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Human Ultraweak Photon Emission and the Yin Yang Concept of Chinese Medicine
Roeland van Wijk,Jan van der Greef,Eduard van Wijk 사단법인약침학회 2010 Journal of Acupuncture & Meridian Studies Vol.3 No.4
The relationship between connective tissue and meridian function is discussed in terms of energy transmission. The network of hydrogen-bonded water molecules interspersed within the collagen fibrillar matrix is especially significant for both the sensitivity of connective tissue to weak signals of mechanical pressure, heat, or electricity and the electrical intercommunication that may correlate with the meridian acupuncture system. Special electromagnetic properties of connective tissue have similar collective properties of ultraweak photon emission. A relationship between ultraweak photon emission and yin yang dynamics is based on three types of ultraweak photon emission studies, focusing on diurnal and annual dynamics, diseased states, and acupuncture points. A novel concept explains the functional (health) integrity of physiologic systems in relation to the left-right balance in ultraweak photon emission by pointing to, (1) balanced corticoneuromusculoskeletal activities and triboluminescent aspects of ultraweak photon emission by skeletal structures, and (2) local finetuning in oxygen supply and the formation of radical oxygen species. This approach offers testable hypotheses for further validation utilizing a combination of human photon recording techniques and specialized metabolomics for the estimation of organ-specific oxidative states.
Effects of relaxation techniques on ultra-weak photon emission
Eduard P.A. Van Wijk,Roeland Van Wijk 한국정신과학학회 2007 한국정신과학회 학술대회 논문집 Vol.27 No.-
Meditation is utilized as an adjunct to conventional medical treatment for several clinical conditions. Regular use of meditation is thought to often result in a more stable homeostasis, clinically reflected in good health. However, destabilization of homeostasis, for any reason, can lead to both increased molecular excited states and radiative relaxation. It can be measured with levels of excited molecules (e.q., reactive oxygen species), reaction products (e.q., lipid peroxide) and intensity of spontaneous ultra weak photon emission (UPE) (chemiluminescence). The present study recorded spontaneous UPE at multiple anatomic locations of subjects with long-term experience in meditation and compared the same with subjects having no meditation experience. The anatomic pattern of UPE of 20 subjects practicing TM compared to 20 subjects practicing OTM and 20 control subjects with no experience in meditation was registrated. Subjects were men reported to be healthy and nonsmokers. Recording was generally between 11.00 ㏂ -2.00 ㏘ UPE was recorded in a dark room using a highly sensitive, cooled photomultiplier system designed for manipulation in three directions. Data demonstrated emission intensities in the TM group and OTM group that were 27 and17 percent lower, respectively, compared to the control group, The decrease was recorded at all anatomic locations. The percent emission contribution of each location to total emission was very similar for the three groups. Thus, the anatomic pattern of UPE was similar for meditation practitioners and control subjects. Data supported that persistent meditation resulted in a higher degree of homeostasis (decreased UPE) and presumed lower oxidative stress. The TM technique resulted in the largest effect.
Induced Systemic Resistance and the Rhizosphere Microbiome
Bakker, Peter A.H.M.,Doornbos, Rogier F.,Zamioudis, Christos,Berendsen, Roeland L.,Pieterse, Corne M.J. The Korean Society of Plant Pathology 2013 Plant Pathology Journal Vol.29 No.2
Microbial communities that are associated with plant roots are highly diverse and harbor tens of thousands of species. This so-called microbiome controls plant health through several mechanisms including the suppression of infectious diseases, which is especially prominent in disease suppressive soils. The mechanisms implicated in disease suppression include competition for nutrients, antibiosis, and induced systemic resistance (ISR). For many biological control agents ISR has been recognized as the mechanism that at least partly explains disease suppression. Implications of ISR on recruitment and functioning of the rhizosphere microbiome are discussed.
Design and testing of a low subsonic wind tunnel gust generator
Lancelot, Paul M.G.J.,Sodja, Jurij,Werter, Noud P.M.,Breuker, Roeland De Techno-Press 2017 Advances in aircraft and spacecraft science Vol.4 No.2
This paper summarises the design of a gust generator and the comparison between high fidelity numerical results and experimental results. The gust generator has been designed for a low subsonic wind tunnel in order to perform gust response experiments on wings and assess load alleviation. Special attention has been given to the different design parameters that influence the shape of the gust velocity profile by means of CFD simulations. Design parameters include frequency of actuation, flow speed, maximum deflection, chord length and gust vane spacing. The numerical results are compared to experimental results obtained using a hot-wire anemometer and flow visualisation by means of a tuft and smoke. The first assessment of the performance of the gust generator showed proper operation of the gust generator across the entire range of interest.
Induced Systemic Resistance and the Rhizosphere Microbiome
Peter A.H.M. Bakker,Rogier F. Doornbos,Christos Zamioudis,Roeland L. Berendsen,Corné M.J. Pieterse 한국식물병리학회 2013 Plant Pathology Journal Vol.29 No.2
Microbial communities that are associated with plant roots are highly diverse and harbor tens of thousands of species. This so-called microbiome controls plant health through several mechanisms including the suppression of infectious diseases, which is especially prominent in disease suppressive soils. The mechanisms implicated in disease suppression include competition for nutrients,antibiosis, and induced systemic resistance (ISR). For many biological control agents ISR has been recognized as the mechanism that at least partly explains disease suppression. Implications of ISR on recruitment and functioning of the rhizosphere microbiome are discussed.
Yao Sadaiou Sabas Barima,Djedoux Maxime Angaman,Kobenan Pierre N`gouran,N`guessan Achille Koffi,Fidele Zamble Tra Bi,Roeland Samson 대한환경공학회 2016 Environmental Engineering Research Vol.21 No.2
In most African urban areas, Particulate Matters (PM) concentration exceeds by far the WHO limits. In these areas, plants can play a key role in removing particles. In this study, we evaluated three ornamental species (Jatropha interrigima, Ficus benjamina, Barleria prionitis) used in Abidjan Ivory Coast). Leaf-encapsulated saturation isothermal remnant magnetisation (SIRM) were measured and the relationship between PM captured and leaf wettability were done. The sampling were performed at roadsides and Parks. Firstly, Leaf-encapsulated and total leaf SIRM were quantified and the wettability was determined by drop contact angles (DCA). Secondly, the relationship between leaf SIRM and wettability was found. Results showed that leaf SIRM was two to ten times higher at roadsides than in Parks. Total leaf SIRM was also higher on mature leaves in Main roads suggesting a particle accumulation in leaves over time especially in waxy species (Ficus benjamina). This species encapsulated other than 20% of total leaf SIRM. All tested species were highly-wettable (40° < DCA < 90°). Thus, Jatropha interrigima with its leaf trichomes and F. benjamina with its leaf waxes were more wettable. A significantly positive correlation was found between wettability intensity and leaf SIRM.