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2017 | 86 | 3 | 180-192
Article title

Nano-silver as a potential biostimulant for plant – A review

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EN
Abstracts
EN
Nanotechnology, as one of the most promising fields of science, brings unlimited possibilities of development of many areas, including agriculture and horticulture. Nano-silver is one of the nanomaterials that its effect on plants are under investigation nowadays. Numerous experiments conducted by scientists evaluated the possibility of using nano-silver as an potential plant growth regulator for crops, and also as a means to extend the post-harvest longevity of cut flowers and ornamental foliage. This paper summarizes a comprehensive and systematic study of the data on nano-silver activity and its application in horticulture, postharvest handling and storage of cut flowers and florist greens.
Year
Volume
86
Issue
3
Pages
180-192
Physical description
References
  • [1] A. Myczko, Inżynieria Rolnicza 10 (2006) 45 ̶ 50.
  • [2] B. Malinowska – Kapcia, R. Sornek, A. Poziemba, Laboratorium 7–8 (2008) 19–20.
  • [3] D. Malina, Ecological Engineering 18(1) (2017) 111 ̶ 117.
  • [4] N. Mroczek-Sosnowska, S. Jaworski, A. Siennicka, A. Gondek, Polskie Drobiarstwo 20(02) 2013.
  • [5] Z. Wzorek, M. Konopka M, Czasopismo Techniczne 1 (2007) 175–181.
  • [6] M. Rai, A. Yadav, A. Gade, Biotechnology Advances 27 (2009) 76–83.
  • [7] Q. L. Feng, J. Wu, G. Q. Chen, F. Z. Cui, T. N. Kim, J. O. Kim, Journal of Biomedical Materials Research 52 (2000) 662–668.
  • [8] V. Shah, I. Belozerova, Water, Air and Soil Pollution 197 (2008) 143 ̶ 148.
  • [9] S. Lanone, J. Boczkowski, Current Molecular Medicine 6(6) (2006) 651 ̶ 663.
  • [10] M. Yamanaka, K. Hara, J. Kudo, Applied and Environmental Microbiology 71 (2005) 7589–7596.
  • [11] J. Pulit, M. Banach, Z. Kowalski, Czasopismo Techniczne. Chemia 108 (2011) 197 ̶ 209.
  • [12] R. Nair, S. H. Varghese, B. G. Nair, T. Maekawa, Y. Yoshida, D. S. Kumar, Plant Science 179(3) (2010) 154 ̶ 163.
  • [13] B. Gibbins, L. Warner, Medical Device & Diagnostic Industry 8 (2005) 2–6.
  • [14] S. Prabhu, E. K. Poulose, International Nano Letters 2 (2012) 32.
  • [15] F. Nejatzadeh-Barandozi, F. Darvishzadeh, A. Aminkhani, Organic and Medicinal Chemistry Letters 4(1) (2014) 11.
  • [16] S. Sah, A. Sorooshzadeh, H. S. Rezazadeh, H. A. Naghdibadi, Journal of Medicinal Plants Research 5(5) (2011) 706 ̶ 710.
  • [17] J. Yasur, P. U. Rani, Environmental Science and Pollution Research 20(12) (2013) 8636 ̶ 8648.
  • [18] G. Shams, M. Ranjbar, A. Amiri, Journal of Nanoparticle Research 15(5) (2013) 1630.
  • [19] R. Ekhtiyari, H. Mohebbi, M. Mansouri, Plant and Ecosystem 7 (2011) 55 ̶ 62.
  • [20] S. S. Hojjat, H. Hojjat, International Journal of Food Engineering 1(2) (2015) 106 ̶ 110.
  • [21] Z. Aghajani, R. Ekhtiyari, African Journal of Agricultural Research 8 (2013) 707 ̶ 710.
  • [22] A. A. Gusev, A. А. Kudrinsky, O. V. Zakharova, A. I. Klimov, P. M. Zherebin, G. V. Lisichkin, I. A. Vasyukova, A. N. Denisov, Y. A. Krutyakov, Materials Science and Engineering C 62 (2016) 152 ̶ 159.
  • [23] L. Yin, Y. Cheng, B. Espinasse, B. P. Colman, M. Auffan, M. Wiesner, J. Rose, J. Liu, E. S. Bernhardt, Environmental Science & Technology 45(6) (2011) 2360 ̶ 2367.
  • [24] R. M. Thangavelu, D. Gunasekaran, M. I. Jesse, M. R. SU, D. Sundarajan, K. Krishnan, Arabian Journal of Chemistry (2016).
  • [25] S. S. Hojjat, H. Hojjat, International Journal of Farming and Allied Sciences 5 (2016) 248 ̶ 252.
  • [26] W. M. Lee, J. I. Kwak, Y. I. An, Chemosphere 86(5) (2012) 491 ̶ 499.
  • [27] P. Sharma, D. Bhatt, M. G. H. Zaidi, P. P. Saradhi, P. K. Khanna, S. Arora, Applied Biochemistry and Biotechnology 167(8) (2012) 2225 ̶ 2233.
  • [28] A. Parveen, S. Rao, Journal of Cluster Science 26(3) (2015) 693 ̶ 701.
  • [29] M. Hatami, M. Ghorbanpour, Turkish Journal of Biology 38(1) (2014) 130 ̶ 139.
  • [30] A. A. Ehsanpour, Z. Nejati, Biological Letters 50 (2013) 35 ̶ 43.
  • [31] M. B. Homaee, A. A. Ehsanpour, Indian Journal of Plant Physiology 20(4) (2015) 353 ̶ 359.
  • [32] N. Zuverza-Mena, R. Armendariz, J. R. Peralta-Videa, J. L. Gardea-Torresdey, Frontiers in Plant Science 7 (2016).
  • [33] S. Shokri, A. Babaei, M. Ahmadian, M. M. Arab, S. Hessami, In VIII International Symposium on In Vitro Culture and Horticultural Breeding 1083 (2013) 391 ̶ 396.
  • [34] H. Zari, P. Babak, R. Asad, Journal of Essential Oil Bearing Plants 18(5) (2015) 1148 ̶ 1156.
  • [35] N. Rezvani, A. Sorooshzadeh, N. Farhadi, World Academy of Science, Engineering and Technology 6(1) (2012) 517 ̶ 522.
  • [36] S. K. Mehrian, R. Heidari, F. Rahmani, S. Najafi, Journal of Cluster Science 27(1) (2016) 327 ̶ 340.
  • [37] Z. M. Almutairi, International Journal of Agriculture & Biology 18(2) (2016).
  • [38] C. M. Mehta, R. Srivastava, S. Arora, A. K. Sharma, 3 Biotech 6(2) (2016) 254.
  • [39] J. Liu, K. Ratnayake, D.C. Joyce, S. He, Z. Zhang, Postharvest Biology and Technology 66 (2012) 8 ̶ 15.
  • [40] M. Alimoradi, M. Jafararpoor, A. Golparvar, International Journal of Agriculture and Crop Sciences 6(11) (2013) 632.
  • [41] A. Byczyńska, World Scientific News 69 (2017) 244 ̶ 247.
  • [42] D. Hashemabadi, Journal of Environmental Biology 35(4) (2014) 661 ̶ 666.
  • [43] P. Moradi, H. Afshari, A. G. Ebadi, Indian Journal of Science and Technology 5 (2012) 2459 ̶ 2463.
  • [44] L. M. Carrillo-Lopez, A. Morgado-González, A. Morgado-González, Journal of Nanomaterials (2016) 1 ̶ 10.
  • [45] S. Kazemipour, D. Hashemabadi, B. Kaviani, European Journal of Experimental Biology 3(6) (2013) 298 ̶ 302.
  • [46] A. Byczyńska, P. Salachna, World Scientific News 69 (2017) 239 ̶ 243.
  • [47] H. S. Hajizadeh, In III International Conference on Quality Management in Supply Chains of Ornamentals 1131 (2015) 1 ̶ 10.
  • [48] M. Kazemi, A. Ameri, Asian Journal of Biochemistry 7 (2012) 106 ̶ 111.
  • [49] M. Solgi, M. Kafi, T.S. Taghavi, R. Naderi, Postharvest Biology and Technology 53(3) (2009) 155 ̶ 158.
  • [50] J. Liu, S. He, Z. Zhang, J. Cao, P. Lv, S. He, G. Cheng, D.C. Joyce, Postharvest Biology and Technology 54(1) (2009) 59 ̶ 62.
  • [51] H. Li, H. Li, J. Liu, Z. Luo, D. Joyce, S. He, Postharvest Biology and Technology 123 (2017) 102-111.
  • [52] S. A. Nemati, A. Tehranifar, B. Esfandiari, A. Rezaei, Notulae Scientia Biologicae 5(4) (2013) 490 ̶ 493.
  • [53] S. H. Nemati, B. Esfandiyari, A. Tehranifar, A. Rezaei, S. J. Ashrafi, International Journal of Postharvest Technology and Innovation 4(1) (2014) 46 ̶ 53.
  • [54] H. H. A. Kader, World Applied Sciences Journal 20 (2012) 130 ̶ 137.
  • [55] Z. Nazemi Rafi, A. Ramezanian, South African Journal of Botany 86 (2013) 68 ̶ 72.
  • [56] M. M. Jowkar, A. Khaligh, M. Kafi, N. Hassanzadeh, Agriculture and Environment 11(1) (2013) 1045 ̶ 1050.
  • [57] F. A. S. Hassan, E. F. Ali, B. El-Deeb, Scientia Horticulturae 179 (2014) 340 ̶ 348.
  • [58] P. Lü, S. He, H. Li, J. Cao, J., H.L. Xu, Journal of Food, Agriculture and Environment 8(2) (2010) 1118 ̶ 1122.
  • [59] S. Bahremand, J. Razmjoo, H. Farahmand, International Journal of Horticultural Science and Technology 1(1) (2014) 67 ̶ 77.
  • [60] M. Asgari, M. H. Azimi, Z. Hamzehi, S. N. Mortazavi, F. Khodabandelu, International Journal of Agronomy and Plant Production 4(4) (2013) 680 ̶ 687.
  • [61] A. Byczyńska, World Scientific News 83 (2017) 224-228.
Document Type
article
Publication order reference
YADDA identifier
bwmeta1.element.psjd-8d27fb1f-848d-4261-a6e1-e26c23573ab0
Identifiers
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