Ramin Amirmardfar Knihy

Die Theorie der Wiederbelebung ausgestorbener Riesentiere stützt sich auf die Gene in Dinosaurier-Eiern und gefrorenen Mammuts. Wissenschaftler glauben, dass sie durch diese Methoden neue Arten erschaffen können, ohne die Herausforderungen der heutigen Erde zu berücksichtigen. Es wird jedoch argumentiert, dass die Schwerkraft und die biologischen Grenzen der Stoffwechselrate eine Rückkehr zu solch großen Säugetieren unmöglich machen. Die Forschung zeigt, dass die Größe von Säugetieren durch ihre Stoffwechselrate begrenzt ist, was die Idee, Mammuts oder Dinosaurier wiederzubeleben, als unrealistisch erscheinen lässt.

The narrative explores the scientific ambition to resurrect extinct giant animals, like dinosaurs and mammoths, through genetic manipulation. It highlights the misconception that modern conditions, including Earth's gravity, would support the survival of these colossal creatures. The text argues that current mammals cannot exceed the size of elephants due to metabolic constraints, suggesting that attempts to recreate such large beings would ultimately fail. The book delves into the biological limits of size and the implications for species revival efforts.

The book explores an alternate theory regarding the extinction of dinosaurs and the subsequent size limitations of modern reptiles. It argues that the meteorite impact 65 million years ago did not solely cause the demise of large dinosaurs; instead, it suggests that increased gravity has gradually hindered the blood systems of reptiles, preventing them from evolving into larger forms again. This theory challenges prevailing scientific beliefs and posits that the conditions for the revival of giant reptiles are fundamentally altered due to the planet's current gravitational constraints.

Die Körpergröße von Tieren wird durch eine Vielzahl von äußeren und inneren Faktoren beeinflusst, wobei der atmosphärische Druck als einer der entscheidendsten externen Aspekte hervorgehoben wird. Weitere relevante Faktoren sind die Schwerkraft, die Bluddichte, die Effizienz des Kreislaufsystems, die Körperhaltung sowie der Gehalt an organischen Phosphaten im Blut. Die Beschreibung thematisiert die komplexen Wechselwirkungen dieser Elemente und deren Auswirkungen auf die physische Entwicklung von Tieren.

The book explores the evolutionary journey of arthropods, highlighting a significant reduction in leg numbers over time. It defines legs as limbs used for support and movement, noting that mantises are considered four-legged rather than the typical six-legged classification. The author predicts the emergence of two-legged arthropods in the future, alongside existing four-legged species, as a new class evolves from Insecta. This transformation is attributed to increasing gravity on Earth, influencing the adaptation and diversification of arthropod forms.

The book explores the evolution of biological science, particularly the understanding of cellular structure in plants and animals. It challenges the notion that plants are independent organisms by examining lichens, which are symbiotic relationships between fungi and algae. The author argues that plants may similarly arise from a symbiotic mix of Oomycetes and algae, suggesting that the classification of plants as singular entities is flawed. This perspective invites readers to reconsider the fundamental definitions of life forms and their interdependencies in nature.

Die Entwicklung der Biologie wird durch das Verständnis der grundlegenden Bestandteile von Organismen vorangetrieben. Während ursprünglich die Zelle als biologische Einheit galt, zeigt die Forschung, dass Flechten, bestehend aus Pilzen und Algen, eine Symbiose darstellen und keine eigenständigen Pflanzen sind. Diese Erkenntnisse werfen Fragen auf, ob auch Pflanzen aus einer ähnlichen Mischgen-Symbiose entstanden sind. Der Autor argumentiert, dass die Evolution der Pflanzen möglicherweise eng mit Oomyceten und Algen verbunden ist, was die Definition von Organismen in der Biologie herausfordert.

Exploring the evolution of cellular diversity, the book examines how certain cells, like those from sponges, can differentiate into multiple types during division, unlike simpler bacteria. It poses critical questions about the origins and timelines of these cell types, the presence of stem cells in unicellular organisms, and the symbiotic relationships that led to the emergence of complex life forms. This innovative theory suggests that animals and plants evolved from simple multicellular organisms living freely in nature, highlighting a new perspective on biological development.

The narrative explores the impact of escalating gravity on Earth's flora and fauna, detailing how this phenomenon influences evolution and blood circulation systems in animals. It examines the adaptive strategies organisms employ to cope with increased gravitational forces, leading to larger body sizes. Additionally, the book connects the dots between the extinction of dinosaurs and rising gravity, providing a comprehensive overview of the historical and biological implications of this ongoing change.

The book explores the conscious manipulation of domestic animal sizes, building on previous unconscious practices with dogs. It reveals that the physiological control of mammal size is linked to organic phosphates in red blood cells, specifically how these compounds affect the interaction between oxygen molecules and hemoglobin. The research indicates that lower levels of organic phosphates result in larger mammals, providing a scientific basis for size alteration in domestic animals.