To read the full-text of this research, you can request a copy directly from the authors.
Abstract
Crop quality and productivity are the fundamental strategies of agricultural practice and technology; consequently, one of the priorities in agriculture is to be aware of new and innovative field experiments and production practices. The effectiveness of innovative practices and resources is influenced by a multitude of factors. This study aimed to propose a new quantum-based approach in agriculture using homoeopathic methodology which incorporates theories and concepts of quantum physics and employs a wave-based methodology for the functional measurement phase. A novel utilization of thermal imaging technology is suggested, wherein each pixel of the image indicates the wave parameters, frequency, or amplitude of wave, is proposed to analyse the functional information of the plant. The relationship between the new quantum-agriculture-based method and the functional characteristics of flour as measured by bio-photonic emissions was estimated, and the findings of this preliminary study on wheat flour are presented. Our preliminary results (i) confirm the superior performance of quantum agriculture (QA) based proposed soil and plant treatments, and (ii) suggest that quantitative analysis based on precise measurements of biophoton emission will provide a novel reliable tool for monitoring the quality of wheat in the future. Further investigations are required to replicate the results of this study under different environmental conditions. Additionally, incorporating comparative chemical analyses that would enhance our knowledge of the proposed agronomic practice.
To read the full-text of this research, you can request a copy directly from the authors.
... Research related to downstream innovation has been conducted by [12][13][14][15][16][17][18][19][20][21][22][23][24][25][26][27]. However, the results of this study mainly discuss downstream technology in general on specific commodities. ...
The pace of downstream agricultural technology implementation by the government currently legs behind the needs of farmers and the advancement of modern science and knowledge. This study aims to1) analyze institutional patterns in the downstream application of innovative technology in agriculture, 2) examine farmers’ responses to downstream innovative technology, 3) identify the factors influencing the success of downstream innovative agricultural technology. The research was conducted in two districts across two provinces from December 2022 to September 2023, with case studies focusing on rice and shallot commodities. Data were collected through a survey of 240 randomly selected farmer respondents. Data analysis was performed qualitatively and descriptively, involving both formal and non-formal institutions from the central to regional levels. The results indicated that: 1) formal and non-formal institutional support from the central to regional levels significantly affected the downstream process of agricultural innovation; 2) farmers’ response to rice cultivation technology was more favorable than that to shallot cultivation technology; 3) internal factors such as age, education, farming experience, and land area, and external factors such as access to capital, technology, and transportation influenced the success of downstream agricultural innovation. In general, a deep understanding of these factors is crucial for designing more effective strategies to promote technology adoption among farmers. The government should consider the local characteristics of farmers in downstream innovation to increase production and productivity, thereby enhancing farmers’ economic income.
Spectroscopy has been shown to be a useful method to study the physicochemical properties of homeopathic preparations. In this pilot study, the aim was to compare two methods (photon scattering and visible-light spectroscopy) in the physical evaluation of Silicea terra 200cH. Two samples have been examined and compared: Silicea terra 200cH and Sac lac 200cH, both prepared in aqueous solution (Cemon Lab, Italy). Lactose was included because the first 3 potencies of Silicea terra are made by trituration in lactose. In the first test, performed in Italy, slight variations in chrominance and luminance due to micro-vibrational 3D phenomena were analyzed. The principle of the experimental procedure is to modify and analyse the incidence and refraction angles of the light hitting the bottles of liquid under examination. Measurements were made using an innovative camera device developed by Daniele Gullà, called MIRA/CORA (proprietary name). The image sensor is a Charge-Coupled Device (CCD)/ Complementary Metal Oxide Semiconductor (CMOS) with interferential matrix filter. A red laser beam, at wavelength 652 nm, hits the bottle and the variations of scattered light are recorded and measured by the device. All measurements have been performed in a dark room at a constant temperature of 22°C +/- 0,2°C using a filter with very narrow spectral bands (10 nm). Proprietary software analyses the incoming frames showing the spectral variations in amplitude and frequency and then interpolates variation in the measured data within a vibrational range between 0.01 Hz and 10 Hz. The measurements have been repeated three times on both Silicea terra 200cH and Sac lac 200cH within a few minutes of each other. Measurements of the mean entropy of the signals, statistically elaborated with T Student test, yielded a two tailed p value < 0.05, where the entropy of the signal recorded from the Silicea terra 200cH sample was statistically lower than the 200cH Sac lac sample. In the second test, performed in Brazil, variations in absorbance were used to identify Silicea terra 200cH compared with Sac lac 200cH and a control solution of non-succussed 30% alcohol, using six solvatochromic dyes, following the method developed by Cartwright [1,2]. Both homeopathic samples were imported from Italy, diluted 1:100 in 30% hydro-alcoholic solution, and submitted to 100 succussions using an automatic mechanical arm (Denise, AUTIC, Brazil) prior to being tested. Samples were inserted into dyes solutions in a 1:60 ratio, and evaluated by visible spectroscopy (FEMTO Spectrophotometer, Brazil). Dyes were prepared in ethanol P.A., according to previous established methods [3]. Samples and dyes were protected from light during the manipulation and environmental conditions of the laboratory (temperature, humidity, and magnetic flux) were monitored during the tests. Three series in triplicate were performed and the results were analyzed by ANOVA / Tukey, comparing both samples and the unsuccussed 30% hydroalcoholic control solution. Among all tested dyes, only BDN showed an interaction with Silicea terra 200cH, reproducing the conclusions obtained in [3]. We conclude that two different spectroscopic methods were able to differentiate Silicea terra 200cH from Sac lac 200cH, suggesting that changes in solvent organization could be involved in the homeopathic signaling process, along with changes in dipole moments of solvent and dyes. The results are potentially in line with a recent published paper [4], that supports the proposition that the lower entropy of the verum signal compared with controls could be explained by increased coherent vibrations of the verum sample, modulated by Nambu-Goldstone bosons. According to Del Giudice and colleagues [5], coherent behaviors are correlated with massless quasi-particles, coding ordering information.
Researchers have adopted the use of magnetic field as a new pre-sowing, environmental friendly technique. Enhancements on plant characteristics with economic impact on producer’s income could be the future of a modern, organic and sustainable agriculture. A field experiment was established at Soil Science Institute of Athens, Lycovrissi, Greece, in the winter of 2014. Two durum wheat cultivars were used. It was a pot experiment with 6 treatments (2 cultivars with 3 magnetic field time exposure). The seeds were treated using a PAPIMI electromagnetic field generator for 0, 30 and 45 minutes one day before planting. The experiment followed a completely randomized design with six treatments and 30 replications. The aim of this study was to evaluate the positive effect of magnetic field pre-sowing treatment in a wide range of plant measurements, including yield. The influence of pulsed electromagnetic field on two varieties of durum wheat seeds showed some statistically significant differences at the 0.05 level in growth measurements, physiological measurements and root growth measurements. Plant tissue analysis showed that magnetic field treatments had higher values than control in total nitrogen, phosphorus, potassium, magnesium, copper (only MF-45), zinc (only MF-30) and boron content, although values showed statistically significant differences only in total nitrogen. The results indicate that this innovative technique can increase the yield of durum wheat, through enhanced absorption of nutrients. Pre-sowing treatment of the seeds leads to vigorous plant growth that are more productive.
For over one hundred years parapsychological and intuition research has supported the existence of cognitive “knowing” beyond the physical senses. Additional quantum physics research over the past decades has indicated a quantum field at the subatomic level of connectedness that Schrödinger described as “entanglement.” Electrophysiological evidence of intuition has shown that the heart’s and the whole body’s perceptions are constantly receiving, processing, and decoding intuitive information. Perhaps the heart, or the heart’s electromagnetic field, may be a source of intuition. Telepathic interspecies communication may be facilitated by utilizing specific meditation techniques to quiet the mind, slow the brain waves, and shift consciousness to a level outside of time and space.
A hypothesis is proposed how Low Frequency Electromagnetic Field (LF EMF) exposure can stimulate an immune response, based
on recent insights in immunology. We hypothesize that the Immunent EMF treatment induces mild stress to cells, which then
produce cytokines that function as alarms or so called danger signals for the immune system. In this way EMF treatment takes
the place of multiplying pathogens, and the damage these cause, in the triggering of an immune response. In a first series
of experiments in␣vitro common carp head kidney-derived phagocytes were used to determine ROS production as a measure for
immune activation. Exposure to LF EMF signals (200–5,000Hz) at 5μT or 1.5mT led to 42 or 33% increase in immune activity,
respectively, compared to negative control values. EMF could also additionally stimulate chemically pre-stimulated samples
up to 18% (5μT) or 22% (1.5mT). Significance of increase in ROS production in the total series was: p<0.0001. In a second series of experiments in␣vitro commercial goldfish were used. Groups of fish were housed under equal
conditions in at least four control tanks and 8–16 EMF-exposed tanks. Exposure was done with a predominantly vertical field
at field strengths (rms) between 0.15 and 50μT. Without treatment mortality was about 50% after 18days, while the treatment
at 5μT reduced it to 20% on average. At field strengths 0.15, 0.5, 1.5, 5, 15 and 50μT an equally strong effect was found.
Reducing the field strength to 0.05, 0.06, 0.01 and 0.003μT showed a gradually decreasing effect, which only at 0.003μT
is no longer statistically significant. Finally, in␣vitro experiments were done with 560 commercial broiler chickens exposed
to infection pressure from coccidiosis. EMF exposure at 6.5μT reduced intestinal lesions by 40% and improved feed conversion
by 8%.
This study aims to contribute to a scientific understanding of intuition, a process by which information normally outside the range of conscious awareness is perceived by the psychophysiological systems. The first objective, presented in two empirical papers (Part 1 and Part 2), was to replicate and extend the results of previous experiments demonstrating that the body can respond to an emotionally arousing stimulus seconds before it is actually experienced. The second objective, to be presented in a third paper (Part 3), is to develop a theory that explains how the body receives and processes information involved in intuitive perception.
The study used a counterbalanced crossover design, in which 30 calm and 15 emotionally arousing pictures were presented to 26 participants under two experimental conditions: a baseline condition of normal psychophysiologic function and a condition of physiological coherence. Primary measures included: skin conductance; the electroencephalogram (EEG), from which cortical event-related potentials and heartbeat-evoked potentials were derived; and the electrocardiogram (ECG), from which cardiac decelerations/accelerations were derived. These measures were used to investigate where and when in the brain and body intuitive information is processed.
The study's results are presented in two parts. The main findings in relation to the heart's role in intuitive perception presented here are: (1) surprisingly, the heart appears to receive and respond to intuitive information; (2) a significantly greater heart rate deceleration occurred prior to future emotional stimuli compared to calm stimuli; (3) there were significant gender differences in the processing of prestimulus information. Part 2 will present results indicating where in the brain intuitive information is processed and data showing that prestimulus information from the heart is communicated to the brain. It also presents evidence that females are more attuned to intuitive information from the heart.
Overall, we have independently replicated and extended previous research documenting prestimulus responses. It appears that the heart is involved in the processing and decoding of intuitive information. Once the prestimulus information is received in the psychophysiologic systems, it appears to be processed in the same way as conventional sensory input. This study presents compelling evidence that the body's perceptual apparatus is continuously scanning the future. To account for the results presented in Parts 1 and 2, Part 3 will develop a theory based on holographic principles explaining how intuitive perception accesses a field of energy into which information about future events is spectrally enfolded.
Electric polarization waves predicted by Frölich in living cells are identified as the Goldstone massless modes which appear as a consequence of the spontaneous breakdown of the SU(2) dipole-rotational symmetry. This breaking is provided by the water polarization induced by Davydov solitons travelling on molecular chains. Also at: Istituto Nazionale di Fisica Nucleare, Sezione di Napoli, Naples, Italy.
The effect of 300 Hz, 1250 Hz, 5 kHz, and 12 kHz sound frequencies on the growth of Marquis spring wheat was investigated. Sound was added only during an extended (4-week) chilling period.The height, number of roots, number of tillers, and fresh and dry weights of the root and shoot systems were significantly larger in plants pretreated with 5 kHz sound, when compared with controls. The height, dry weight of roots, and fresh and dry weights of tops were also significantly larger in plants pretreated with 300 Hz sound. Plants pretreated with either 1250 Hz or 12 kHz frequencies did not differ significantly from controls.
Ecotechnology, refers to existing farm practices lacking scientific underpinning as to their efficacy ( e.g. installing water-vitalizers, techniques to assess vitality). Farmers view these as part of a new integral approach to farm management ( ¿energy balancing¿). With a network of farmers practicing ¿energy balancing¿ a learning process was set up according to the ideas of smart experimentation in strategic niche management. Farmers in this network expressed as their main wish ¿scientific proof of their methods¿ and a financial bonus for their way of farming. From the point of view of systems innovation the case is of interest because: a. The ambitions expressed by the farmers involves a series of innovations with increasing structural systemic resistance: - Break away from the present regime by searching for less intensive forms of farming. - Searching for recognition for the methods and approaches of energetic balancing. - Search for scientific evidence for energetic balancing by today still speculative theories on electromagnetic fields b. The network combines in itself several sources of knowledge. Striking is the presupposition that traditional scientific evidence is more needed for success than new alliances in market or with other groups in the alternative domain.
Bacterial cells enhance the proliferation of neighboring cells under stress conditions by emitting a physical signal. Continuous single sine sound waves produced by a speaker at frequencies of 6-10, 18-22, and 28-38 kHz promoted colony formation by Bacillus carboniphilus under non-permissive stress conditions of high KCl concentration and high temperature. Furthermore, sound waves emitted from cells of Bacillus subtilis at frequencies between 8 and 43 kHz with broad peaks at approximately 8.5, 19, 29, and 37 kHz were detected using a sensitive microphone system. The similarity between the frequency of the sound produced by B. subtilis and the frequencies that induced a response in B. carboniphilus and the previously observed growth-promoting effect of B. subtilis cells upon B. carboniphilus through iron barriers, suggest that the detected sound waves function as a growth-regulatory signal between cells.
The effects of pre-sowing magnetic treatments on growth and yield of tomato (cv Campbell-28) were investigated under field conditions. Tomato seeds were exposed to full-wave rectified sinusoidal non-uniform magnetic fields (MFs) induced by an electromagnet at 100 mT (rms) for 10 min and at 170 mT (rms) for 3 min. Non-treated seeds were considered as controls. Plants were grown in experimental plots (30.2 m(2)) and were cultivated according to standard agricultural practices. During the vegetative and generative growth stages, samples were collected at regular intervals for growth rate analyses, and the resistance of plants to geminivirus and early blight was evaluated. At physiological maturity, the plants were harvested from each plot and the yield and yield parameters were determined. In the vegetative stage, the treatments led to a significant increase in leaf area, leaf dry weight, and specific leaf area (SLA) per plant. Also, the leaf, stem, and root relative growth rates of plants derived from magnetically treated seeds were greater than those shown by the control plants. In the generative stage, leaf area per plant and relative growth rates of fruits from plants from magnetically exposed seeds were greater than those of the control plant fruits. At fruit maturity stage, all magnetic treatments increased significantly (P < .05) the mean fruit weight, the fruit yield per plant, the fruit yield per area, and the equatorial diameter of fruits in comparison with the controls. At the end of the experiment, total dry matter was significantly higher for plants from magnetically treated seeds than that of the controls. A significant delay in the appearance of first symptoms of geminivirus and early blight and a reduced infection rate of early blight were observed in the plants from exposed seeds to MFs. Pre-sowing magnetic treatments would enhance the growth and yield of tomato crop.
Camera for mechanical and electromagnetic vibrations, Hyperspectral Imaging