a simple chemical method’, Journal of Experimental Nanoscience, vol. 9, no. 3, pp. 272-281.
228. Yuvakkumar, R, Elango, V, Rajendran, V, Kannan, N & Prabu, P 2011, ‘Influence of nano silica powder on the growth of maize crop (Zea mays L.)’, International Journal of Green Nanotechnology, vol. 3, no. 3, pp. 180-190.
229. Zambrano-Zaragoza, ML, Mercado-Silva, E, Gutiérrez-Cortez, E, Castaño-Tostado, E & Quintanar-Guerrero, D 2011, ‘Optimization of nanocapsules preparation by the emulsionediffusion method for food applications’, LWT-Food Science and Technology, vol. 44, no. 6, pp. 1362-1368.
230. Zhang, Y, Hu, L, Yu, D, & Gao, C 2010, ‘Influence of silica particle internalization on adhesion and migration of human dermal fibroblasts’, Biomaterials, vol. 31, no. 32, pp. 8465-8474.
231. Zheng, L, Hong, F, Lu, S & Liu, C 2005, ‘Effects of nano-TiO2 on strength of naturally aged seeds and growth of spinach’, Biological Trace Element Research, vol. 104, no. 1, pp. 83-92.
232. Zhu, H, Han, J, Xiao, JQ & Jin, Y 2008, ‘Uptake, translocation and accumulation of manufactured iron oxide nanoparticles by pumpkin plants’, Journal of Environmental Monitoring, vol. 10, no. 6, pp. 713-717.
