1- Aladjadjiyan, A. 2002. Study of the Influence of Magnetic Field on Some Biological Characteristics of Zea mays. Journal of Central European Agricultre 3(2): 89-94.
2- Aladjadjiyan, A., and Ylieva. T. 2003. Influence of stationary magnetic field on the early stages of the development of tobacco seeds (Nicotiana tabacumL.). Journal of Central European Agriculture 132(2): 131-138.
3- Alexander, M. P., and Doijode, S. D. 1995. Electromagnetic field, a novel tool to increase germination and seedling vigour of conserved onion (Allium cepa L.) and rice (Oryzasativa, L.) seeds with low viability. Plant Genetic Resources Newsletter 104: 1-5.
4- Aliverdi, A., Rashed-Mohassel M. H., Zand, E., and Nassiri Mahallati, M. 2009. Increased foliar activity of clodinafop-propargyl and/or tribenuron-methyl by surfactants and their synergistic action on wild oat (Avena ludoviciana) and wild mustard (Sinapis arvensis). Weed Biology and Management 9: 292-299.
5- Al-Khazan, M., Abdullatif, B. M., and Al-Assaf, N. 2011. Effects of magnetically treated water on water status, chlorophyll pigments and some elements content of Jojoba (Simmondsia chinensisL.) at different growth stages. African Journal of Environmental Science and Technology 5(9): 722-731.
6- Arbabian, S., Majd, A., and Salaripour, S. 2010. The effects of electromagnetic field (EMF) on vegetative organs, pollen development, pollen germination and pollen tube growth of Glycine max L. Journal of Cell & Tissue 1(1): 35-42.
7- Atak, C., Danilov, V., Yurttas, B., Yalçn, S., Mutlu, D., and Rzakoulieva, A. 1997. Effects of magnetic field on soybean (Glycine max L.Merrill) seeds. Com JINR. Dubna 1-13.
8- Atak, C., Emiroglu, O., Aklimanoglu, S., and Rzakoulieva, A. 2003. Stimulation of regeneration by magnetic field in soybean (Glycine max L. Merrill) tissue cultures. Journal of Cell and Molecular Biology 2:113–119.
9- Belyavskaya, N. A. 2001. Ultra structure and calcium balance in meristem cells of pea root exposed to extremely low magnetic fields. Advances in Space Research 28: 645–650.
10- Boe, A. A., and Salunke, D. K. 1963. Effects of magnetic fields on tomato ripening. Nature 199: 91-92.
11- Burtebayeva, D., Burtebayev, N., and Kakhraman, V. D. 2003. Application of electromagnetic radiant of low frequency for increasing of the crop capacity of the agricultural seeds. Avras Nukleer Bul 64-68.
12- Çelik, Ö., Atak, C., and Rzakulieva, A. 2008. Stimulation of rapid regeneration by a magnetic field in paulownia node cultures. Journal of Central European Agriculture 9(2): 297-303.
13- Danilov, V., Bas, T., Eltez M., and Rizakulyeva, A. 1994. Artificial magnetic field effects on yield and quality of tomatoes, ActaHortic. 366: 279–285 5.
14- De Souza, A., Casate, R., and Porras, E. 1999. Effect of magnetic treatment of tomato seeds (Lycopersicon esculentum Mill.) on germination and seedling growth [in Spanish]. Investigacion Agriculture Production Protection Vegetable 14(3): 67-74.
15- Duarte Diaz, C. E., Riquenes, J. A., Sotolongo, B., Portuondo, M. A., Quitana, E. O., and Perez, R. 1997. Effect of magnetic treatment of irrigation water on tomato crop. Horticulture Abstract 469: 494.
16- Ehyaee, H., Parsa, M., Kafi, M., and Nasiri Mahallati, M. 2010. Effect of foliar application of methanol and irrigation regimes on yield and yield components of chickpea cultivars. Irainian Journal of Pulses research 2(1): 37- 48. (In Persian with English Abstract).
17- Esitken, A., and Turan, M. 2004. Alternating magnetic field effects on yield and plant nutrient element composition of strawberry (Fragariaana-nassa cv. Camarosa). Acta Agriculturae Scandinavica, Section B —Soil & Plant Science 54: 135–139.
18- Feizi, H., Rezvani Moghaddam, P., Koocheki, A., Shahtahmassebi, N., and Fotovat, A. 2011. Influence of intensity and exposure duration of magnetic field on behavior of seed germination and seedling growth of wheat (Triticum aestivum L.). Journal of Agroecology 3(4): 482-490.
19- Florez, M., Victoria, M., Martinez, E. 2007. Exposure of maize seeds to stationary magnetic field: effects of germination and early growth. Environmental and experimental botany 59: 68-75.
20- FAO (Food and Agricultural Organization), 2012. FAOSTAT database for agriculture. Available online at: http://faostat.fao.org/faostat/collection? subset= agriculture
21- Goodman, E. M; Greenabaum, B., and Morron, T. M. 1995. Effects of electromagnetic fields on molecules and cells. lnternational Review of Cytology 158: 279-325.
22- Grundy, A. C., Bond, W., and Burston, S. 1999. Weed suppression by crops. The brighton conference-weeds. P. 957-962.
23- Gaur, P. M., Tripathi, S., Gowda, C. L. L., RangaRao, G. V., Sharma, H. C., Pande, S and Sharma, M. 2010. Chickpea Seed Production Manual. Patancheru 502 324, Andhra Pradesh, India: International Crops Research Institute for the Semi-Arid Tropics. 28 pp.
24- Hozayn, M and Abdul Qados, A. M. S. 2010. Irrigation with magnetized water enhances growth, chemical constituent and yield of chickpea (Cicer arietinumL.). Agriculture and Biology Journal of North America 1(4): 671-676.
25- Hozayn, M., Abd El-Monem, A. A; Abdul Qados, A. M. S. and Abd El-Hameid, E. M. 2011. Response of Some Food Crops to Irrigation with Magnetized Water under Green House Condition. Australian Journal of Basic and Applied Sciences 5(12): 29-36.
26- http://www.weatherbase.com/weather/weather.php3?s=54704&refer=&units=us, 2015
27- Martinez, E., Carbonel, M. V., and Amaya, J.M. 2000. A static magnetic field of 125 mT stimulates the initialgrowth stages of barley (HordeumvulgareL.). Electro and Magnetobiology 19(3): 271-277.
28- Muraji, M., Nishimura, M., Tatebe, W., and Fujii, T. 1992. Effect of alternating magnetic field on the growth of the primary root of corn. IEEE Transactions Magnetics 28: 1996–2000.
29- Namba, K.; Sasao, A. and Shibusawa, S. 1995. Effect of magnetic field on germination and plant growth. Acta Horticulture 399: 143-147.
30- Oldacay, S., and Erdem, G. 2002. Evaluation of chlorophyll contents and peroxides activities in (Helianthus annuus L.) genotypes exposed to radiation and magnetic field. Pakistan Journal of Applied Science 2(10): 934-937.
31- Podleoeny, J., Pietruszewski, S., and Podleoena, A. 2004. Efficiency of the magnetic treatment of broad bean seeds cultivated under experi- mental pot conditions. International Agrophysics 18: 65–71.
32- Reina, F. G., Pascual, .L. A., and Fundora, I. A. 2001. Influence of a Stationary Magnetic Field on Water Relations in Lettuce Seeds. Part II: Experimental Results Bioelectromagnetics 22: 596-602.
33- Ruzzic, R., Berden, M., and Jerman, I. 1998. The effects of oscillating electromagnetic fields on plants. Summary Report. Proc. First World Congress on the Bio effects of Electricity and Magnetism on the Natural World, Madeira, UK, 1-6 October.
34- Selim, A. F. H.,and El-Nady, M. F. 2011. Physio-anatomical responses of drought stressed tomato plants to magnetic field. Acta Astronautica 69: 387–396
35- Stein, G. S., and Lian, J. B. 1992. Regulation of cell cycle and growth control. Bioelectromagnetics Supplement 1: 247-265.
36- Souza, A. D., Garcia, D., Sueiro, L., Licea, L., and Porras, E. 2005. Pre-sowing magnetic treatment of tomato seeds: effects on the growth and yield of plants cultivated late in the season. Spanish Journal of Agricultural Research 3(1): 113-122.
37- Turker, M., Temirci, C., Battal, P. M., and Erez, E. 2007. The effect of an artificial and static magnetic field on plant growth, chlorophyll and phyto-hormone levels in maize and sunflower plants. Phyton Annales Rei Botanicae 46: 271–284.
38- Vashisth, A., and Nagarajan, S. 2008. Exposure of Seeds to Static Magnetic Field Enhances Germination and Early Growth Characteristics in Chickpea (Cicer arietinum L.). Bioelectromagnetics 29:571-578.
ارسال نظر در مورد این مقاله