Advanced search
Publication Cover
Journal of Bioelectricity Volume 6, 1987 - Issue 2
Journal homepage
53
Views
73
CrossRef citations to date
0
Altmetric
Original Article

Calcium and Potassium Cyclotron Resonance Curves and Harmonics in Diatoms (A. Coeffeaformis)

Bruce R. McLeod Department of Electrical Engineering, Montana State University, Bozeman, Montana, 59717
,
Stephen D. Smith Department of Anatomy and Neurobiology, University of Kentucky College of Medicine, Lexington, Kentucky, 40536-0084
&
A. R. Liboff Department of Physics, Oakland University, Rochester, Michigan, 48063
Pages 153-168 | Published online: 07 Jul 2009

Citations (73)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (10)

A. R. Liboff. (2010) A Role for the Geomagnetic Field in Cell Regulation. Electromagnetic Biology and Medicine 29:3, pages 105-112.
Read now
P. Rajendra, H. Sujatha Nayak, R. B. Sashidhar, C. Subramanyam, D. Devendranath, B. Gunasekaran, R. S. S. Aradhya & A. Bhaskaran. (2005) Effects of Power Frequency Electromagnetic Fields on Growth of Germinating Vicia faba L., the Broad Bean. Electromagnetic Biology and Medicine 24:1, pages 39-54.
Read now
M. S. Davies & W. T. Norris. (2004) Vibration as a possible explanation for putative electromagnetic field effects: a case study on marine diatoms. International Journal of Radiation Biology 80:10, pages 709-718.
Read now
Maja Berden, Alexis Zrimec & Igor Jerman. (2001) NEW BIOLOGICAL DETECTION SYSTEM FOR WEAK ELF MAGNETIC FIELDS AND TESTING OF THE PARAMETRIC RESONANCE MODEL (Lednev 1991). Electro- and Magnetobiology 20:1, pages 27-41.
Read now
A. B. Uzdenslry. (1999) A Cytologist's View of Resonance Mechanisms for Biologic Effects of ELF Magnetic Fields. Electro- and Magnetobiology 18:1, pages 67-78.
Read now
V. Ottani, C. Bovina, G. Formiggini, M. Marchetti, M. Franchi, G. Giuliani Piccari, P. Zaniol & A. Ruggeri. (1997) Two Different Pulsed Elf Waveforms Affect Rat Liver Regeneration. Electro- and Magnetobiology 16:2, pages 107-117.
Read now
Bruce R. McLeod, Abraham R. Liboff & Stephen D. Smith. (1992) Biological Systems in Transition: Sensitivity to Extremely Low-Frequency Fields. Electro- and Magnetobiology 11:1, pages 29-42.
Read now
Stephen D. Smith, Bruce R. McLeod & Abraham R. Liboff. (1991) Effects of Resonant Magnetic Fields on Chick Femoral Development In Vitro. Journal of Bioelectricity 10:1-2, pages 81-99.
Read now
Francis X. Hart. (1990) A Quantum Mechanical Model for Bioelectromagnetic Resonance Phenomena. Journal of Bioelectricity 9:1, pages 1-7.
Read now
B. Bianco, A. Chiabrera, A. Morro & M. Parodi. (1988) Effects of magnetic exposure on ions in electric fields. Ferroelectrics 86:1, pages 159-168.
Read now

Articles from other publishers (63)

Viacheslav V. Krylov & Elena A. Osipova. (2023) Molecular Biological Effects of Weak Low-Frequency Magnetic Fields: Frequency–Amplitude Efficiency Windows and Possible Mechanisms. International Journal of Molecular Sciences 24:13, pages 10989.
Crossref
Richard Gordon. 2021. Diatom Gliding Motility. Diatom Gliding Motility 335 420 .
Hanie Kavand, Harald Lintel & Philippe Renaud. (2019) Efficacy of pulsed electromagnetic fields and electromagnetic fields tuned to the ion cyclotron resonance frequency of Ca 2+ on chondrogenic differentiation . Journal of Tissue Engineering and Regenerative Medicine 13:5, pages 799-811.
Crossref
Xiaoqian Cheng, Kenan Rajjoub, Alexey Shashurin, Dayun Yan, Jonathan H. Sherman, Ka Bian, Ferid Murad & Michael Keidar. (2016) Enhancing cold atmospheric plasma treatment of cancer cells by static magnetic field. Bioelectromagnetics 38:1, pages 53-62.
Crossref
Daniel Acosta-Avalos, Alessandra Tourinho Pinho, Julia de Souza Barbosa & Natalia Belova. (2015) Alternating Magnetic Fields of 60 Hz Affect Magnetic Orientation and Magnetosensitivity of Fire Ants. Journal of Insect Behavior 28:6, pages 664-673.
Crossref
V. V. Kuz’mina, N. V. Ushakova & V. V. Krylov. (2015) The effect of magnetic fields on the activity of proteinases and glycosidases in the intestine of the crucian carp Carassius carassius. Biology Bulletin 42:1, pages 61-66.
Crossref
N. P. Kantserova, N. V. Ushakova, V. V. Krylov, L. A. Lysenko & N. N. Nemova. (2013) Modulation of Ca2+ dependent protease activity in fish and invertebrates by weak low-frequency magnetic fields. Russian Journal of Bioorganic Chemistry 39:4, pages 373-377.
Crossref
Paulo Vale. (2013) Can solar/geomagnetic activity restrict the occurrence of some shellfish poisoning outbreaks? The example of PSP caused by Gymnodinium catenatum at the Atlantic Portuguese coast. Biophysics 58:4, pages 554-567.
Crossref
Donald Hillman, Dave Stetzer, Martin Graham, Charles L. Goeke, Kurt E. Mathson, Harold H. VanHorn & Charles J. Wilcox. (2013) Relationship of electric power quality to milk production of dairy herds — Field study with literature review. Science of The Total Environment 447, pages 500-514.
Crossref
N. A. Belova & V. A. Panchelyuga. (2010) Lednev’s model: Theory and experiment. Biophysics 55:4, pages 661-674.
Crossref
E. Kordyum, M. Sobol, Ia. Kalinina, N. Bogatina & A. Kondrachuk. (2007) Cyclotron-based effects on plant gravitropism. Advances in Space Research 39:7, pages 1210-1217.
Crossref
Andrew Goldsworthy. 2006. Plant Electrophysiology. Plant Electrophysiology 247 267 .
Paul Galland & Alexander Pazur. (2005) Magnetoreception in plants. Journal of Plant Research 118:6, pages 371-389.
Crossref
E.L. Kordyum, N.I. Bogatina, Ya.M. Kalinina & N.V. Sheykina. (2005) A weak combined magnetic field changes root gravitropism. Advances in Space Research 36:7, pages 1229-1236.
Crossref
Abraham R. Liboff. 2005. Advances in Electromagnetic Fields in Living Systems. Advances in Electromagnetic Fields in Living Systems 189 218 .
O.A. Ponomarev, S.I. Kubarev, I.S. Kubareva, I.P. Susak & A.S. Shigaev. (2004) The recombination of the geminate radical pairs in parallel combined magnetic fields. Chemical Physics Letters 388:4-6, pages 231-235.
Crossref
Vladimir N. Bingi & Aleksandr V. Savin. (2003) Effects of weak magnetic fields on biological systems: physical aspects. Uspekhi Fizicheskih Nauk 173:3, pages 265.
Crossref
Walter H. Chang, Kyle T. Chang & Jimmy Li. 2003. Biological Effects of Electromagnetic Fields. Biological Effects of Electromagnetic Fields 624 732 .
Dimitris J. Panagopoulos, Lukas H. Margaritis, Arthur A. Pilla & A. R. Liboff. 2003. Biological Effects of Electromagnetic Fields. Biological Effects of Electromagnetic Fields 4 113 .
F.S. Prato, M. Kavaliers & A.W. Thomas. (2002) Authors response. Bioelectromagnetics 23:5, pages 408-409.
Crossref
Mayumi Obo, Shiro Konishi, Yoshihisa Otaka & Satoshi Kitamura. (2002) Effect of magnetic field exposure on calcium channel currents using patch clamp technique. Bioelectromagnetics 23:4, pages 306-314.
Crossref
. 2002. Magnetobiology. Magnetobiology 424 467 .
V.N. Binhi, Ye. D. Alipov & I. Ya. Belyaev. (2001) Effect of static magnetic field onE. coli cells and individual rotations of ion-protein complexes. Bioelectromagnetics 22:2, pages 79-86.
Crossref
Frank S. Prato, M. Kavaliers & A.W. Thomas. (2000) Extremely low frequency magnetic fields can either increase or decrease analgaesia in the land snail depending on field and light conditions. Bioelectromagnetics 21:4, pages 287-301.
Crossref
Vladimir N. Binhi. (2000) Amplitude and frequency dissociation spectra of ion-protein complexes rotating in magnetic fields. Bioelectromagnetics 21:1, pages 34-45.
Crossref
N. Clarkson, M.S. Davies & R. Dixey. (1999) Diatom motility and low frequency electromagnetic fields?A new technique in the search for independent replication of results. Bioelectromagnetics 20:2, pages 94-100.
Crossref
Juris Galvanovskis & John Sandblom. (1998) Periodic forcing of intracellular calcium oscillators Theoretical studies of the effects of low frequency fields on the magnitude of oscillations. Bioelectrochemistry and Bioenergetics 46:2, pages 161-174.
Crossref
Vasily Vasilievitch Vorobyov, Evgeni Alekseevitch Sosunov, Nikolai Ilitch Kukushkin & Valeri Vasilievitch Lednev. (1998) Weak combined magnetic field affects basic and morphine-induced rat's EEG. Brain Research 781:1-2, pages 182-187.
Crossref
W. Sontag. (1997) Two experimental systems for exposure of cells to extremely low frequency electric fields suitable for in situ measurements of fluorescence signals. Bioelectrochemistry and Bioenergetics 44:1, pages 141-149.
Crossref
D. Jones & B. McLeod. 1996. Electrical Manipulation of Cells. Electrical Manipulation of Cells 223 247 .
Stefan Engström. (1996) Dynamic properties of Lednev's parametric resonance mechanism. Bioelectromagnetics 17:1, pages 58-70.
Crossref
Maria Teresa Santini, Cesare Cametti, Silvia Paradisi, Elisabetta Straface, Gianfranco Donelli, Pietro Luigi Indovina & Walter Malorni. (1995) A 50 Hz sinusoidal magnetic field induces changes in the membrane electrical properties of K562 leukaemic cells. Bioelectrochemistry and Bioenergetics 36:1, pages 39-45.
Crossref
Stephen D. Smith, Abraham R. Liboff & Bruce R. McLeod. 1995. Bioelectrochemistry of Cells and Tissues. Bioelectrochemistry of Cells and Tissues 245 282 .
John V. Podd, Craig J. Whittington, Geoffrey R. G. Barnes, Wyatt H. Page & Bruce I. Rapley. (1995) Do ELF magnetic fields affect human reaction time?. Bioelectromagnetics 16:5, pages 317-323.
Crossref
A. R. Liboff, S. D. Smith & B. R. McLeod. (2005) Comments on “clarification and application of an ion parametric resonance model for magnetic field interactions with biological systems,” by Blanchard and Blackman. Bioelectromagnetics 16:4, pages 272-273.
Crossref
Michael Levin & Susan G. Ernst. (2005) Applied AC and DC magnetic fields cause alterations in the mitotic cycle of early sea urchin embryos. Bioelectromagnetics 16:4, pages 231-240.
Crossref
S. J. Simske & M. W. Luttges. (2005) Suspension osteopenia in mice: Whole body electromagnetic field effects. Bioelectromagnetics 16:3, pages 152-159.
Crossref
Mark C. Deibert, Bruce R. Mcleod, Stephen D. Smith & Abraham R. Liboff. (1994) Ion resonance electromagnetic field stimulation of fracture healing in rabbits with a fibular ostectomy. Journal of Orthopaedic Research 12:6, pages 878-885.
Crossref
Ye.D. Alipov, I.Ya. Belyaev & O.A. Aizenberg. (1994) Systemic reaction of Escherichia coli cells to weak electromagnetic fields of extremely low frequency. Bioelectrochemistry and Bioenergetics 34:1, pages 5-12.
Crossref
William R. BennettJr.Jr.. (1994) Cancer and Power Lines. Physics Today 47:4, pages 23-29.
Crossref
J Swanson. (1994) Measurements of static magnetic fields in homes in the UK and their implication for epidemiological studies of exposure to alternating magnetic fields. Journal of Radiological Protection 14:1, pages 67-75.
Crossref
Alejandro Ubeda, María A. Trillo, Lucía Chacón, María J. Blanco & Jocelyne Leal. (1994) Chick embryo development can be irreversibly altered by early exposure to weak extremely-low-frequency magnetic fields. Bioelectromagnetics 15:5, pages 385-398.
Crossref
Stephen D. Smith, Bruce R. McLeod & Abraham R. Liboff. (1993) Effects of CR-tuned 60 Hz magnetic fields on sprouting and early growth of Raphanus sativus. Bioelectrochemistry and Bioenergetics 32:1, pages 67-76.
Crossref
David Weisbrot, Alun Uluc, Ann Henderson & Reba Goodman. (1993) Transcription in Drosophila melanogaster salivary gland cells is altered following exposure to low frequency electromagnetic fields: Analysis of chromosomes 2R and 2L. Bioelectrochemistry and Bioenergetics 31:1, pages 39-47.
Crossref
L A Coulton & A T Barker. (1993) Magnetic fields and intracellular calcium: effects on lymphocytes exposed to conditions for 'cyclotron resonance'. Physics in Medicine and Biology 38:3, pages 347-360.
Crossref
Silvia Paradisi, Gianfranco Donelli, Maria Teresa Santini, Elisabetta Straface & Walter Malorni. (1993) A 50-Hz magnetic field induces structural and biophysical changes in membranes. Bioelectromagnetics 14:3, pages 247-255.
Crossref
Glenn B. Bell, Andrew A. Marino & Andrew L. Chesson. (1992) Alterations in brain electrical activity caused by magnetic fields: detecting the detection process. Electroencephalography and Clinical Neurophysiology 83:6, pages 389-397.
Crossref
Reba Goodman, David Weisbrot, Alun Uluc & Ann Henderson. (1992) Transcription in Drosophila melanogaster salivary gland cells is altered following exposure to low frequency electromagnetic fields: Analysis of chromosomes 3L and X. Bioelectrochemistry and Bioenergetics 28:1-2, pages 311-318.
Crossref
Reba Goodman, David Weisbrot, Alun Uluc & Ann Henderson. (1992) Transcription in Drosophila melanogaster salivary gland cells is altered following exposure to low frequency electromagnetic fields: analysis of chromosomes 3L and X. Journal of Electroanalytical Chemistry 343:1-2, pages 311-318.
Crossref
Roland Glaser. (1992) Current concepts of the interaction of weak electromagnetic fields with cells. Bioelectrochemistry and Bioenergetics 27:3, pages 255-268.
Crossref
Roland Glaser. (1992) Current concepts of the interaction of weak electromagnetic fields with cells. Journal of Electroanalytical Chemistry 342:3, pages 255-268.
Crossref
G. Regling & H.-I. Rückmann. 1992. Wolff's Law and Connective Tissue Regulation. Wolff's Law and Connective Tissue Regulation.
S. D. Smith, B. R. McLcod & A. R. Liboff. 1992. Wolff's Law and Connective Tissue Regulation. Wolff's Law and Connective Tissue Regulation.
Reba Goodman, David Weisbrot, Alun Uluc & Ann Henderson. (1992) Transcription inDrosophila melanogaster salivary gland cells is altered following exposure to low-frequency electromagnetic fields: Analysis of chromosome 3R. Bioelectromagnetics 13:2, pages 111-118.
Crossref
Reba Goodman & Ann Shirley-Henderson. (1991) Transcription and translation in cells exposed to extremely low frequency electromagnetic fields. Bioelectrochemistry and Bioenergetics 25:3, pages 335-355.
Crossref
Reba Goodman & Ann Shirley-Henderson. (1991) Transcription and translation in cells exposed to extremely low frequency electromagnetic fields. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 320:3, pages 335-355.
Crossref
Daniel B. Lyle, Xinghua Wang, Robert D. Ayotte, Asher R. Sheppard & W. Ross Adey. (1991) Calcium uptake by leukemic and normal T-lymphocytes exposed to low frequency magnetic fields. Bioelectromagnetics 12:3, pages 145-156.
Crossref
Abraham R. Liboff & W. C. Parkinson. (1991) Search for ion-cyclotron resonance in an Na+-transport system. Bioelectromagnetics 12:2, pages 77-83.
Crossref
V. V. Lednev. (1991) Possible mechanism for the influence of weak magnetic fields on biological systems. Bioelectromagnetics 12:2, pages 71-75.
Crossref
W. De Loecker, N. Cheng & P. H. Delport. 1990. Emerging Electromagnetic Medicine. Emerging Electromagnetic Medicine 45 57 .
Lin-Xiang Wei, Reba Goodman & Ann Henderson. (1990) Changes in levels ofc-myc and histone H2B following exposure of cells to low-frequency sinusoidal electromagnetic fields: Evidence for a window effect. Bioelectromagnetics 11:4, pages 269-272.
Crossref
G.Jerome Beers. (1989) Biological effects of weak electromagnetic fields from 0 Hz to 200 MHz: A survey of the literature with special emphasis on possible magnetic resonance effects. Magnetic Resonance Imaging 7:3, pages 309-331.
Crossref
W. C. Parkinson & C. T. Hanks. (1989) Search for cyclotron resonance in cells in vitro. Bioelectromagnetics 10:2, pages 129-145.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.