Fictitious Supercontinent Cycles | Chapter 06 | Current Perspectives to Environment and Climate Change Vol. 1

In the physical sciences, attempts to describe processes, events, and phenomena upon the basis of problematic paradigms can be wholly incorrect and lead to physically impossible consequences, e.g., the ultraviolet catastrophe of radiation physics, and/or can necessitate ad hoc assumptions and can be unreasonably complex, e.g., the epicycles of planetary physics. Like epicycles, I suggest that supercontinent cycles, sometimes referred to as Wilson cycles, are artificial constructs, attempts to describe geological observations upon the basis of problematic paradigms. Here I describe the foundation for that assertion and offer insight into a fundamentally different geoscience paradigm, Whole-Earth Decompression Dynamics, which obviates the need to assume supercontinent cycles.

Author(s) Details

J. Marvin Herndon
Transdyne Corporation, 11044 Red Rock Drive, San Diego, CA 92131, USA.

Read full article: http://bp.bookpi.org/index.php/bpi/catalog/view/60/682/540-2
View Volume: https://doi.org/10.9734/bpi/cpecc/v1

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New Concept for the Origin of Fjords and Submarine Canyons: Consequence of Whole-Earth Decompression Dynamics | Chapter 04 | Current Perspectives to Environment and Climate Change Vol. 1

Fjords occur in different parts of the world suggesting a common origin. Although being the subject of debate for more than a century, a common origin has not yet been disclosed; the relative importance of glaciation is still controversial. Here I propose that the primary origin of fjords, like submarine canyons, occurs as a consequence of decompression-driven Earth surface curvature changes, and suggest that glaciation, rather than being the primary agent of fjord formation, as widely assumed, instead is the principal agent of fjord preservation.

Author(s) Details

J. Marvin Herndon
Transdyne Corporation, 11044 Red Rock Drive, San Diego, CA 92131, USA.

Read full article: http://bp.bookpi.org/index.php/bpi/catalog/view/60/680/538-1
View Volume: https://doi.org/10.9734/bpi/cpecc/v1