We have demonstrated the existence of a pyramid power and have revealed its characteristics by strictly scientific experiments using biosensors. We also revealed the existence of a Bio-Entanglement, an entangled relationship between biosensors. A parallel study of biosensors (edible cucumber slices) had also been conducted, and we found that the circadian rhythm of gas concentrations emitted from biosensors changes seasonally. The pyramid power and Bio-Entanglement did not change the number of cycles in the periodic approximation curve representing circadian rhythm. Therefore, in this paper we analyzed the influence of the pyramid power and Bio-Entanglement, i.e., their influence on the phase, amplitude, and correlation coefficient of the periodic approximation curve representing the circadian rhythm of emitted gas concentrations. The main results are as follows. 1) The pyramid power shifted the phase of the periodic approximation curve representing the circadian rhythm by 43 minutes. 2) The amplitude of the periodic approximation curve changed with the pyramid power and the Bio-Entanglement. The effect on the lower and upper sections of the biosensors stacked in two layers was different, with a tendency to increase the amplitude of the lower layer and decrease the amplitude of the upper layer. 3) The pyramid power and the Bio-Entanglement affected the correlation coefficient between gas concentration and the periodic approximation curve representing the circadian rhythm of gas concentration. The effect on the lower and upper layers of the biosensors was different, with a tendency for the lower layer correlation coefficient to be larger and the upper layer correlation coefficient to be smaller. Previously we demonstrated that the pyramid power and the Bio-Entanglement affect the ratio of gas concentration, i.e., psi index Ψ. In this paper we demonstrate for the first time that the pyramid power and the Bio-Entanglement affect time, i.e., phase difference.
References
[1]
Goodspeed, D., Liu, J.D., Chehab, E.W., Sheng, Z., Francisco, M., Kliebenstein, D.J. and Braam, J. (2013) Postharvest Circadian Entrainment Enhances Crop Pest Resistance and Phytochemical Cycling. Current Biology, 23, 1235-1241. https://doi.org/10.1016/j.cub.2013.05.034
[2]
McClung, C.R. (2011) The Genetics of Plant Clocks. Burlington Academic Press, 74,105-139. https://doi.org/10.1016/B978-0-12-387690-4.00004-0
[3]
Endo, M., Shimizu, H., Nohales, M.A., Araki, T. and Kay, S.A. (2014) Tissue-Specific Clocks in Arabidopsis Show Asymmetric Coupling. Nature. 515, 419-422. https://doi.org/10.1038/nature13919
[4]
Farmer, E.E. (2013) Surface-to-Air Signals. Nature, 411, 854-856. https://doi.org/10.1038/35081189
[5]
Ozawa, R., Arimura, G., Takabayashi, J., Shimoda, T. and Nishioka, T. (2000) Involvement of Jasmonate-and Salicylate-Related Signaling Pathways for the Production of Specific Herbivore-Induced Volatiles in Plants. Plant and Cell Physiology, 41, 391-398. https://doi.org/10.1093/pcp/41.4.391
[6]
De Moraes, C.M., Mescher, M.C. and Tumlinson, J.H. (2001) Caterpillar-Induced Nocturnal Plant Volatiles Repel Conspecific Females. Nature, 410, 577-580. https://doi.org/10.1038/35069058
[7]
Yoneya, K. and Takabayashi, J. (2014) Plant-Plant Communication Mediated by Airborne Signals: Ecological and Plant Physiological Perspectives. Plant Biotechnology, 31,409-416. https://doi.org/10.5511/plantbiotechnology.14.0827a
[8]
Šimpraga, M., Takabayashi, J. and Holopainen, J.K. (2016) Language of Plants: Where Is the Word? Journal of Integrative Plant Biology, 58, 343-349. https://doi.org/10.1111/jipb.12447
[9]
Pélissier, R., Violle, C. and Morel, J.B. (2021) Plant Immunity: Good Fences Make Good Neighbors? Current Opinion in Plant Biology, 62, Article ID: 102045. https://doi.org/10.1016/j.pbi.2021.102045
[10]
Marmolejo, L.O., Thompson, M.N. and Helms, A.M. (2021) Defense Suppression through Interplant Communication Depends on the Attacking Herbivore Species. Journal of Chemical Ecology, 47, 1049-1061. https://doi.org/10.1007/s10886-021-01314-6
[11]
Kokubo, H., Takagi, O., Koyama, S. and Yamamoto, M. (2010) Spatial Distribution of Potential of Controlled Healing Power-Exploratory Measurement Using Cucumber as a Bio-Sensor. Journal of International Society of Life Information Science, 28, 236-249. https://doi.org/10.18936/islis.28.2_236
[12]
Kokubo, H., Takagi, O., Koyama, S. and Yamamoto, M. (2011) Discussion of an Approximated Equation for Special Distribution of Controlled Healing Power around a Human Body. Journal of International Society of Life Information Science, 29, 23-34. https://doi.org/10.18936/islis.29.1_23
[13]
Takagi, O., Sakamoto, M., Kokubo, H., Yoichi, H., Kawano, K. and Yamamoto, M. (2013) Meditator’s Non-Contact Effect on Cucumbers. International Journal of Physical Sciences, 8, 647-651. https://doi.org/10.5897/IJPS2012.3800
[14]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2015) Discovery of an Anomalous Non-Contact Effect with a Pyramidal Structure. International Journal of Sciences, 4, 42-51. https://doi.org/10.18483/ijSci.714
[15]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2016) An Unknown Force Awakened by a Pyramidal Structure. International Journal of Sciences, 5, 45-56. https://doi.org/10.18483/ijSci.1038
[16]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2019) Discovery of an Un-Explained Long-Distance Effect Caused by the Association between a Pyramidal Structure and Human Unconsciousness. Journal of International Society of Life Information Science, 37, 4-16.
[17]
Takagi, O., Sakamoto, M., Yoichi, H., Kawano, K. and Yamamoto, M. (2019) Potential Power of the Pyramidal Structure. Natural Science, 11, 257-266. https://doi.org/10.4236/ns.2019.118026
[18]
Takagi, O., Sakamoto, M., Yoichi, H., Kawano, K. and Yamamoto, M. (2020) Potential Power of the Pyramidal Structure II. Natural Science, 12, 248-272. https://doi.org/10.4236/ns.2020.125022
[19]
Takagi, O., Sakamoto, M., Yoichi, H., Kawano, K. and Yamamoto, M. (2020) Potential Power of the Pyramidal Structure III: Discovery of Pyramid Effects with and without Seasonal Variation. Natural Science, 12, 743-753. https://doi.org/10.4236/ns.2020.1212066
[20]
Takagi, O., Sakamoto, M., Kawano, K. and Yamamoto, M. (2021) Potential Power of the Pyramidal Structure IV: Discovery of Entanglement Due to Pyramid Effects. Natural Science, 13, 258-272. https://doi.org/10.4236/ns.2021.137022
[21]
Takagi, O., Sakamoto, M., Kawano, K. and Yamamoto, M. (2021) Potential Power of the Pyramidal Structure V: Seasonal Changes in the Periodicity of Diurnal Variation of Biosensors Caused by Entanglement Due to Pyramid Effects. Natural Science, 13, 523-536. https://doi.org/10.4236/ns.2021.1312046
[22]
Takagi, O., Sakamoto, M., Kawano, K. and Yamamoto, M. (2022) Potential Power of the Pyramidal Structure VI: Pyramid Effects due to Potential Power and Pyramid Effects Due to Bio-Entanglement. Natural Science, 14, 251-263. https://doi.org/10.4236/ns.2022.146025
[23]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2018) Discovery of Seasonal Dependence of Bio-Reaction Rhythm with Cucumbers. International Journal of Science and Research Methodology, 9, 163-175. https://www.researchgate.net/publication/331917254
[24]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2018) Relationship between Gas Concentration Emitted from Cut Cucumber Cross Sections and Growth Axis. International Journal of Science and Research Methodology, 9, 153-167. https://www.researchgate.net/publication/331917255
[25]
Takagi, O., Sakamoto, M., Kawano, K. and Yamamoto, M. (2022) Seasonal Changes in the Circadian Rhythm of Gas Released from Harvested Cucumbers. Natural Science, 14, 503-516. https://doi.org/10.4236/ns.2022.1411045
[26]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2016) Necessary Condition of an Anomalous Phenomenon Discovered by a Pyramidal Structure. Journal of International Society of Life Information Science, 34, 154-157.
[27]
Takagi, O., Sakamoto, M., Yoichi, H., Kokubo, H., Kawano, K. and Yamamoto, M. (2019) Discovery from the Experiment on the Unexplained Functions of the Pyramidal Structure—The Phenomenon Caused by the Personal Relationship. Journal of International Society of Life Information Science, 37, 60-65.
[28]
Takagi, O., Sakamoto, M., Yoichi, H., Kawano, K. and Yamamoto, M. (2020) Scientific Elucidation of Pyramid Power: I. Journal of International Society of Life Information Science, 38, 130-145.
[29]
Takagi, O., Sakamoto, M., Yoichi, H., Kawano, K. and Yamamoto, M. (2020) Meditator’s Non-Contact Effect on Cucumbers. In: Rafatullah, M., Ed., Theory and Applications of Physical Science, Book Publisher International, London, 105-113.
[30]
Kokubo, H., Takagi, O. and Koyama, S. (2010) Application of a Gas Measurement Method-Measurement of Ki Fields and Non-Contact Healing. Journal of International Society of Life Information Science, 28, 95-103.
[31]
Kokubo, H., Koyama, S. and Takagi, O. (2010) Relationship between Biophotons and Gases Generated from Cucumber Pieces. Journal of International Society of Life Information Science, 28, 84-94.
[32]
Hatanaka, A. (1993) The Biogeneration of Green Odor by Green Leaves. Phytochemistry, 34, 1201-1218. https://doi.org/10.1016/0031-9422(91)80003-J
[33]
Hatanaka, A. (1996) The Fresh Green Odor Emitted by Plants. Food Reviews International, 12, 303-350. https://doi.org/10.1080/87559129609541083
