5 Biological Laws of Nature

Physics has universal laws. Biology is envious because it is not perceived as universal laws. They just seem to be overlooked. Very few laws can actually explain life on Earth. The five most important laws that are relevant to life and ecology (Fig. 1) are: The new German medicine discovered by Dr. Ryke Geerd Hamer and systematized in the 5 biological laws represents a change in the understanding of what is commonly called a disease. The new German medicine is not a new method of treatment, but the understanding of the laws of nature applicable to humans and animals. At the time of DUS, the biological conflict determines the location of the SBS in the brain as a Hamer focus (HH = Hamer foci) and the location on the corresponding organ as cancer or cancer-equivalent disease. Thanks to his studies, Dr. R.G.

Hamer concluded that pathological processes are not “errors of nature,” but important biological programs of nature arising from sudden and dramatic events. The Permian-Triassic boundary (PTB) coincided with ~252â ̄Ma with the largest mass extinction of the Phanerozoic. Previous research on diversity and frequency changes during this event has mainly focused on terrestrial vertebrate and marine invertebrate records, with little attention paid to phytoplankton, which forms the basis of the marine food web. Although the fossil record of Permian-Triassic phytoplankton is relatively poor due to conservation factors, there is now sufficient material available to assess secular changes in critical communities during the mass extinction interval. In this paper, we assess changes in diversity and abundance between 8 genera and 25 species of acritarchs, including large spherical, small spherical, long-spun and short-spined forms ranging from the Upper Permian Clarkina yini to the Lower Triassic Isarcicella isarcica, in eight sections representing various sedimentary facies of the South Chinese craton. The Akritarches declined sharply from the youngest Permian (C. meishanensis zone) to the oldest Triassic (I. staeschei zone), with extinction and changes in abundance concentrating on two horizons, the first in the most recent Permian zone of C. meishanensis (bed 25 in Meishan D) and the second in the first Triassic zone I. staeschei (bed 28 in Meishan D), which reflects the mortality pattern in marine invertebrates. Differences in the nature and intensity of these two extinction episodes (the second has a relatively greater impact on the composition of the Akritarch community) suggest that these events may be due to different types of environmental disturbances.

The content of the conflict is determined at the moment when the shock of the conflict occurs. Exactly at the time of the incident, our subconscious associates the event with a certain subject of biological conflict such as territory, hunger or fear of death. It is therefore our subjective feeling behind the conflict that determines which part of the brain will receive the shock of the conflict and, therefore, which organ or tissue will be affected. What one person experiences as a separation conflict can be experienced very differently by another person. This book has been written with the intention of shedding light on the understanding of the 5 biological laws, for those who want to fully seek and understand the problem; The study of matter and mind, whether thoughtful, critical or scientific, depends on the reader. www.5biologicallaws.com These laws and principles suggest Bayesian priorities and relationships for the characteristics, structure, and function of organisms and ecosystems, bringing us closer to the parameters of the model that can and cannot be. Both the Earth system and integrated assessment modelling (MES and IAM) should take into account these general ecological laws, primarily as principles that define the boundaries of space, matter and energy and the evolution of asymmetric accumulation of information through “compound interest”. Each so-called disease should be understood as an important special biological program (SBS) created to resolve an unexpected biological conflict. Five Biological Laws of Nature: A new medical companion with the psychological roots of the disease. The study of the five biological laws of nature opens the door to a completely new perspective on health and disease and is essential for any physician, family doctor, therapist, naturopath, clinician and patient who wants to understand the basics of their health, biogenealogy and disease; and The Five Biological Laws of Nature: A New Medicine is an introduction to the five biological laws of nature as discovered and systematized by the world-renowned and respected German physician, Dr. Ryke Geerd Hamer, M.D.

It summarizes the basic principles and provides the reader with a solid basis of understanding for the further study of the new Germanic medicine®, as described in the complete and desktop reference work The Psychic Roots of Illness. The psychological roots of the disease are accepted and researched by the European medical, biogeneological, scientific and health communities with more than 50,000 copies sold and translated into seven languages. The book also serves as a self-help reference for health-conscious and curious people. The third biological law of the new German medicine links the findings of the first two laws to the context of embryology and human evolution. It illustrates the biological correlation between the psyche, the brain and the organ from an evolutionary point of view. Life on Earth is the result of a continuous accumulation of information through combination and innovation using endomatic (inside the organism) and exosomatic (outside the organism) energy. Food occurs through cycles of life and death. Here we define five laws of life for these vital processes. These processes must not exceed the natural limits of size and speed, as they are limited by space, matter and energy; Biology is based on what is possible within these physico-chemical boundaries. Learning from how nature handles information accumulation, size limits, and the speeds at which life can acquire and consume energy and resources for maintenance, growth, and competition will help us model and manage our ecological future and sustainability. Ð1/2D°ÑÐμÐ1/4 кÑÑпÐ1/2DμйÑÐμÐ1/4 в Ð1/4ÐÐ ̧ÑÐμ Ð1/4агаз ̧Ð1/2ÐμпÑÐμð`ÑÑав»ÐμÐ1/2ÑлÐμкÑÑÐ3/4Ð1/2Ð1/2ÑÐμ кÐ1/2Ð1/2Ð1/2Ð1/2Ð1/2Ð1/2Ð1/2Ð1/2Ð ̧Ð̧, кÐ3/4ÑÐ3/4ÑÑÐμ Ð1/4Ð3/4Ð3/4Ð3/4жÐ1/2D3/4 ÑÐ ̧ÑаÑÑв бÑаÑаÑз ÐμÑÐμ, Ð1/2а плÐ1/2ÑÐμÑÐ1/2Ð3/4Ð1/4ÐÐ, ÐμлÐμÑÐ3/4Ð1/2Ðμ ̧ллл̧ ÑпÐμÑÐ ̧алÑÐ1/2Ð3/4Ð1/4 ÑÑÑÐÐ3/4йÑÑÑвÐμ.

Bei der Erstellung dieses Essay-Manuskripts wurden keine Daten verwendet. Das Leben der Erde ist komplex und vielfältig. Das Leben auf der Erde besteht aus diskontinuierlichen Individuen, die zu Millionen von Arten gehören. Life is the result of evolutionary processes that act on a continuous accumulation of structural and functional information through the combination and innovation in the use of matter and endo- and exosomatic energy, as well as on discontinuous processes of death and destruction that recycle the materials that form the structure, information and energetic compounds, such as proteins, DNA and ATP, the law of mass conservation (introduced by Lomonosov and Lavoisier). Each Important Special Biological Programme (ESS) takes place in two phases, provided that the conflict is resolved. The second law of thermodynamics, the entropy of an isolated system always The first law of thermodynamics, energy cannot be generated or destroyed in an isolated system. Many coastal zone and estuary management programs around the world are developing climate change strategies and priorities for climate change adaptation. A multi-state working group worked with scientists, researchers, resource managers and non-governmental organizations to develop a monitoring program that would warn of the effects of climate change on the Estuary and coastal ecosystems of Long Island Sound. The objective of this program was to facilitate timely management decisions and adaptation measures to the effects of climate change. For strategic planning, a new approach is described that combines available regional forecasts and climate factors (from top to bottom) with local (bottom-up) monitoring information to identify candidates for climate change. This approach identified 37 candidates for climate change, as well as a number of fundamental abiotic parameters that are drivers of environmental change. A priority-setting process for sentinels was developed and six of them were identified for inclusion in pilot-scale surveillance programs.

A surveillance strategy and an online sentinel data clearinghouse have been developed. The work and processes presented here are intended to serve as a guide for other coastal and estuary management programs to establish a targeted climate change monitoring program and to provide a series of “lessons learned”.