Non-Recurrent Ultrafast Phenomena - 1992 Part 1

Magazine Overview

This document comprises the working materials for the 3rd Tomsk International Interdisciplinary Scientific-Technical School-Seminar on "Nonperiodic Rapid Phenomena in the Surrounding Environment." The seminar took place from April 20-26, 1992, in Tomsk, Russia. This specific issue is designated as "Part I" and is published by SibNITS AYa in Tomsk in 1992, totaling 112 pages. The cover prominently features the seminar's title in both Russian and English, along with the dates and location.

Organizing Institutions and Content

The seminar was organized by several prominent Russian institutions, including the Tomsk Scientific Center of the Siberian Branch of the Russian Academy of Sciences, the Ministry of Science, Higher Education, and Technical Policy of the Russian Federation, Tomsk Polytechnic University, and the Siberian Scientific Research Center for the Study of Anomalous Phenomena in the Environment. The collected materials include papers submitted to the organizing committee and supported by participant contributions. These materials are categorized into three main sections:

• Noospheric Interactions
• Physical Ecology
• Natural-Technogenic Extreme Phenomena

Following the discussions at the seminar sessions, it is planned to republish the recommended reports in both Russian and English by the Editorial Board.

Article 1: The Problem of Method in the Study of Anomalous Phenomena

Authored by A.N. Malyuta and V.I. Galitskaya, this article addresses the methodological challenges in studying anomalous phenomena (AP). It defines AP as phenomena that cannot be explained by current scientific achievements (instrumental and methodological). The authors note that many research groups fail to adequately consider the unique nature of AP, attempting to explain them with conventional scientific tools, often leading to unsatisfactory results. This typically results in either the research group declaring their impotence or dismissing the phenomena outright, labeling enthusiasts as pseudo-scientists. Despite these difficulties, interest in AP persists throughout history, with periodic resurgences. The article identifies key characteristics of AP that complicate their study:

1. Unique nature: Each AP is unique, even if belonging to the same category, lacking repeatability and periodicity.
2. Fragmentary information: Data is often incomplete and contradictory, frequently relying on witness testimonies.
3. Multidimensional character: AP are generally multidimensional in quality.

The authors also discuss the typical approaches and means used in AP research, highlighting that researchers often rely on their existing resources without adequately assessing their suitability for the object of study. This reliance on enthusiasm can lead to unacknowledged errors in research and interpretation. Furthermore, the current scope of most scientific fields does not readily accommodate AP as a valid research object. Historical accounts of AP are often unconvincing or too ambiguous to serve as solid evidence. Psychological and social stereotypes, as well as governmental policies, also create barriers to AP research in Russia.

To overcome these challenges, the authors propose a systematic approach, including:

1. Conducting a situational analysis to understand the relationship between the object of study, its model, and the research methods.
2. Determining the adequacy of the research object and methods, justifying the object's place within the scope of the scientific approach.
3. Ensuring the chosen research method allows for the transition from its general principles to specific scientific disciplines for in-depth study of AP aspects without losing sight of the overall properties.
4. Utilizing modern tools for research support and data processing, such as computers and information-measurement systems.

The article suggests that invariant modeling, based on the theory of hypercomplex dynamic systems (GDS), is a promising variant for realizing this approach. This method is designed for studying complex, heterogeneous objects of arbitrary physical nature.

Article 2: Invariant Modeling and the Study of Anomalous Phenomena

Continuing from the previous article, this section delves deeper into the proposed invariant modeling methodology based on GDS. It asserts that AP, in their broad spectrum, are valid subjects for study within the framework of invariant modeling, due to the meta-theoretical nature of its core principles. The GDS theory allows for the description of AP at a modern level, not only based on current data but also by reinterpreting historical research within a contemporary, systemically interpreted framework. The theory enables understanding the regularities of AP behavior and development by studying the properties of their systemic models. The authors argue that traditional, closed, logic-analytical approaches, characterized by rigid determinism, are often insufficient and inefficient for studying AP. Mathematical, cybernetic, and informational approaches have historically struggled to construct a complete theory to explain AP. Invariant modeling overcomes this by offering a flexible theoretical-instrumental framework of basic systemic regularities and principles, adaptable to specific research conditions and the researcher's creative potential. This approach is presented as a virtual metatheory, facilitating a synthetic approach to constructing systemic models of research objects. Key aspects of the GDS theory include:

1. Generalization of circulation properties of system objects and their physical prototypes into a fundamental law describing the behavior of arbitrary GDS (principle of hypercomplex gyration).
2. Introduction of a principle that accounts for the properties of the subject of activity within the system of activity (principle of homocentrism).
3. Description of systemic features of all phases of the complete life cycle of an arbitrary system (principle of systemic realization).

4. Demonstration of the compatibility of field (continuous) and discrete (e.g., point) descriptions of any system (correlation of hypercomplex uncertainties).
5. Introduction of meta-theoretical concepts such as distance, model, space, and information, applicable to technical objects as well as AP in living nature.

The approach is described as having strong meta-theoretical and interdisciplinary properties, making it suitable for studying complex, heterogeneous AP using modern computer-aided tools. In a broader scientific context, invariant modeling based on GDS is viewed as a contemporary form of natural philosophy, synthesizing fundamental regularities of complex natural and social objects.

Article 3: Anomalous Phenomena as a Result of Collective Intelligence Activity

Written by V.M. Bernshtein, this article posits that the denial of anomalous phenomena (AP) by many scientists and educated individuals stems from rigid thinking and an unwillingness to accept concepts outside the framework of official science. It suggests that humans tend to reject what contradicts their everyday experience and that intuition is based on past experience. While acknowledging these factors, the author contends that the primary reason for rejecting AP lies in the inadequacy of the theories used to explain them. For instance, atheists may reject miracles supported by numerous testimonies because they associate them with religious beliefs. The author challenges the notion that intuition is solely tied to experience, suggesting that sudden insights or solutions to problems might result from subconscious logical analysis. The inadequacy of AP explanations is attributed to unsatisfactory, illogical, or contradictory theories. When observing a phenomenon, the question "how?" arises, and often, the proposed theory generates more "how?" questions. Examples include theories involving the existence of an immortal soul or attributing consciousness to inanimate objects. The article suggests that while these theories might hold some truth, it is crucial to consider theories based on more conventional principles that do not multiply the number of unexplained elements.

Literature

The document lists three works by A.N. Malyuta:

1. "Hypercomplex Dynamic Systems." Lviv: Vyshcha Shkola, 1989. 120 p.
2. "Regularities of Systemic Development." Kyiv: Naukova Dumka, 1990. 136 p.
3. "System of Activity." Kyiv: Naukova Dumka, 1991. 208 p.

Recurring Themes and Editorial Stance

The recurring theme throughout this issue is the challenge of studying anomalous phenomena (AP) and the need for new, more robust methodological frameworks. The seminar and the presented papers advocate for interdisciplinary approaches and advanced theoretical models, such as invariant modeling based on hypercomplex dynamic systems, to overcome the limitations of conventional scientific methods. There is a clear stance that AP are legitimate areas of scientific inquiry, despite historical resistance and methodological hurdles. The issue emphasizes the importance of developing systematic and comprehensive approaches to understanding complex and often elusive phenomena in the environment.

This issue of "IO" (identified by the page number '10') delves into the complex and speculative topic of collective consciousness (KP) in living organisms. The content appears to be a theoretical exploration, possibly from a scientific or pseudoscientific publication, focusing on how a shared, interconnected mind could explain a range of anomalous phenomena.

Collective Consciousness (KP) Hypothesis

The central theme is the hypothesis of a collective consciousness (KP) possessed by living organisms. This hypothesis is presented as a potential explanation for the targeted behavior observed in large groups of animals. The existence of KP, in a certain measure, is suggested to explain several phenomena:

1. Vast Inherited Information: An enormous volume of inherited information.
2. Extraordinary Abilities: Phenomenal capabilities of individual "counters" or sensitives.
3. Clairvoyance: The ability of sensitives to perceive events outside their direct field of vision, based on certain cues, and to recount past events.
4. Psychic Diagnosis and Healing: Extrasensory diagnostic and therapeutic abilities.
5. Reincarnation: The concept of "transmigration of souls."
6. Spiritism: The ability of certain sensitives to communicate with the deceased.
7. Poltergeists and UFOs: Aspects related to poltergeist activity and Unidentified Flying Objects.

Theories linking these phenomena to an "information field" or structures corresponding to an astral double or an immortal soul require these structures to possess memory blocks, coding/decoding mechanisms, and information processing capabilities. The author argues that the KP functioning, by encompassing the intelligence of individual members, simplifies these explanations, avoiding the need for material computational elements or complex biological structures.

Principles of Collective Consciousness

The issue outlines several postulates for defining KP:

• Telepathic Connection: KP implies the existence of telepathic communication between individuals. The existence of telepathy is considered established, though its mechanism remains unexplained.
• Neural Structures: It is hypothesized that structures within the central nervous system (or analogous organs in other organisms) are part of KP. In humans, these structures are believed to be within the subconscious.
• Levels of KP: KP can exist at various levels, uniting close relatives, distant relatives, or groups of individuals with long-term contact.
• Individual Integration: An individual can simultaneously belong to KP of different levels.
• Evolutionary Laws: KP is subject to the dialectical laws of living organisms, such as the struggle for existence and natural selection, functioning as a living organism itself. It can analyze situations and regulate individual activities for the survival of populations.

It is suggested that the subconscious of an individual within KP might function independently, guided by the interests of the population or the individual. Similar to human consciousness, the functioning of the subconscious related to KP can be difficult to motivate, distorted, or prone to illness.

The process of an individual's mind becoming part of KP begins at birth and continues throughout life, with information saturation occurring during growth and development. This information, often mistaken for genetic information, is proposed to explain paradoxical phenomena like the abilities of "wunderkinds" or the developmental delays in some children.

Phenomena Explained by KP

The KP hypothesis is used to explain several specific phenomena:

• Inherited Information: The vast amount of information exceeding that in a germ cell is attributed to KP, explaining identical abilities in twins or children and parents, and accounting for unusual naivety or wisdom in children.
• Unchangeable Behavior: The difficulty in "re-educating" a child raised in a feral environment is also linked to KP.
• Spousal Resemblance: The external similarity of spouses who did not resemble each other before marriage, and the similarity of unrelated people living together, are also considered.
• Reincarnation: The preservation of an individual's information within KP after death is presented as the mechanism for reincarnation.
• Clairvoyance and Psychic Abilities: "Seeing" by sensitives is explained as retrieving information from KP using specific cues like personal items, photographs, or names. Predicting the future is seen as either reading an individual's behavioral program, KP analyzing data to make a forecast, or even programming the future through suggestion.
• Telekinesis and Poltergeists: The issue posits that poltergeist phenomena could be manifestations of KP, which can act erratically, deceive, or "play tricks." It also suggests that telekinesis, demonstrated in experiments with energy transformations (like temperature increase or object movement), is possible through KP. Experiments by Uri Geller and others are cited.
• UFOs: Aspects of UFO phenomena are interpreted as the activity of KP, not necessarily extraterrestrial. Information perceived by contactees might be considered a "prank" or disinformation reflecting the current worldview of living people.

Limitations and Further Research

The author acknowledges that the presented KP concept is not definitively proven but offers it as a possible explanation for anomalous phenomena (АЯ). The issue concludes by referencing a bibliography of related works on topics such as reincarnation, psychic phenomena, UFOs, and telekinesis, indicating a broader context of research in these areas.

Recurring Themes and Editorial Stance

The recurring themes are the interconnectedness of consciousness, the potential for a collective mind, and the explanation of paranormal or anomalous phenomena through these concepts. The editorial stance appears to be open to speculative theories that attempt to provide a unified framework for understanding phenomena that defy conventional scientific explanation, while also acknowledging the need for further investigation and empirical evidence. The article emphasizes that "belief" and "disbelief" are incompatible with a scientific approach, suggesting a preference for a data-driven, albeit speculative, exploration.

This issue of "Nauka i Religiya" (Science and Religion) focuses on the concept of the information field (IP) and its potential applications, particularly through biolocation and the study of energy fields. The content explores theoretical frameworks, experimental findings, and analytical methods related to these phenomena.

Theoretical Frameworks and Experiments The issue begins by discussing experiments involving blood samples and a metallic frame pyramid. It was observed that placing a blood sample on top of a cone-shaped wire spiral pyramid (30x30 cm) led to a significant decrease in clotting time after two hours. Similarly, a metallic frame pyramid of the same size expanded the fluctuation spectrum of plasma clotting time (n=30). The pyramid construction also accelerated erythrocyte sedimentation rate. The analysis of blood in capillaries revealed a minimum in the third capillary out of six, and in the third out of seven, suggesting a point of inflection in non-equilibrium distribution related to the golden ratio. The authors caution that these results are not always reproducible.

The text then delves into the fundamental forces of interaction, including strong, weak, electromagnetic, and gravitational forces. It posits that the distant interaction of discrete objects and their mental images can be linked to the gravitational field. The origin of gravity itself is presented as problematic, with various theories attributed to Newton (mass), Einstein (space-time continuum tension), Kozyrev (local distortions of tension), Sakharov (vacuum fluctuation tensions), Dubrov (biological processes), Pushkin (thought-forms), and Gurvich (topological redistributions). These mechanisms are further connected to the concept of symmetry, dissymmetry, and asymmetry in the distribution of matter, space-time continuum tension, physical and physiological processes, and topological arrangements.

The Information Field and Biolocation The concept of the information field (IP) is introduced as a totality of information encompassing all objects and phenomena in the universe, past, present, and potentially future. The work of the author [1] is referenced, which outlines ten methods for obtaining information from this IP. This particular issue focuses on using biolocation techniques, specifically by observing the deflection angle of a vertically oriented frame, to obtain data from the IP.

The primary objectives of the research presented are to explore the capabilities of the information field using biolocation and to identify differences in the characteristics of fields between various organic forms (humans, animals, plants) and inorganic matter.

Analysis of Fields in Different Groups To assess the parameters of individuals, photographs were used, and three parameters were evaluated for humans: general field (characterizing the energy of the physical field), mind (ум), and mental field (МП) (reflecting the spiritual aspect). For animals, plants, and minerals, the general field parameter was excluded due to significant variations. Instead, only the mind and mental field parameters were considered.

Initially, the research focused on humans, specifically deceased individuals, to avoid potential discomfort. A total of 150 people were studied, divided into groups: physicists, writers, artists, and military leaders. The aim was to determine if there were differences in parameters among individuals from different groups or specialties.

Physicists: A notable difference was observed in the mental field (МП) between Russian and foreign scientists. For Russian physicists, the highest general energy field was noted in A.S. Popov, P.L. Kapitsa, and I.V. Kurchatov. The highest 'mind' parameter was found in L.D. Landau and S.P. Korolev, while the highest mental field was attributed to D.I. Mendeleev. A composite 'rating' based on these three parameters highlighted P.L. Kapitsa. For foreign physicists, the highest general field was observed in W. Röntgen, the highest 'mind' in M. Curie, and the highest mental field in G. Ohm. A comparison between Russian and foreign scientists indicated minor differences in general field and mind parameters, likely within the margin of error. However, a significant difference was found in the mental field, with Russian physicists showing a higher value (220°) compared to foreign physicists, suggesting greater spirituality.

Writers: Both Russian and foreign writers (poets, prose writers, and science fiction authors) were included. Differences in the three parameters between these groups were found to be insignificant and within the error margin. Notable Russian writers included L. Tolstoy, I. Efremov, and K. Simonov. Among foreign writers, M. Twain, D. Swift, and Dante stood out, with I. Goethe leading in rating.

Actors: For theater and film actors, the differences between the groups were also insignificant. A single notable difference was in the 'memory' parameter, which was higher in theater actors, possibly due to the demands of memorizing roles. Prominent theater actors included N.K. Simonov, R.Ya. Plyatt, and V.F. Komissarzhevskaya. For film actors, B.A. Babochkin, M.I. Zharov, and V.V. Merkuryev were highlighted.

Military Leaders: This was the largest group, comprising 32 individuals. The first seven, from Alexander the Great to Genghis Khan, represented medieval commanders. The subsequent group, starting with Peter the Great, included leaders and commanders from the War of 1812, the Civil War, and World War II. The group also included wartime leaders like I. Stalin, A. Hitler, D. Eisenhower, and W. Churchill. Marshal Kulik was included for contrast with outstanding commanders like A. Suvorov and G. Zhukov. The highest parameter values were observed in G.K. Zhukov, A.V. Suvorov, and Peter I.

Regular Structures and Physical Fields Another section discusses regular structures of biolocational anomalies and physical fields. It is suggested that the biolocational effect is a conditional reflex developed in response to external stimuli. The stability and intensity of this reflex depend on the individual's sensitivity and the external influence. Dowsers are known to detect underground mineral deposits, voids, and metallic objects. These anomalies are attributed to variations in known physical fields, such as temperature, electrical conductivity, gravitational field, and various types of radiation. The authors propose that these fields can manifest as a correlated aura around clusters of specific elements, forming the basis for developing reflexes for contactless detection of mineral resources.

These regular structures are described as global in character for the Earth, forming a grid with specific steps and intersection points. While different dowsers may identify variations of these grids (e.g., Curry grid, Vitman grid), they are based on discrete anomalies. The authors draw a physical analogy to crystal lattices, where connecting specific nodal points can form different grids. Some dowsers identify rectangular grids, while others detect diagonal lines. With increasing temperature, finer grids appear, described as spatial harmonics. Highly sensitive dowsers can sometimes map grids with a characteristic step of less than a meter. The text notes that at certain intersections, it can be dangerous to remain for extended periods.

Significant temporal changes in the intensity of these grid manifestations were also observed. The consensus is that external factors, rather than the dowser, are responsible for these changes. These variations can be quasi-periodic or have specific deviations, with diurnal and seasonal cycles identified. The Earth's surface, in relation to a dowser, is likened to the surface of the sea, with standing waves whose intensity changes over time.

The primary external factor influencing these anomalous grids is believed to be the electromagnetic field, particularly the atmospheric electrostatic field. The diurnal cycle of this field exhibits harmonics that correlate with the intensity of the biolocational effect. The spatial distribution is likely due to the instability of interacting charges near the Earth's surface, potentially influenced by more distant regions like the ionosphere and Earth's magnetic field. This charge system is considered both local and global. The atmospheric electric field, in particular, exhibits local changes that are integrated results of processes across the entire Earth's surface.

While the diurnal cycle of the atmospheric electric field is relatively synchronous globally, the intensity of biolocational anomalies does not strictly follow this cycle but rather correlates with certain harmonics (periods of 0.5-4 hours). The interaction is complicated by the opposing nature of atmospheric fields in clear and cloudy weather. The Earth's surface is covered with positive and negative charges, creating null lines. This forms a large-scale grid that dynamically defines others. These patterns change spatially and temporally.

The authors conclude that the result of local-global interactions of electromagnetic processes on a global scale serves as the external factor underlying the determination of regular structures in biolocational anomalies. These structures are seen as a link in the broader connection between humans, nature, Earth, and possibly the cosmos and the universe.

Literature Two references are provided: 1. Ya.Ya. Valdmanis, Ya.A. Dolacis, T.K. Kalninsh. "Connections in the surrounding environment based on long-range fields" // Periodic fast-flowing phenomena in the surrounding environment: Reports of the school-seminar, Tomsk, 1990. pp. 134-138. 2. "Ecological aspects of background fields of the environment": materials of the seminar. Riga: Salaspils, 1990, p. 86.

Recurring Themes and Editorial Stance The recurring themes in this issue revolve around the exploration of subtle energies, information fields, and their potential influence on biological and physical phenomena. The magazine appears to adopt an open-minded stance, presenting research and theories that bridge scientific inquiry with concepts that might be considered on the fringes of conventional science, such as biolocation, pyramid power, and the existence of an information field. The editorial stance seems to be one of investigation and presentation of diverse perspectives on these complex topics, encouraging readers to consider the interconnectedness of humans, nature, and the universe.

This issue of the magazine "Anomaliya" (Anomaly), dated 1991, presents a detailed comparative analysis of various parameters across a wide range of objects, including humans, animals, plants, and even geological formations and minerals. The study aims to quantify and compare aspects like intelligence ('ум'), mental field ('МП'), and a general field ('общее поле') across these diverse categories.

Human Parameters

The issue begins by categorizing humans into groups based on their professions, such as Russian physicists, foreign physicists, Russian writers, foreign writers, actors, and military personnel. It notes that military personnel, compared to six other groups, occupy a middle position in terms of these parameters. Certain individuals like L. Trotsky, K. Voroshilov, and A. Hitler are identified as 'outsiders,' with Hitler and his associates (Himmler, Bormann, Goebbels) exhibiting large negative values in the general field.

Animal Kingdom Parameters

The study then delves into the animal kingdom, dividing 63 representatives into 8 groups. The general field was excluded for animals due to significant mass variations (e.g., elephant vs. fly) and the lack of reliable correction methods. For subsequent groups (animals, plants, rocks), the identification of objects with maximum and minimum parameters is considered conditional due to the small sample size. The focus shifts to the average value of small samples and their deviation from the mean. It's noted that comparable parameters (intelligence and mental field) in animals are half that of humans. Domestic animals show varied results, with dogs having the highest indicators, while pigs and chickens have extremely low mental field values. Predators like foxes and wolves rank high, while lions and panthers are at the bottom. Herbivores are led by the aurochs (zubr). The 'Snowman' (Yeti) is discussed, with a photograph provided from an American journalist, A. Markosa. The analysis suggests Yeti has a high general field but low intelligence and spirituality, leading to the hypothesis that it might be a bio-robot.

Other Animal Groups

Snakes have parameters 2-3 times lower than herbivores, with cobras showing the highest values. Marine animals, particularly dolphins, exhibit the highest parameters, even exceeding those of humans when their data is included in the average. Excluding dolphins significantly lowers the group's average. Fish are next, with pike and zope leading. Birds show lower average characteristics than fish, with pigeons and albatrosses at the top. Insects rank last, with ants and bees showing low individual parameters but significantly higher group parameters for colonies and swarms.

Plant Parameters

Forty plant species are divided into four groups: cultivated plants and three groups from tropical, temperate, and northern climatic zones. Tropical plants have the highest intelligence parameters, which are half as high in cultivated plants and progressively lower in temperate and northern zones.

Rock and Mineral Parameters

Initially, the author expected zero values for intelligence and spirituality in rocks and minerals, assuming these were characteristics of living systems. However, research by P.T. Sharden, A. Klizovsky, and B.I. Isakov suggested inorganic matter could be 'alive.' Unexpectedly, the average intelligence parameter for rocks was 540 and the mental field was 525, surpassing all animals. Further tests on four mineral groups confirmed these findings, with oxide minerals showing the highest indicators. This leads to the conclusion that rocks and minerals possess intelligence and spirituality, suggesting planets, the Sun, and stars are living, thinking entities.

Comparative Analysis and Conclusions

The study highlights that human intelligence parameters are generally higher than spirituality, with the exception of theater artists. For insect colonies (ants, bees, locusts), collective intelligence and spirituality parameters increase significantly compared to individuals. The data for groups with 14-32 subjects are considered relatively reliable, but smaller groups (5-10 objects) require more data for statistical robustness. The author acknowledges the potential subjectivity of the data and suggests further study with experienced operators and independent observations.

Appendices and Literature

The issue includes several appendices (Приложение 1-4) presenting detailed tables of parameters for Russian physicists, foreign physicists, Russian writers, and foreign writers. These tables provide specific values for 'Общее поле' (General Field), 'Ум' (Intelligence), 'Ментальное поле' (Mental Field), and 'Рейтинг' (Rating) for each individual. The literature cited includes works on UFOs, physics, philosophy of science, and new age thought.

Recurring Themes and Editorial Stance

The recurring theme is the attempt to quantify and compare abstract qualities like intelligence and spirituality across a vast spectrum of existence, from individual humans and animals to geological formations and celestial bodies. The editorial stance appears to be one of open inquiry into unconventional scientific and philosophical concepts, suggesting that the boundaries between living and non-living matter, and even the nature of consciousness and the cosmos, may be far more interconnected and complex than traditionally understood. The magazine promotes a view that extends the concept of 'life' and 'consciousness' beyond biological organisms to encompass the entire universe.

This document is a collection of appendices from a publication, likely a magazine or journal, presenting detailed statistical data across a wide range of subjects. The appendices, numbered 5 through 11, cover parameters for actors, military leaders, animals, plants, and geological formations.

Appendix 5: Parameters of Theater Actors

This appendix provides a table listing theater actors with their 'General Field', 'Mind Field', 'Rating Field', and 'Memory' values. It includes prominent actors like F.I. Shalyapin, L.V. Sobinov, and V.F. Komissarzhevskaya. Statistical summaries such as minimum, maximum, average, and variance are provided for each parameter across the listed actors.

Appendix 6: Parameters of Cinema Actors

Similar to Appendix 5, this section details parameters for cinema actors, including 'General Field', 'Mind Field', 'Rating', and 'Memory'. Notable figures like V. Kholodnaya, M. Linder, and M. Monroe are listed. It also provides minimum, maximum, and average values for these parameters.

Appendix 7: Parameters of Military Leaders and War Commanders

This appendix presents data for military leaders and war commanders, including their 'War' experience, 'General Field', 'Mind Field', and 'Rating' (sum of columns 3-5). Figures like A. Makedonsky, Yu. Caesar, and Napoleon I are included. Statistical summaries are provided for each parameter.

Appendix 8: Parameters of Animals (Domestic, Predators, Herbivores, Snakes)

This appendix is divided into sections for different animal groups: Domestic Animals, Predators, Herbivores, and Snakes. For each animal, parameters like 'Intelligence' (Ум), 'Mental Field' (Ментальное поле), and 'Rating' (Рейтинг) are listed. Statistical summaries are given for each group.

Appendix 9: Parameters of Animals (Marine, Fish, Birds, Insects)

Continuing the animal data, this appendix covers Marine Animals, Fish, Birds, and Insects. Similar to Appendix 8, it provides 'Intelligence', 'Mental Field', and 'Rating' for each species, along with group statistics. A specific note mentions the exclusion of data for ant colonies, bee swarms, and locust swarms in the insect calculations.

Appendix 10: Parameters of Plants

This appendix categorizes plants by climate zone: Cultivated Plants, Tropical Zone, Middle Zone, and Northern Zone. For each plant, parameters such as 'Intelligence' (Ум), 'Mental Field' (Ментальное поле), and 'Rating' (Рейтинг) are provided. Statistical summaries are presented for each zone.

Appendix 11: Parameters of Rocks and Minerals

This final appendix details parameters for Rocks and Minerals, divided into Igneous Rocks and Vein Minerals. It lists values for 'Intelligence' (Ум), 'Mental Field' (Ментальное поле), and 'Rating' (Рейтинг) for each type. Statistical summaries are included for both categories.

Recurring Themes and Editorial Stance

The recurring theme throughout these appendices is the quantitative analysis and statistical comparison of diverse entities, from human performers and historical figures to the natural world and geological elements. The publication appears to adopt a data-driven approach, presenting complex information in tabular format with statistical summaries, suggesting an interest in objective measurement and comparative analysis across different domains. There is no explicit editorial stance, but the focus on data suggests a scientific or analytical perspective.

This issue, identified by the number '50' and 'II' (likely volume and issue indicators), presents a continuation of 'Appendix II' on page 50. The content is primarily tabular data and research articles related to geology, mineralogy, and unconventional energy properties of materials.

Table 2: Parameter Values for Various Subjects

Pages 51-54 are dominated by Table 2, which meticulously lists maximum and minimum values for various parameters (likely related to dowsing or energy fields, indicated by 'Ум', 'Духовность', 'Рейтинг' - roughly translated as 'Intelligence/Mind', 'Spirituality', 'Rating') across a broad spectrum of subjects. These include:

• Minerals and Rocks: Sulfide minerals (pyrite, chalcopyrite, molybdenite, galena, sphalerite, cinnabar), native minerals (mercury, gold, copper, silver, diamonds), oxide minerals (ice, water, cassiterite, wolframite, hematite), and various rock types.
• People: Categorized by profession, including Russian physicists (14 individuals), foreign physicists (17 individuals), Russian writers (24 individuals), and foreign writers (22 individuals). Specific individuals like I.E. Tamm, M.V. Lomonosov, A.F. Ioffe, P.L. Kapitsa, A.S. Popov, I.V. Kurchatov, S.P. Korolev, L.D. Landau, D.I. Mendeleev, V. Röntgen, M. Curie, G. Ohm, A.M. Ampere, A. Poincaré, S. Yesenin, A.R. Belyaev, I.A. Goncharov, L.N. Tolstoy, I.A. Efremov, and K.M. Simonov are listed with associated parameter values.
• Animals: Including domestic animals (cow, pig, dog, cat), predators (lion, panther, wolf, fox), herbivores (giraffe, hippopotamus, monkey, bison), marine animals (shark, dolphin, seal), fish (flounder, pike, tuna), and birds (sparrow, crane, parrot).
• Plants: Categorized by zone, including temperate zone plants (poplar, oak, birch, pine, cedar), northern zone plants (dwarf birch, pine, cedar), plants of the middle zone (oak, poplar), and tropical zone plants (baobab, sequoia, eucalyptus).
• Insects: Including various species.

The table provides numerical values for 'Ум', 'Духовность', and 'Рейтинг', along with calculated averages and standard deviations for some categories.

Article 1: Application of Biolocation in Detailed Mapping of Quartzites

Pages 55-57 feature an article by G.G. Tokarenko, V.P. Skavinsky, and I.V. Dolgov titled "Application of Biolocation in Detailed Mapping of Quartzites." The authors highlight the high effectiveness of biolocation in geological exploration, citing practical results on various deposits. They describe a study conducted at a quartzite deposit, detailing the geological context (carbonate-siliceous-shale formation) and the complexities of the rock structure (flexures, folds, zones of intense deformation). The study involved biolocational surveying using a P-shaped dowsing rod with a revolution counter, with a step of five meters. The results, presented as the number of revolutions per unit length, are shown in Figure 1. The article suggests that biolocation can successfully map complex geological objects, even those lacking clear anomalous factors, and claims its effectiveness surpasses that of geophysical methods in such cases. Table I in this section compares the effect of different resonators (slate, quartzite) on the biolocational signal.

Article 2: Energy-Informational Effects of Decorative and Facing Stones

Pages 58-60 present an article by V.E. Landa and A.K. Kuzmin titled "Energy-Informational Effects of Decorative and Facing Stones." This article addresses the growing interest in the jewelry and facing stone industry. Beyond standard characteristics like strength, color, and decorative appeal, the authors focus on 'unconventional' characteristics, specifically the 'internal energy' of stones and their impact on living organisms and objects. They refer to ancient texts that attribute various healing properties to gemstones. The research involved dowsing operators assessing the 'healing effect' or 'energetic potential' of stone samples. They describe methods for measuring these properties using P- and Г-shaped dowsing rods, including the angle of rotation, the distance of perception, and the 'sign of charge' (left turn for positive, right for negative). The intensity of 'microlepton radiation' is said to vary with the sample's form, being stronger from unpolished surfaces and sharp edges. The authors recommend specific stone types with high energetic potential, such as amazonite granite, andesite-basalts, gabbroids, labradorite, marble, magnesite, and tuffs, for development and use in construction, including metro stations and buildings.

Recurring Themes and Editorial Stance

The issue strongly emphasizes the exploration of unconventional methods and properties related to minerals, rocks, and natural materials. Biolocation and the concept of 'energy-informational effects' of stones are presented as valid and effective research areas, with claims of superiority over traditional methods in certain applications. The detailed tabular data suggests a systematic approach to quantifying these phenomena. The editorial stance appears to be one of promoting and validating these less conventional scientific approaches within the context of resource exploration and material science.

This issue of "NAUKA I RELIGIA" (Science and Religion), number 10, published in October 1992 by the "Nauka" Publishing House, is dedicated to exploring the intersection of scientific inquiry and phenomena often considered outside mainstream science. The cover prominently features the headline "UNIDENTIFIED OBJECTS IN SPACE" alongside an illustration of a UFO, signaling a focus on anomalous aerial phenomena. The magazine is priced at 1 ruble 50 kopecks and has an ISSN of 0869-6607.

Energy-Information Effects of Stones

The issue delves into the "energy-information effects" of various облицовочные (facing) and поделочные (decorative) stones on the human organism. The research, conducted using polished tiles and various forms of stone samples, investigates the effects of chalcedony, jadeoids, serpentine, listvenite, and amazonite. Chalcedony (orange to reddish-brown) and jadeoids (with inclusions of asbestos, magnetite) are noted for their calming effect on the cardiovascular, circulatory, and central nervous systems, and their ability to relieve headaches, with effects perceivable up to 2 meters away. Jade (green, dark green, black, with magnetite) exhibits high energy (up to 1800°), reportedly aiding in the treatment of kidney diseases and vibrational illness. Amazonite and serpentine (bioenergy up to 1080°, perception up to 1.2 m) positively influence the central nervous system and heart rhythm, with serpentine also possessing anti-inflammatory properties. Amazonite and listvenite support the functioning of the gastrointestinal tract and urinary system. However, the study also identifies negative effects: listvenite can negatively impact the liver and hormonal system, amazonite can raise blood pressure, and jade can affect the circulatory system and reproductive functions, depending on the stone's composition.

Basalt (fine, medium, coarse-grained) and labradorite, with similar energy levels (up to 1440°), perform different functions. Basalt stimulates brain activity and the genitourinary system, aiding in toxin removal. Labradorite enhances the body's working tone and may be beneficial for lung diseases, though it can also increase ocular and intracranial pressure, which syenite can help reduce.

Calcite and ophicalcite are found to accelerate bone tissue healing in fractures and reduce joint pain. Further research is ongoing into ophicalcite's benefits for sciatica, osteochondrosis, and inflammatory conditions. The study also examines tufolavas, amazonite granite, quartzites, and marbles. Amazonite granite and tufolavas (up to 1260°) positively affect the central nervous system and muscle activity. Tufolavas (red, gray, ochre-brown) benefit the liver, gastrointestinal tract, and circulatory system. Quartzite may be useful for thyroid issues but is contraindicated for the liver and intestines.

Marbles with high energy (up to 2180°) and various structures (white-pink, landscape, striped gray, white, pink, pink-violet, etc. – 14 varieties studied) positively impact the central nervous system and gastrointestinal system. They are also beneficial for heart conditions (arrhythmia, ischemia, angina, post-infarction recovery), alongside jaspers and chalcedony.

Biolocational Method (BLM) in Hydrogeology and Geoecology

A significant portion of the issue is dedicated to the application of the biolocational method (BLM) in hydrogeology, geoecology, and environmental protection, authored by V.E. Landa. BLM research in the Transbaikal and Baikal regions aims to solve hydrogeological and ecological problems. Using BLM, researchers conduct rapid searches for fissure and alluvial waters near deposits, cities, settlements, and resorts. BLM helps identify deep faults (water-bearing and gas-bearing), locate thermal and mineral waters in artesian basins, and map tectonic fractures. The method utilizes P- and Г-shaped frames, with or without resonators, to identify and fix faults, and to locate fresh, mineral, or wastewater sources, estimating their depth and yield.

BLM is described as a method of selective biolocation. It allows for rapid water searches, tracing water movement, obtaining operational information on groundwater regimes, and refining the structural-tectonic characteristics of water intake areas. Case studies from the Nerchinsk and Aginskoye water intake areas reveal water-bearing horizons at depths of 4-15 meters with an alluvial and fissure-vein character. In the Balei region, BLM identified tectonic disturbances, leading to the drilling of 39 exploratory wells, 60% of which revealed fissure-vein water-bearing horizons with good yields. Some wells were self-flowing from depths of 50-60 meters.

BLM is highlighted as an effective express method for hydrogeological surveys in fractured and disturbed rocks within artesian basins. Its integration with aerial and space imagery analysis and verification drilling enhances its effectiveness. BLM applications have been conducted in northern and southern Buryatia and the Baikal Lake coastal zone since 1989.

In the Irokinskaya depression, BLM was used to locate fissure-vein waters in tectonic zones, confirming their presence through drilling. This led to the discovery of significant underground water reserves for the Irokinsky GOK, resulting in economic savings of over 1.2 million rubles by reducing the cost of water pipeline construction.

In built-up areas where geophysical surveys are difficult, BLM combined with exploratory drilling is effective. In Zakamenk, BLM identified a tectonic structure confirmed by a 30-meter well that found a water-bearing horizon at 26 meters. In Mondy, Okinsky district, BLM identified anomalies that led to the discovery of water-bearing zones sufficient for the entire settlement's drinking water needs.

BLM is also effective in limited areas of the Baikal Lake coastal zone, including marshy and forested areas. Detailed exploration for drinking water supply in Goryachinsk in 1990-1991 utilized BLM, identifying tectonic zones parallel to the Baikal coastline and sub-meridional and north-western zones. These identified zones were confirmed by drilling, revealing pressurized fissure-vein waters at depths of 110-140 and 165-180 meters. The potential for long-term water supply for Goryachinsk was confirmed by a 40-day pumping test from two wells yielding 20 liters/second.

In 1991, BLM identified a site for a water intake in Barguzin, associated with a powerful underground flow of groundwater in water-ice deposits. The "Hydroscope" apparatus is also mentioned as a tool for obtaining information on water distribution and depth without drilling.

BLM studies in the Yablonovy Range helped determine the regime of mineral springs. The formation of Lake Arey was suggested to be at the intersection of major tectonic zones. BLM has also been used to identify water inflows in granodiorites and to study underground water regimes in the Lake Arachley area, revealing CO2 and helium emissions indicative of deep faults.

BLM is being used to study the structural-hydrogeological characteristics of the Chitino-Ingodinsky and Verkhne-Khiloksky artesian basins. Regional faults have been identified near lakes Arachley and Shaksha, potentially serving as conduits for juvenile fissure waters. Shallow wells (25-30 m) along the lake shores have revealed water-saturated zones linked to tectonic faults.

Selective biolocation is successfully applied in the search for mineral waters, particularly in active tectonic zones. The formation of siliceous thermal and mineralized waters is linked to Mesozoic-Cenozoic tectonic-magmatic activation and regional deep fault zones. BLM has identified mineralized water outlets at intersections of faults in mining areas. Specific mineral springs, such as those in Kuk, Molokovka, Darasun, Urguchan, and Shivanda, are located at intersections of tectonic disturbances and fissure-vein waters identified by BLM.

The issue concludes by suggesting improvements to BLM methodology, including the use of gas-filled flasks (radon, helium) as resonators and biologically active points (BAP) of the operator, along with specific spiral resonators, to enhance signal detection from deep faults. The use of mercury thermometers for assessing the geodynamic characteristics of water-bearing tectonic structures is also proposed.

In the context of geoecological research and environmental protection, selective biolocation is recommended for the rapid identification of pollution sources like wastewater, solid waste, and heavy metal plumes reaching the surface via the atmosphere.

Recurring Themes and Editorial Stance

The magazine consistently explores phenomena that lie at the fringes of conventional scientific understanding, such as UFOs and the purported energy-information effects of natural materials like stones. It advocates for the integration of alternative methods, such as biolocation, into established scientific disciplines like hydrogeology and geoecology, presenting them as effective tools for practical problem-solving and resource exploration. The editorial stance appears to be one of open-minded inquiry, seeking to bridge the gap between traditional scientific paradigms and less conventional, yet potentially valuable, investigative techniques. The focus on practical applications, economic benefits, and environmental relevance underscores a pragmatic approach to these subjects.

This document, identified by the page number '70' and subsequent pages '71' through '78', appears to be a section from a Russian-language scientific or technical magazine focusing on environmental issues, geology, and the application of biolocation (БЛМ) in these fields. The content delves into the use of biolocation for detecting and monitoring various environmental hazards, particularly concerning groundwater pollution and geological stability.

Groundwater Pollution and Biolocation

The articles discuss the significant threat of groundwater contamination from various sources, including industrial wastewater, agricultural runoff, and landfills. Biologation is presented as an effective method for identifying pollution sources, tracing the migration pathways of contaminants, and assessing the extent of contamination. Specific examples include detecting petroleum products, heavy metals (such as mercury, lead, copper), fluorine, phenols, and pesticides in groundwater.

Biologation is described as a technique that uses a 'resonator' (e.g., a water sample with specific contaminants, a vial with oil, or a mercury thermometer) to detect anomalies. This method is applied to identify leaks from wastewater systems, defective wells, and to trace the movement of polluted water to its discharge points. The text highlights successful applications in the Transbaikal region, including at meat processing plants and poultry farms.

Geoecological Monitoring and Hazard Detection

Beyond water pollution, biolocation is presented as a tool for broader geoecological monitoring. It is used to assess the saturation of landfills, identify potential chemical compositions, and track infiltrating waters that could contaminate water intake points. The method is also employed in regional and local geoecological monitoring programs, focusing on water intake stations, landfills, quarries, and other structures.

Biologation is also crucial for identifying and monitoring geological hazards. It is used to detect defective boreholes, sinkholes, and ground subsidence, which can impact infrastructure like buildings and roads. In seismically active regions, biolocation is suggested for monitoring rock stress and tectonic activity to help predict and prevent earthquakes and landslides. The text mentions its application in identifying fault tectonics, which can cause flooding in settlements.

Specific Applications and Case Studies

Several case studies illustrate the practical application of biolocation:

• Transbaikal Region: Biologation was used to assess potential contamination of groundwater with high chloride content near meat processing plants and poultry farms, involving the drilling of small hydrogeological wells.
• Chita GRES: The method helped determine the pathways of groundwater filtration from a hydro-ash disposal site, which had led to flooding and waterlogging.
• Lake Baikal: Biologation was used to identify and eliminate mercury spills on the western shore of Lake Baikal, mapping the extent of contamination around various facilities.
• Armenia Earthquake: Chita psychics and biolocation operators reportedly predicted an earthquake in Armenia by identifying a synchronization of Earth's crust stress and the biofield of the population.

Energy-Information Exchange and Human Health

The document also touches upon the concept of 'energy-information exchange' between humans and nature, suggesting that timely exchange can help prevent emergencies related to industrial activities and natural disasters. Medical biolocation is mentioned as a method for diagnosing environmentally induced illnesses and occupational diseases, including those caused by mercury, aluminum, and cadmium poisoning.

Limitations and Recommendations

While promoting biolocation as a versatile and effective tool, the text implicitly acknowledges its nature as an 'extrasensory method of influence and perception.' It recommends wider application and further research, particularly in conjunction with geophysical and hydrogeological studies. The document emphasizes the need for integrated approaches to environmental monitoring and hazard assessment.

Recurring Themes and Editorial Stance

The recurring themes throughout these pages are the critical importance of protecting groundwater resources, the utility of biolocation as a diagnostic and monitoring tool for environmental and geological hazards, and the interconnectedness of human activities, the environment, and natural phenomena. The editorial stance clearly favors the adoption and further development of biolocation techniques as a valuable supplement to traditional scientific methods in addressing complex environmental and geological challenges. The text advocates for a proactive approach to preventing pollution and mitigating the impact of natural disasters.

This document appears to be a collection of articles from a scientific or technical magazine, focusing on the application of biolocation and related methods for geological exploration and environmental studies. The content is primarily in Russian.

Article 1: Biolocation and Biogeochemical Surveys on Territories with Ancient Workings This article discusses the use of biolocation (dowsing with metal frames) as a method for searching for mineral deposits, particularly in areas with historical mining activities. The authors, A.L. Kovalevsky and V.E. Landa, suggest that territories with ancient workings often correspond to ore fields with industrial mineral deposits. They highlight that dowsing has a long history, dating back thousands of years in various cultures. The article emphasizes that modern selective ore-resonance biolocation searches are qualitative and can be effectively used in conjunction with other methods like biogeochemical surveys to select promising areas for detailed exploration.

The authors describe a study in Buryatia where thousands of ancient pits (shurfs) and two ancient water channels were identified over a 30 km² area. They propose that zones with a high density of these pits can be considered ancient quarries. The age of these workings ranges from several hundred years to the 20th century. A detailed biogeochemical survey was conducted on a smaller area (3 m²) within this region, analyzing over 12,000 samples for 47-55 elements.

The study identified three zones of concentrated findings with 42, 35, and 12 presumed ore-biogeochemical anomalies (PRBA) of silver, belonging to three geochemical types: lead-bearing, slightly lead-bearing, and lead-free with visible gold. Some silver-bearing zones were also found to be associated with platinum-bearing zones. It was noted that many of the shallow trenches dug to expose PRBA of silver were located in areas of concentrated ancient pits, indicating that the locations of these silver-bearing zones were known to ancient prospectors.

Further investigations involved auto- and pedestrian biolocation surveys using various resonators (silver, gold, platinum, lead, galenite, and platinum-bearing sulfide). These surveys confirmed the presence of linear and narrow zones with silver, platinum, gold, and lead mineralization. The biolocation anomalies correlated well with the dense areas of ancient pits, suggesting that ancient prospectors used dowsing to search for precious metal mineralization.

The article concludes by recommending a comprehensive approach for exploration in similar areas, including:
1. Identifying and outlining areas of ancient workings, paying attention to zones of concentrated old pits (ancient quarries), using biolocation scanning of maps and detailed aerial and space imagery.
2. Conducting aerial or auto-biolocation surveys with multiple resonators on areas of ancient workings, followed by detailed pedestrian biolocation surveys, geological studies, and sampling of rocks, soils, and plants in the epicenters of intense biolocation anomalies (BLA).
3. Performing detailed biogeochemical surveys (1:500 to 1:5000 scale) on potential ore stockworks identified from ancient pit concentrations and interesting BLA.
4. Evaluating PRBA using shallow trenches. If industrial ore is found, conducting detailed geological, biolocation, biogeochemical, and geophysical surveys over the entire area of ancient workings, and verifying newly identified PRBA with drilling, considering the possibility of zonal distribution of different ore types within the ore field.

Article 2: Investigation of Natural-Technogenic Zones at a Radio Relay Station This article, authored by A.K. Kuzmin, O.V. Vorontsov, and V.E. Landa, focuses on the study of geopathogenic (GPZ) and technopathic (TGZ) zones, which are areas that cause anomalous energy-information fields and negatively affect biosystems, leading to various diseases in humans and animals.

Technopathic zones are defined as areas resulting from human activity that has altered the natural environment, including energy-emitting technology like radiotelegraph radars, high-voltage power lines, underground communication cables, chambers, and mining waste. The study specifically examined the territory of the "Orbita-2" radio relay station in Kyakhta (Buryatia) using biolocation to identify GPZ and TGZ, and to assess their impact on the station's systems and the possibility of neutralizing their negative effects, which are attributed to the radiation from radio equipment operating in both normal and standby modes.

To analyze diseases and their connection to the negative impact of GPZ and TGZ, bioenergetic-informational diagnostics of the station's personnel were conducted by psychics and biolocation operators. The research was carried out in the first half of 1991, during both nighttime (full moon period) and daytime, using frame biolocation, clairvoyance, and extrasensory perception methods. The methods used were cross-checked, and measurements were repeated with daily rhythm variations. The study aimed to understand the distribution of geopathogenic zones on the territory, their characteristics, and their intensity of impact on humans. Technogenic impacts from the station's equipment were also assessed using a relative ten-point scale.

The results indicated a large number of geopathogenic zones at the "Orbita" territory. Two of these zones were found to be similar in character and intensity of impact on the skeletal system and endocrine glands, and also affected blood composition, suppressed willpower, and caused rapid fatigue. The intensity of these zones was rated at 4-5 points, with maximum impact occurring between 10:00 and 14:00 hours. Neutralizers suggested for these zones included yin-essence plants (indoor plants like aralia, aloe vera, chlorophytum, cyperus, sansevieria, clivia), green spaces, and pastel-toned interiors with mirrors. The effects of GPZ could be mitigated through water procedures.

A third zone, rated at 5 points, negatively affected the function of the intestines and female reproductive organs, with maximum impact between 17:00 and 19:00 hours. Neutralizers for this zone included colorful interiors, truncated pyramids, silver and gold jewelry, pleasant-smelling substances and plants, and tea with herbs. A fourth zone had an undesirable effect on the stomach and urinary system, with an intensity of 2-3 points, peaking between 02:00 and 04:00 hours. Neutralizers for this zone were suggested to be yang-essence items (ceramics, amber, carnelian), non-synthetic clothing, and remedies like strong tea and physical activity.

Recurring Themes and Editorial Stance The recurring themes in this issue revolve around the application of unconventional methods, particularly biolocation (dowsing), for practical purposes such as mineral exploration and assessing environmental impacts on human health. The articles suggest a belief in the efficacy of these methods, often correlating them with scientific or geophysical findings, and propose them as valuable tools alongside traditional techniques. The editorial stance appears to be one of exploring and validating these alternative approaches within scientific and practical contexts.

This issue, comprising pages 90-99, focuses on the study of anomalous phenomena related to geologically active zones, referred to as geopathic zones (GPZ) and technopathic zones (TPZ). The primary research area highlighted is the Baikal region, with specific attention to Ulan-Ude. The content delves into the potential health impacts of these zones, methods of their detection and mapping, and documented occurrences of unexplained events.

Geopathic and Technopathic Zones

The magazine discusses the concept of 'zones' that exert influence on living organisms and human systems. These zones are categorized as geopathic (originating from the Earth's crust, often associated with fault lines) and technopathic (related to electromagnetic fields from human-made equipment).

Health Impacts

Several sections detail the negative effects of these zones on human health. For instance, specific zones are described as negatively impacting functions like the immune system, reproductive glands, blood circulation, and digestive processes. Prolonged exposure can lead to various ailments, including cardiovascular issues, nervous system disorders, and metabolic imbalances. The text mentions that these zones can cause 'probes' or 'breakthroughs' in a person's bio-energetic field, leading to energy depletion.

Zone Characteristics and Neutralization

Different zones are described with varying intensity (measured in 'balls') and specific times of day when their influence is strongest. For example, the fifth zone is said to have a maximum impact from 19:00 to 21:00, affecting salivary glands and male reproductive glands. The sixth zone, active from 16:00 to 18:00, is unfavorable for the hematopoietic system. Neutralizers for these zones are suggested, ranging from natural materials like quartz and limestone to specific furniture materials (oak, ash, cedar) and even certain plants and objects.

The 'Extragеопатогенный Центр'

A particularly dangerous area identified is a triangular intersection of three zones, termed an 'extragеопатогенный центр' (extra-geopathic center). This location is associated with hallucinations, breaches in the human bio-field, and phenomena like poltergeist activity.

Research Methods and Findings

Biolocation and Mapping

The article by G.V. Chervyakov and V.E. Landa introduces a method for mapping GPZ in cities, settlements, buildings, and farms using a selective biolocation method (BLM). This method, applied in both auto and pedestrian variants, helps identify linear zones and their intersection points, which are considered particularly dangerous.

Anomalous Phenomena in the Baikal Region

The research conducted in the Baikal region, specifically in Ulan-Ude, revealed a significant number of unknown radiation types (TГЗ) that are not detectable by standard equipment. These radiations exhibit stable patterns over time and their direction depends on the station's equipment and communications.

Photographic Evidence of Anomalies

Photographic studies were conducted using cameras like 'Zenit-E' and 'Kiev-4' to document anomalous phenomena. Several photographs are presented, showing luminous vertical and arc-shaped columns, as well as other light formations. One notable incident involved a reported UFO sighting in Ulan-Ude, where a cloud-like object with rays was observed and subsequently photographed. The analysis of these photos suggests the presence of energy exchange phenomena, possibly related to multidimensional realities.

Correlation with Geological Activity

There is a strong correlation noted between the identified GPZ and geological features such as fault lines, structural-hydrogeological patterns, and seismic zoning. The deformation of GPZ observed after an earthquake in May 1991 is presented as evidence of this link.

Impact on Flora and Fauna

Changes in plant growth, including stunted pines and apple trees, were observed in areas with GPZ, coinciding with the mapped zones. Furthermore, the issue highlights a biological factor on the 'Orbita-2' station: dogs living on the territory exhibit a very low reproduction rate, with few surviving puppies, and display aggressive and depressed behavior. This is attributed to the environmental conditions.

Specific Incidents and Observations

• The fifth zone is described as negatively affecting salivary glands, male reproductive glands, and immunity, with maximum impact between 19:00 and 21:00.
• The sixth zone impacts the hematopoietic system and lymphatic nodes, strongest from 16:00 to 18:00.
• The seventh zone affects waste-excreting functions, digestive glands, and intracranial pressure, with an intensity of 6 balls from 21:00 to 24:00.
• The eighth zone negatively impacts the skeletal system, liver, blood pressure, and the formation of stones in the gall bladder and urinary system.
• After an earthquake in May 1991, cyclical migration of GPZ was observed, linked to lunar cycles. Some zones showed deformation (reduction in size).
• Photographic evidence captured luminous columns and other light phenomena, interpreted as anomalous phenomena (AP).
• A UFO sighting was reported in Ulan-Ude, with subsequent photographic analysis showing unusual light formations.

Recurring Themes and Editorial Stance

The recurring themes in this issue revolve around the scientific investigation of geopathic and technopathic zones, their detrimental effects on health and the environment, and the search for methods to detect and mitigate these influences. The editorial stance appears to be one of serious inquiry into these often-unexplained phenomena, presenting research findings and photographic evidence to support the existence and impact of GPZ and TPZ. The focus on the Baikal region suggests a regional emphasis in this particular research effort. The publication advocates for a multidisciplinary approach, integrating biolocation, geology, and health sciences to understand these complex interactions.

This issue, identified by the page number '100' and dated 1991, focuses on anomalous phenomena, particularly those captured through photography and studied using biolocation. It presents a collection of photographic evidence and research findings related to unusual atmospheric events, energy fields, and their potential connection to extraterrestrial intelligence or natural geophysical anomalies.

Photographic Evidence of Anomalous Phenomena

The magazine details several instances of unusual visual phenomena captured on film. During night shoots, observers noted "unusual branch-like pillars of dark color" and, in GPZ (Geopathic Zone) areas, "glowing halos of intense brightness." These were sometimes accompanied by bright streaks or horizontal bands resembling trails of fast-moving objects. Numerous photographs revealed "energy structures in the form of numerous varied light and dark points, feathery bands, or even images of an indefinite essence, resembling a biological object." A series of 30 frames taken over 15 minutes on a clear July day from a balcony showed "peculiar atmospheric energy patterns" that rapidly changed shape, with no two images being alike.

Specific photographic events include:

• Ulan-Ude Stadium Incident: A photograph taken during a public holiday in Ulan-Ude in 1991, attended by the Dalai Lama XIV, clearly showed "two linear structures in the form of a stretched, inclined fringe" above the stadium.
• Lake Baikal Observations: During the summer of 1991, extensive observations and photography were conducted on Lake Baikal near Sor Bay. A series of images taken during a thunderstorm evening and night revealed "dark spots of peculiar shape" that were difficult to size accurately as they appeared simultaneously in the atmosphere and water.
• Baikal Helicopter Incident: Two particularly interesting photographs were taken over the shore of Lake Baikal on a bright sunny day. One image, taken below a flying helicopter, showed a "black oval spot." A subsequent photo showed this same spot had moved without changing its appearance.

Biolocational Studies of Geopathic Zones

The issue presents preliminary results from studies of variations in geopathic zones (GPZ) in the Ahtuby and Moscow regions, conducted using biolocation methods. The research identified several regularities:

1. Diurnal Variations: Horizontal sizes of geopathic zones (L) vary diurnally, influenced primarily by solar radiation and possibly by radiation from other cosmic objects at night.
2. Pulsations: Geopathic zones exhibit pulsations with periods of 3-5 minutes, potentially linked to helioseismic activity.
3. Expansion and Contraction: Zones regularly contract and expand by several meters daily. Contraction typically occurs once a day if the Sun is calm.
4. Positive Zones: Zones marked as 'plus' contract in the morning (near noon) and expand maximally at night (2-5 AM local time).
5. Negative Zones: Zones marked as 'minus' contract around sunset and expand maximally during the day (near noon).
6. Correlation: There is a noticeable negative correlation between variations in 'plus' and 'minus' geopathic zones, suggesting solar wind (solar radiation) might 'push' the 'plus' zones and 'pull' the 'minus' zones.
7. Active Periods: Beyond daily variations and short pulsations, there are periods of intense change in the width of both 'plus' and 'minus' zones, maintaining the negative correlation.
8. Geographical and Seasonal Dependence: Variations show dependence on latitude and time of year, though more data is needed for concrete conclusions.
9. Intensity: The intensity of the Earth's biofield in geopathic zones increases with their expansion, but this is a subjective sensation and not quantitatively measured.

Hypno-Bioenergy Influence and Biolocation Diagnostics

Another section details research on the phenomenon of biolocation as an element of express information for organism recovery during hypnotic-bioenergy influence, conducted by a group led by parapsychologist L.V. Serebrennikova. Biolocation is presented as a method for rapid diagnostics of the field structure of any object, attributed to the quantum nature of the microlepton field and ideomotor reactions.

Key findings in this area include:

• Effectiveness: Biolocational measurements were used to assess the energetic state of BAL (biologically active liquor). The study found that the method of energizing water affects the BAL's bio-potential and its biofield radius. Energizing water using a 'capacitor' system (where hands act as plates) proved most effective.
• Water Memory: The phenomenon of 'water memory'—the ability to transfer its vibrocontour properties to neutral water after mixing—was confirmed. Water charged with bioenergy lost its properties within minutes when stored in a crystal vessel but retained them for months in ordinary glass.
• Charged Discs: Charged metal plates (discs) were used to activate the positive effects of hypno-bioenergy influence. These discs could be reused multiple times after being 'wiped' of their 'substance memory.' Proper storage ensured charge retention for up to a month. On a geopathic zone, a disc could function for up to a day until the organism received sufficient energy.
• Patient Recovery: Biolocational measurements of patients undergoing hypnotic-bioenergy sessions showed a trend towards equalization of biofields by the end of the cycle. The process involved an initial increase in bio-potentials of both polarities, followed by the elimination of negative energy potential and saturation with positive bio-potential.

Recurring Themes and Editorial Stance

The issue consistently explores the intersection of unexplained phenomena, scientific investigation (albeit unconventional), and the potential for these phenomena to impact human health and understanding of the natural world. The editorial stance appears to be one of open inquiry into anomalous events, utilizing photographic evidence and specialized techniques like biolocation to gather data and formulate hypotheses. There is a clear interest in energy fields, both atmospheric and geophysical, and their potential interaction with living organisms and possibly non-terrestrial intelligences. The research presented, while sometimes speculative, aims to provide empirical data and analysis of these complex subjects.

This document is Part I of the proceedings from the Third Tomsk International Interdisciplinary School-Seminar titled "Non-Periodic Rapid Phenomena in the Environment." It was published on March 30, 1992, in Tomsk, Russia, by the organizing committee of the school-seminar and the joint-stock company "SKIT." The publication is a collection of scientific materials related to anomalous phenomena and their study.

Key Articles and Content

The first page (page 110) discusses the application of biolocation in assessing and influencing patient energy potentials. It highlights that biolocation can accumulate additional energy for the patient, targeting "vacuum zones" and reinforcing the subject's energy contour after acute conditions are resolved. The method was also used to control remote bioenergetic influence and photo-hypnocon, with significant increases in the patient's biofield observed. A correlation of 70-80% was found between a parapsychologist's true field and their photograph, serving as a criterion for the effectiveness of photo-bioenergetic contact. Furthermore, music aligned with brain rhythms was found to positively impact biofields, increasing their strength by 1.5 to 2 times. The article concludes that biolocation is a promising method for monitoring and evaluating patient conditions in a broad spectrum of hypnotic bioenergetic influences, with ongoing observations and the development of a database on personal computers.

Following this is a reference to literature, specifically citing L.V. Serebrennikova's work on the influence of "Psychosynthesis" on patients, published in Tomsk in 1991.

Page 2 (page III) contains the table of contents, listing various articles and their authors. These articles cover a wide range of topics related to anomalous phenomena, including:

• The problem of methods in studying anomalous phenomena (A.N. Malyuta, V.I. Galitskaya).
• Anomalous phenomena as a result of collective consciousness activity (V.M. Bernstein).
• Categories of forms and functional processes (A.N. Lozhkina, I.V. Landa, V.V. Kalchenko).
• Regular structures of biolocational anomalies and physical fields (Ya. Valdmanis, T. Kalnin).
• Possibilities of the information field (N.N. Sochevanov).
• Application of biolocation in detailed mapping of quartzites (G.G. Tokarenko, V.P. Skavinsky, I.V. Dolgov).
• Energy-informational effects of decorative and facing stones (V.E. Landa, A.K. Kuzmin).
• Noospheric interactions in hydrogeology, geoecology, and environmental protection (V.E. Landa).
• Biolocational scanning of maps and plans for surveying geopatogenic zones and geological exploration (V.E. Landa).
• Biolocational and biogeochemical surveys in areas with ancient mining operations (A.L. Kovalevsky, V.E. Landa).
• Investigation of natural-technogenic zones at a radio transmitting station (A.K. Kuzmin, O.V. Vorontsov, V.E. Landa).
• Study of anomalous phenomena of geologically active zones of the Earth in the Baikal region (G.V. Chervyakov, V.E. Landa).
• Preliminary results of studying variations in geopatogenic zones in the Akhtubinsk and Podmoskovye regions (L.P. Konyashchenko, V.N. Lugovenko, S.D. Odintsov, A.V. Pchelkin, A.L. Kharitonov).
• The phenomenon of biolocation as an element of express information about the dynamics of organism recovery in the process of hypnotic bioenergetic influence (E.D. Degraf, A.N. Bobrov, S.G. Khan).

Page 3 provides publication details, including the date of printing, format, print run (500 copies), and the printing location (Offset laboratory of the regional statistics department in Tomsk). It also identifies the Siberian Scientific Research Center for the Study of Anomalous Phenomena in the Environment at the Tomsk Polytechnic University as an organizing entity.

Page 4 (cover) displays the title "A Nomalous PHENOMENA" in stylized red lettering against a teal background with white diagonal stripes.

Recurring Themes and Editorial Stance

The recurring themes in this issue revolve around the study of anomalous phenomena, with a strong emphasis on the practical applications and theoretical underpinnings of biolocation. The editorial stance appears to be one of scientific inquiry into these phenomena, exploring their potential for understanding and influencing human health and the environment. The inclusion of diverse research topics, from bioenergy and music's effect on biofields to geopatogenic zones and collective consciousness, suggests a broad and interdisciplinary approach to the subject matter. The publication aims to systematize findings through databases and explore the potential of these phenomena for practical applications.