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Electromagnetic Biology and Medicine Volume 22, 2003 - Issue 2-3
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Original

Effect of Weak Sinusoidal Magnetic Field on Germination and Yield of Cotton (Gossypium spp.)

T. Leelapriya Madras Institute of Magnetobiology, 52 A, A.K Block, 7th Main Road, Annanagar, Chennai‐40, India
,
K. S. Dhilip Madras Institute of Magnetobiology, 52 A, A.K Block, 7th Main Road, Annanagar, Chennai‐40, India
&
Dr. P. V. Sanker Narayan Madras Institute of Magnetobiology, 52 A, A.K Block, 7th Main Road, Annanagar, Chennai‐40, India
Pages 117-125 | Published online: 07 Jul 2009

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R. Radhakrishnan & B.D. Ranjitha Kumari. (2013) Protective role of pulsed magnetic field against salt stress effects in soybean organ culture. Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology 147:1, pages 135-140.
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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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Dimitrios J. Bilalis, Nikolaos Katsenios, Aspasia Efthimiadou, Anestis Karkanis & Panagiotis Efthimiadis. (2012) Investigation of pulsed electromagnetic field as a novel organic pre-sowing method on germination and initial growth stages of cotton. Electromagnetic Biology and Medicine 31:2, pages 143-150.
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Fernando Ferrari Putti, Jéssica Pigatto de Queiroz Barcelos, Bruno Cesar Goes, Renata Fernandes Alves, Mário Mollo Neto, Alexsandro Oliveira da Silva, Luís Roberto Almeida Gabriel Filho, Willian Aparecido Leotti Zanetti & Angela Vacaro de Souza. (2023) Effects of Water Deficit on Growth and Productivity in Tomato Crops Irrigated with Water Treated with Very Low-Frequency Electromagnetic Resonance Fields. Plants 12:21, pages 3721.
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Gökçen Yakupoğlu. (2023) Effects of Magnetic Field and Ultrasound Applications on Endogenous Melatonin Content and Drought Stress Tolerance of Pepper Seedlings. Horticulturae 9:6, pages 704.
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Muhammed Alsuvaid, Yusuf Demir, Mehmet Sait Kiremit & Hakan Arslan. (2022) Interaction Effect of Water Magnetization and Water Salinity on Yield, Water Productivity and Morpho-Physiological of Balkız Bean (Phaseolus vulgaris)Wechselwirkung zwischen Wassermagnetisierung und Wasserversalzung auf Ertrag, Wasserproduktivität und Morphophysiologie der Bohne (Phaseolus vulgaris). Gesunde Pflanzen 74:2, pages 259-274.
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Raul Romero-Galindo, Claudia Hernandez-Aguilar, Arturo Dominguez-Pacheco, Juan Godina-Nava & Rumen Ivanov Tsonchev. (2022) Biophysical methods used to generate tolerance to drought stress in seeds and plants: a review. International Agrophysics 35:4, pages 389-410.
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Beibei Zhou, Lu Yang, Xiaopeng Chen, Sitan Ye, Yao Peng & Chaofan Liang. (2021) Effect of magnetic water irrigation on the improvement of salinized soil and cotton growth in Xinjiang. Agricultural Water Management 248, pages 106784.
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Etimad Alattar, Khitam Elwasife & Eqbal Radwan. (2021) Effects of magnetic field treated water on some growth parameters of corn (<i>Zea mays</i>) plants. AIMS Biophysics 8:3, pages 267-280.
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Etimad Alattar, Khitam Alwasife & Eqbal Radwan. (2020) Effects of treated water with neodymium magnets (NdFeB) on growth characteristics of pepper <em>(Capsicum annuum)</em>. AIMS Biophysics 7:4, pages 291-307.
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Mihaela Răcuciu. Development of tomato (Solanum lycopersicum L.) seedlings under the action of extremely low frequency magnetic field in a controlled environment conditions. Development of tomato (Solanum lycopersicum L.) seedlings under the action of extremely low frequency magnetic field in a controlled environment conditions.
Ramalingam Radhakrishnan. (2019) Magnetic field regulates plant functions, growth and enhances tolerance against environmental stresses. Physiology and Molecular Biology of Plants 25:5, pages 1107-1119.
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Ramalingam Radhakrishnan. (2019) Exposure of magnetic waves stimulates rapid germination of soybean seeds by enzymatic regulation in cotyledons and embryonic axis. Biocatalysis and Agricultural Biotechnology 20, pages 101273.
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Dalia Abdel-Fattah H. Selim, Rania Mohamed A. Nassar, Mohamed S. Boghdady & Mercedes Bonfill. (2019) Physiological and anatomical studies of two wheat cultivars irrigated with magnetic water under drought stress conditions. Plant Physiology and Biochemistry 135, pages 480-488.
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Ramalingam Radhakrishnan. (2018) Seed pretreatment with magnetic field alters the storage proteins and lipid profiles in harvested soybean seeds. Physiology and Molecular Biology of Plants 24:2, pages 343-347.
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Nikolaos Katsenios, Dimitrios Bilalis, Aspasia Efthimiadou, Georgios Aivalakis, Aimilia-Eleni Nikolopoulou, Anestis Karkanis & Ilias Travlos. (2016) Role of pulsed electromagnetic field on enzyme activity, germination, plant growth and yield of durum wheat. Biocatalysis and Agricultural Biotechnology 6, pages 152-158.
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Angel De Souza, Dagoberto García, Lilita Sueiro & Fidel Gilart. (2014) Improvement of the seed germination, growth and yield of onion plants by extremely low frequency non-uniform magnetic fields. Scientia Horticulturae 176, pages 63-69.
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Ramalingam Radhakrishnan, Thasari Leelapriya & Bollipo Diana Ranjitha Kumari. (2012) Effects of pulsed magnetic field treatment of soybean seeds on calli growth, cell damage, and biochemical changes under salt stress. Bioelectromagnetics 33:8, pages 670-681.
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Ramalingam Radhakrishnan & Bollipo Diana Ranjitha Kumari. (2012) Pulsed magnetic field: A contemporary approach offers to enhance plant growth and yield of soybean. Plant Physiology and Biochemistry 51, pages 139-144.
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A. De Souza, D. Garcí, L. Sueiro, F. Gilart, E. Porras & L. Licea. (2006) Pre‐sowing magnetic treatments of tomato seeds increase the growth and yield of plants. Bioelectromagnetics 27:4, pages 247-257.
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