Volcanism and tectonism are the dominant endogenic means by which planetary surfaces change. This book aims to encompass the broad range in character of volcanism, tectonism, faulting and associated interactions observed on planetary bodies across the inner solar system - a region that includes Mercury, Venus, Earth, the Moon, Mars and asteroids. The diversity and breadth of landforms produced by volcanic and tectonic processes is enormous, and varies across the inner solar system bodies. As a result, the selection of prevailing landforms and their underlying formational processes that are described and highlighted in this volume are but a primer to the expansive field of planetary volcanism and tectonism. This Special Publication features 22 research articles about volcanic and tectonic processes manifest across the inner solar system.

- A leader in the discourse on the latest architectural movements, Schumacher comments on parametricism and computational engineering leading to a malleable network of interdependencies that evolved into tectonism as an architectural style- A comprehensively illustrated text with full-color photography and detailed plans, knitted together with incisive and critical analysis and appraisal of architectural history and precedents- A must-have text that shines a light on a progressive architectural culture and the most innovative methodologiesTectonism is the most advanced and most sophisticated contemporary architectural style. There are, to date, only relatively a few fully satisfactory built examples, and most of them are still of a relatively modest scale. It is the thesis of this book that tectonism, as defined and illustrated here, represents the future of 21st century architecture. This thesis is optimistic with respect to the long-term rationality of the discipline of architecture, i.e. with respect to its capacity to discern and ascertain, via its internal discourse, the superiority of tectonism, and to spread its influence and impact as global best practice accordingly. This optimism also extends to the rationality of the wider society, as represented through private clients, public clients, and through end-user acceptance, to be susceptible to the guidance it will receive from its architectural expert discourse. This optimism is based on a critical analysis and appraisal of architectural history. The avant-garde intuitions of the early modernists in the 1920s, backed up by sound theoretical arguments, did win over the discipline in the 1930s and 1940s, and spread its real impact on the global built environment throughout the 1950s, 1960s and 1970s. The current avant-garde intuitions within the movement of tectonism, although very different from modernism, are equally well thought through as the arguments in this book will attempt to demonstrate. -- From the Introduction, by Patrik Schumacher

Impact of Tectonic Activity on Ancient Civilizations: Recurrent Shakeups, Tenacity, Resilience, and Change observes a remarkable spatial correspondence of zones of active tectonism (i.e. plate boundaries in the earth’s crust) with the most complex cultures of antiquity (“great ancient civilizations”), and continues to explore the meaning of this relationship from a number of independent angles. Due to resulting site damage, this distribution is counter-intuitive. Nevertheless, systematic differences between “tectonic” and “quiescent” cultures show that tectonic activity corresponded in antiquity with more cultural dynamism. Data of several independent types support direct cultural influence of tectonism, including vignettes of the impact of tectonism in specific ancient cultures. An expectation of change seems to be a feature such tectonic cultures shared, and led to an acceleration of development. These dynamics continue though much obscured in the present day.

Planetary Tectonism across the Solar System, Volume Two in the Comparative Planetology series, addresses key questions surrounding planetary tectonism, such our understanding of the global contraction of Mercury, the formation of giant rift zones on Saturn's icy moons, or the tesserated terrain on Venus. The book makes connections to Earth, such as how deformation on Mercury is both similar and different, and how to apply theoretical considerations behind plate tectonics on Earth to other planets. The book offers up-to-date, accessible and comprehensive discussions on the major tectonic processes and landforms that shape and drive the evolution of planets, moons and smaller bodies. By placing a singular emphasis on comparing tectonic processes and landforms on all relevant Solar System bodies, with the explicit objective of providing a systems-level understanding of this widespread phenomenon, this book is ideal for anyone studying planetary tectonism. - Includes an introduction that places the book in the context of the larger Comparative Planetology series - Compares tectonic processes on all relevant Solar System bodies, providing a systems-level understanding of this widespread phenomenon that shapes and drives the evolution of planets, moons and smaller bodies - Features over 100 color illustrations and charts to better convey concepts - Offers additional online content, including figures, animations, videos and interviews with contributing authors

Stratigraphers and sedimentologists who are presently describing and interpreting the infill of sedimentary basins are generally agreed that it is difficult to disentangle the signatures of tectonic processes from those of climate and eustatic sea level change in the resultant rock succession. Until better criteria are developed to distinguish between the roles played by the major variables, it is still most useful to document and interpret basin-fill architectures where we know, from independent evidence, that one of the main controls is likely to have been a major contributor. This book contains a collection of papers describing situations where the tectonic setting is fairly well established, and it can be assumed that at least the tectonic factor has contributed to the resultant signatures.