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Electromagnetic Biology and Medicine Volume 23, 2004 - Issue 2
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Diamagnetic Susceptibility and Root Growth Responses to Magnetic Fields in Lens culinaris, Glycine soja, and Triticum aestivum

Josep Peñuelas Unitat Ecofisiologia CSIC-CEAB-CREAF (Center for Ecological Research and Forestry Applications), Facultat de Ciències, Universitat Autònoma de Barcelona, Barcelona, Catalonia, SpainCorrespondence[email protected]
,
Joan Llusià Unitat Ecofisiologia CSIC-CEAB-CREAF (Center for Ecological Research and Forestry Applications), Facultat de Ciències, Universitat Autònoma de Barcelona, Barcelona, Catalonia, Spain
,
Benjamín Martínez Institut de Ciència de Materials de Barcelona, CSIC, Campus UAB, Barcelona, Catalonia, Spain
&
Josep Fontcuberta Institut de Ciència de Materials de Barcelona, CSIC, Campus UAB, Barcelona, Catalonia, Spain
Pages 97-112 | Published online: 07 Jul 2009

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M. Mroczek-Zdyrska, K. Kornarzyński, S. Pietruszewski & M. Gagoś. (2017) The effects of low-frequency magnetic field exposure on the growth and biochemical parameters in lupin (Lupinus angustifolius L.). Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology 151:3, pages 504-511.
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Elham Rajabbeigi, Faezeh Ghanati, Parviz Abdolmaleki & Atefeh Payez. (2013) Antioxidant capacity of parsley cells (Petroselinum crispum L.) in relation to iron-induced ferritin levels and static magnetic field. Electromagnetic Biology and Medicine 32:4, pages 430-441.
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Dimitrios J. Bilalis, Nikolaos Katsenios, Aspasia Efthimiadou & Anestis Karkanis. (2012) Pulsed electromagnetic field: an organic compatible method to promote plant growth and yield in two corn types. Electromagnetic Biology and Medicine 31:4, pages 333-343.
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M. Tanaka, Pham Van Thanh, Jaime A. Teixeira da Silva & Le Huy Ham. (2010) Novel Magnetic Field System: Application to Micropropagation of Horticultural Plants. Biotechnology & Biotechnological Equipment 24:4, pages 2160-2163.
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Articles from other publishers (25)

Surbhi Sharma, Shalini Bahel & Jatinder Kaur Katnoria. (2022) Evaluation of oxidative stress and genotoxicity of 900 MHz electromagnetic radiations using Trigonella foenum-graecum test system. Protoplasma 260:1, pages 209-224.
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Agnieszka Pawełek, Joanna Wyszkowska, Daniele Cecchetti, Mergi Daba Dinka, Krzysztof Przybylski & Adriana Szmidt-Jaworska. (2022) The Physiological and Biochemical Response of Field Bean (Vicia faba L. (partim)) to Electromagnetic Field Exposure Is Influenced by Seed Age, Light Conditions, and Growth Media. Agronomy 12:9, pages 2161.
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Bogdan Saletnik, Aneta Saletnik, Ewelina Słysz, Grzegorz Zaguła, Marcin Bajcar, Anna Puchalska-Sarna & Czesław Puchalski. (2022) The Static Magnetic Field Regulates the Structure, Biochemical Activity, and Gene Expression of Plants. Molecules 27:18, pages 5823.
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Daniele Cecchetti, Agnieszka Pawełek, Joanna Wyszkowska, Marcel Antoszewski & Adriana Szmidt-Jaworska. (2022) Treatment of Winter Wheat (Triticum aestivum L.) Seeds with Electromagnetic Field Influences Germination and Phytohormone Balance Depending on Seed Size. Agronomy 12:6, pages 1423.
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Ismail Ercan, Huseyin Tombuloglu, Noha Alqahtani, Bayan Alotaibi, Muruj Bamhrez, Raghdah Alshumrani, Sezen Ozcelik & Tarek Said Kayed. (2022) Magnetic field effects on the magnetic properties, germination, chlorophyll fluorescence, and nutrient content of barley (Hordeum vulgare L.). Plant Physiology and Biochemistry 170, pages 36-48.
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S I Chmeleva, K N Tumanyants & A I Sidyakin. (2021) Adaptogenic effect of low-intensity millimeter-wave electromagnetic radiation on Glycine Max L. under osmotic stress. IOP Conference Series: Earth and Environmental Science 853:1, pages 012018.
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S I Chmeleva, K N Tumanyants & N S Yarmolyuk. (2021) Influence of low-intensity electromagnetic radiation of the millimeter range on the antioxidant system of juvenile Glycine max L. plants under osmotic stress. IOP Conference Series: Earth and Environmental Science 853:1, pages 012017.
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Sulaf H. Tiamooz, Hayyawi W.A. Al-Juthery & Mahmood A. Ali. (2020) The Study Effect of field Magnetic on some of average fungi of the soil. IOP Conference Series: Earth and Environmental Science 553:1, pages 012036.
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Chadapust J. Sudsiri, Nattawat Jumpa, Pinpong Kongchana & Raymond J. Ritchie. (2017) Stimulation of oil palm ( Elaeis guineensis ) seed germination by exposure to electromagnetic fields. Scientia Horticulturae 220, pages 66-77.
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M. M. Shashurin, I. A. Prokopiev, G. V. Filippova, A. N. Zhuravskaya & A. A. Korsakov. (2017) Effect of extremely low frequency magnetic fields on the seedlings of wild plants growing in Central Yakutia. Russian Journal of Plant Physiology 64:3, pages 438-444.
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J. López-Luna, M.J. Silva-Silva, S. Martinez-Vargas, O.F. Mijangos-Ricardez, M.C. González-Chávez, F.A. Solís-Domínguez & M.C. Cuevas-Díaz. (2016) Magnetite nanoparticle (NP) uptake by wheat plants and its effect on cadmium and chromium toxicological behavior. Science of The Total Environment 565, pages 941-950.
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Arvind Kumar, Harminder Pal Singh, Daizy R. Batish, Shalinder Kaur & Ravinder Kumar Kohli. (2015) EMF radiations (1800 MHz)-inhibited early seedling growth of maize (Zea mays) involves alterations in starch and sucrose metabolism. Protoplasma 253:4, pages 1043-1049.
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Jaime A. Teixeira da Silva & Judit Dobránszki. (2015) Magnetic fields: how is plant growth and development impacted?. Protoplasma 253:2, pages 231-248.
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Agus Yulianto, Budi Astuti & Saptaria Rosa Amalia. Enhancement of iron content in spinach plants stimulated by magnetic nano particles. Enhancement of iron content in spinach plants stimulated by magnetic nano particles.
Luka Jan, Dušan Fefer, Katarina Košmelj, Alenka Gaberščik & Igor Jerman. (2015) Geomagnetic and strong static magnetic field effects on growth and chlorophyll a fluorescence in Lemna minor . Bioelectromagnetics 36:3, pages 190-203.
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M Hozayn, A A EL Mahdy Amal & H M H Abdel Rahman. (2015) Effect of magnetic field on germination, seedling growth and cytogenetic of onion (Allium cepa L.). African Journal of Agricultural Research 10:8, pages 849-857.
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Roc?o Rinc?n, Cristina Yubero, M Calzada, Lourdes Moyano & Luis Zea. 2014. Microbial Food Safety and Preservation Techniques. Microbial Food Safety and Preservation Techniques 415 430 .
Young-Jin Lee, Ji-Hun Lim & Dong-Kook Park. (2013) Effects of Static Magnetic Fields on Early Seed Germination and Radish Sprouts Growth. The Journal of the Korean Institute of Information and Communication Engineering 17:1, pages 242-247.
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Irina Filatova, Viktor Azharonok, Alexander Shik, Alexandra Antoniuk & Natalia Terletskaya. 2012. Plasma for Bio-Decontamination, Medicine and Food Security. Plasma for Bio-Decontamination, Medicine and Food Security 469 479 .
F. Dhawi & J. M. Al-Khayri. 2011. Date Palm Biotechnology. Date Palm Biotechnology 287 309 .
Turgay Cakmak, Rahmi Dumlupinar & Serkan Erdal. (2009) Acceleration of germination and early growth of wheat and bean seedlings grown under various magnetic field and osmotic conditions. Bioelectromagnetics 31:2, pages 120-129.
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V. V. Azharonok, S. V. Goncharik, I. I. Filatova, A. S. Shik & A. S. Antonyuk. (2009) The effect of the high frequency electromagnetic treatment of the sowing material for legumes on their sowing quality and productivity. Surface Engineering and Applied Electrochemistry 45:4, pages 318-328.
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Faezeh Ghanati, Parviz Abdolmaleki, Majid Vaezzadeh, Elham Rajabbeigi & Mohammad Yazdani. (2007) Application of magnetic field and iron in order to change medicinal products of Ocimum basilicum. The Environmentalist 27:4, pages 429-434.
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V. V. Azharonok, I. I. Filatova, I. V. Voshchula, V. A. Dlugunovich, O. V. Tsaryuk & T. N. Gorzhanova. (2007) Change in the optical properties of paper when exposed to the magnetic component of a high-frequency electromagnetic field. Journal of Applied Spectroscopy 74:4, pages 465-471.
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Paul Galland & Alexander Pazur. (2005) Magnetoreception in plants. Journal of Plant Research 118:6, pages 371-389.
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