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Journal of Nanoparticle Research

Erschienen in:

01.10.2011 | Research Paper

Beneficial role of carbon nanotubes on mustard plant growth: an agricultural prospect

verfasst von: Anindita Mondal, Ruma Basu, Sukhen Das, Papiya Nandy

Erschienen in: Journal of Nanoparticle Research | Ausgabe 10/2011

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Abstract

Nowadays an increasing application of nanotechnology in different fields has arisen an extensive debate about the effect of the engineered nanoparticles on environment. Phytotoxicity of nanoparticles has come into limelight in the last few years. However, very few studies have been done so far on the beneficial aspects of nanoparticles on plants. In this article, we report the beneficial effect of multi-walled carbon nanotubes (MWCNTs) having diameter of ~30 nm on Brassica juncea (mustard) seeds. Measurements of germination rate, T ₅₀ (time taken for 50% germination), shoot and root growth have shown encouraging results using low concentration of oxidized MWCNT (OMWCNT) treated seeds as compared to non-oxidized as well as high concentration OMWCNT treated seeds. For toxicity study we measured the germination index and relative root elongation, while conductivity test and infra-red spectra were also performed to study the overall effect of oxidized and non-oxidized nanotubes on mustard seeds and seedlings.

Vorheriger Artikel Sonochemical synthesis and optical properties of amorphous ZnO nanowires

Nächster Artikel Photochemical preparation of ZnO nanoparticles

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Biswas P, Wu CY (2005) Critical review: nanoparticles and the environment. J Air Waste Manag Assoc 55:708–746

Coolbear P, Francis A, Grierson D (1984) The effect of low temperature pre-sowing treatment on the germination performance and membrane integrity of artificially aged tomato seeds. Exp Bot 35:1609–1617CrossRef

Doshi R, Braida W, Christodoulatos C, Wazne M, O’Connor G (2008) Nano-aluminum: transport through sand columns and environmental effects on plants and soil communities. Environ Res 106:296–303CrossRef

Gonen T, Watz T (2006) The structure of aquaporins. Q Rev Biophys 344:361–396CrossRef

Harrison BS, Atala A (2007) Carbon nanotube applications for tissue engineering. Biomaterials 28:344–353CrossRef

Hibbard RP, Miller EV (1928) Biochemical studies on seed viability. Measurements of conductance and reductance. Plant Physiol 3:335–352CrossRef

Hong FS, Zhou J, Liu C, Yang F, Wu C, Zheng L, Yang P (2005) Effect of nano TiO₂ on photochemical reaction of chloroplasts of spinach. Biol Trace Elem Res 105:269–279CrossRef

International Seed Testing Association ISTA (1976) International rules for seed testing. Seed Sci Technol 4:51–177

Johanson U, Gustavsson S (2002) A new subfamily of major intrinsic protein in plants. Mol Biol Evol 19(4):456–461

Kammerloher W, Fischer U, Piechottka GP, Schaffner AR (1994) Water channels in the plant plasma membrane cloned by immunoselection from a mammalian expression system. Plant J 6(2):189–199CrossRef

Khodakovskaya M, Dervishi E, Mahmood M, Xu Y, Li Z, Watanabe F, Biris AS (2009) Carbon nanotubes are able to penetrate plant seed coat and dramatically affect seed germination and plant growth. ACS Nano 3(10):3221–3227CrossRef

Kovtyukhova NI, Mallouk TE, Pan L, Dickey EC (2003) Individual single walled nanotubes and hydrogels made by oxidative exfoliation of carbon nanotube ropes. J Am Chem Soc 125:9761–9769CrossRef

Li YH, Xu C, Wei B, Zhang X, Zheng M, Wu D, Ajayan PM (2002) Self-organised ribbons of aligned carbon nanotubes. Chem Mater 14:483CrossRef

Ling DH, Xing BS (2007) Phytotoxicity of nanoparticles: inhibition of seed germination and root elongation. Environ Pollut 150:243–250CrossRef

Liu H-Y, Yu X, Cui D-Y, Sun M-H, Sun W-N, Tang Z-C, Kwak S-S, Su W-A (2007) The role of water channel proteins and nitric oxide signaling in rice seed germination. Cell Res 17:638–649CrossRef

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. Soyabean Sci 21:168–172

Mc.Cready RN, Guggloz J, Silviera V, Owens HS (1950) Determination of starch and amylase in vegetables. Anal Chem 22:1156–1158CrossRef

Monica RC, Cremonini R (2009) Nanoparticles and higher plants. Caryologia 62(2):161–165

Nel A, Xia T, Madler L, Li N (2006) Toxic potential of materials at the nanolevel. Science 311:622–627CrossRef

Panyam J, Labhasetwar V (2003) Biodegradable nanoparticles for drug and gene delivery to cells and tissue. Adv Drug Deliv Rev 55:329–347CrossRef

Pesis E, Timothy JN (1983) Viability, vigour, and electrolytic leakage of muskmelon seeds subjected to accelerated aging. Hort Sci 18:242–244

Racuciu M, Creanga DE (2007) TMA-OH coated magnetic nanoparticles internalized in vegetal tissue. Romanian J Phys 52:395–402

Ravindran S, Ozkan CS (2005) Self-assembly of ZnO nanoparticles to electrostatic coordination sites of functionalized carbon nanotubes. Nanotechnology 16:1130–1136CrossRef

Stampoulis D, Sinha SK, White JC (2009) Assay-dependent phytotoxicity of nanoparticles to plants. Environ Sci Technol 43:9473–9479CrossRef

Tajbakhsh M (2000) Relationships between electrical conductivity of imbibed seeds leachate and subsequent seedling growth (Viabiliy and Vigour) in Omid Wheat. J Agric Set Technol 2:67–71

Tao JK (1978) Factors causing variations in the conductivity test for soyabean seeds. J Seed Technol 3:10–18

Tiquia MS, Tam NFY (1998) Elemination of phytotoxicity during co-composting of spent pig-manure sawdust litter and pig sludge. Bioresour Technol 65:43–49CrossRef

Tiquia MS, Tam NFY, Hodgkiss IJ (1996) Effects of composting on phytotoxicity of spent pig-manure sawdust litter. Environ Pollut 92:249–256CrossRef

U. S. Environmental Protection Agency (1996) Ecological effects test guidelines (OPPTS 850.4200): Seed germination/root elongation toxicity test

Vande Venter HA, Grobbelaar N (1985) Influence of sub-optimal imbibition temperatures on seed vigour and respiration in maize. S Afr J Plant Soil 2:203–206

Wong N, Kam S, Dai HJ (2005) Carbon nanotubes as intracellular protein transporters: generality and biological functionality. J Am Chem Soc 127:6021–6026CrossRef

Yang L, Watts DJ (2005) Particle surface characteristics may play an important role in phytotoxicity of alumina properties. Toxicol Lett 158:122–132CrossRef

Yang F, Hong FS, You WJ, Liu C, Gao FQ, Wu C, Yang P (2006) Influence of nano-anatase TiO₂ on the nitrogen metabolism of growing spinach. Biol Trace Elem Res 110:179–190CrossRef

Yu R, Chen L, Liu Q, Lin J, Tan KL, Ng SC, Chan HSO, Xu GQ, Andy Hor TS (1998) Platinum deposition on carbon nanotubes via chemical modification. Chem Mater 10:718CrossRef

Zanello LP, Zhao B, Hu H, Haddon RC (2006) Bone cell proliferation on carbon nanotubes. Nano Lett 6:562–567CrossRef

Zheng L, Hong FS, Lu SP, Liu C (2005) Effect of nano-TiO₂ on strength of naturally aged seeds and growth of spinach. Biol Trace Elem Res 104:83–91CrossRef

Zhu L, Chang DW, Dai IM, Hang HI (2007) DNA damaged induced by multiwalled carbon nanotubes in mouse embryonic stem cells. Nano Lett 7:3592–3597CrossRef

Titel: Beneficial role of carbon nanotubes on mustard plant growth: an agricultural prospect
verfasst von: Anindita Mondal
Ruma Basu
Sukhen Das
Papiya Nandy
Publikationsdatum: 01.10.2011
Verlag: Springer Netherlands
Erschienen in: Journal of Nanoparticle Research / Ausgabe 10/2011
Print ISSN: 1388-0764
Elektronische ISSN: 1572-896X
DOI: https://doi.org/10.1007/s11051-011-0406-z

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