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VIII. Earth Earns: An Open Participatory Earthropocene to Astropocene CoCreative Future

1. An Anthropocene Age: Human Civilization Takes Over and Changes Every Feature

Schellnhuber, Hans Joachim, et al, eds. Earth System Analysis for Sustainability. Cambridge: MIT Press, 2004. A 2003 Dahlem Workshop Report with four main sections: Long-term Geosphere-Biosphere Coevolution and Astrobiology; Possible States and Modes of Operation of the Quaternary (recent past) Earth System; Earth System Dynamics in the Anthropocene (present); and Sustainability. Its working perspective is an aware Gaia attaining its own knowledge which then need be intentionally applied by and to its invasive human phase. This activity constitutes a “second Copernican Revolution” to refocus on Earth as more organismic than clockwork, as a “single dynamical system far from thermodynamic equilibrium.” While a microbial stage is seen as widespread in the universe, technological intelligence is possibly quite rare. While precious Earth need select itself as a successful center of cosmic life, the tacit paradigm for the conferees remains an indifferent, expiring universe, which undercuts the project. A number of papers are noted elsewhere.

If humanity is to achieve a transition to sustainability, it will likely require a fundamental shift in the prevailing view of the world: from linear, compartmentalizable, mechanical to complex, interconnected, living. In this, Gaia may provide some hope and some answers. (431)

Shoshitaishvili, Boris. From Anthropocene to Noosphere: The Great Acceleration.. Earth's Future. 9/2, 2020. After a survey of both these models including original sources such as V. Vernadsky and P. Teilhard for global reason, a UC Berkeley postdoc anthropologist defines a novel, helpful contrast between them. In clear relief, an emphasis on matter and forces leads to despair without a common mindfulness of cooperation and mitigation.

The complex set of human‐driven global, social, technological, and environmental changes intensifying dramatically since 1950 has been identified as the “Great Acceleration.” This period of time represents a radical shift in our collective relationship to each other as well as to the Earth system as a whole. In this article I consider two major paradigms now taking shape to offer different perspectives on the Great Acceleration: The Anthropocene and the Noosphere. I explore the scientific‐intellectual traditions from which each paradigm derives and contrast their nearly opposite evaluations of global transformation. The Anthropocene has emerged as the paradigm of rupture, materiality, and warning; the Noosphere is about development, mind/culture, and hope. I also attempt to bringing the two divergent views closer together into a more unified and balanced vision of planetary change. (Abstract)

Shoshitaishvili, Boris. Is Our Planet Doubly Alive: Gaia, Globalization and Anthropocene Planetary Superorganisms. Anthropocene Review. April, 2022. A UC Berkeley philosophical linguist (search) continues to consider if some manner of worldwide speciesphere entity might be actually coming into its manifest formation. In this case, dual aspects of a Gaian biosphere and a human noosphere are broadly conceived. See also Economics for the Future: Beyond the Superorganism by Nate Hagens in Ecological Economics (169, 2020).

The theory of the superorganism—that there exist composite forms of life above the multicellular organism—has been part of scientific speculation since the late 1800s. The planetary version of a superorganic entity has developed in two different forms, the ecological form of Gaia theory and the sociological form of a worldwide humankind. In this article, I summarize the parallel histories of these biological and civilizational versions, consider the relationships of the two coexisting planetary superorganisms, and reflect on how this theory recasts the global environmental challenges of the Anthropocene. (Abstract)

Sigurdsson, Geir. Anthropocosmic Processes in the Anthropocene: Revisiting Quantum Mechanics vs. Chinese Cosmology Comparison. Bala, Arun and Prasenjit Duara, eds. The Bright Dark Ages: Comparative and Connective Perspectives. Leiden: Brill, 2016. In our own dark bright age, historical eras can be studied with a global scope and veracity not possible before. This notable chapter by a University of Iceland scholar alludes that quantum phenomena as dynamic “inter-acting agencies” is akin to ancient Asian views of an integral organic reality with a yin-yang complementarity. Life is inherent in matter via an inner autopoietic drive, variously as Qi or Li energies. It is advised that our Anthropocene age might be better understood, and mitigated, by these Anthropocosmic relational ecologies which accord with a living nature. The whole volume considers Joseph Needham’s question why the west became technological while China remained contemplative, which might align with relative left and right brain hemispheres as Complementary of Civilizations conveys.

sole, Ricard. Ricard. Nonequilibrium Dynamics in Conservation Biology: Scales, Attractors and Critical Points. Preprints2023. The veteran ICREA-Complex Systems Lab, Barcelona (search) contributes an exemplary, thorough mathematic survey on how the latest complexity network sciences can be well applied and serve to unify the many cross-linked issues and perils if we are ever altogether to achieve a sustainable future.

Preserving and restoring biodiversity is a prime imperative as we face a world where planetary boundaries will soon be crossed. In regard, his global initiative needs to consider multiple scales of nonlinear complexity in space and time. A broad range of issues which affect healthy communities and habitat conservation from local features onto global network-level ecosystems. This essay outlines a synthesis of ideas guided by a complex systems view of the actual scales of nascent universal principles. (Abstract)

Embracing a complex systems approach view empowers us to view biodiversity preservation with greater foresight of the complex web of dependencies and feedback loops that sustain life on Earth. In such a world, where the fate of our planet hangs in the balance, it is vital to integrate sound scientific knowledge, forward-thinking management strategies, and global cooperation to safeguard and restore biodiversity. Such integration will require a collective effort across disciplines where our understanding of different scales will benefit from the universal patterns displayed by simple models of ecological complexity. (25)

Steffen, Will, et al. The Anthropocene: Conceptual and Historical Perspectives. Philosophical Transactions of the Royal Society A. 369/842, 2011. Climatologist Steffen, with historian Jacques Grinevald, Nobel chemist Paul Crutzen, initial proposer of the term, and historian John McNeill, enter a lead paper in a special, much reported, issue on the realization that recent centuries of human migrations with technological, industrial impacts so alter the earth as to constitute a new epochal era. Prime precursors are seen as Vladimir Vernadsky and Pierre Teilhard de Chardin, and Paris colleagues from the 1920s. By this purview, Earth-system qualities such as climate change, biodiversity, nitrogen and phosphorous cycles, ozone loss, ocean acidification, atmospheric aerosols, and chemical pollution, as if a planetary physiology, can be brought into a novel relief. Typical papers discuss emergent dynamics of the climate-economy system, ocean changes, societal responses (Crispin Tickell), Quaternary analogues for greenhouse warming, and so on.

The human imprint on the global environment has now become so large and active that it rivals some of the great forces of Nature in its impact on the functioning of the Earth system. Although global-scale human influence on the environment has been recognized since the 1800s, the term Anthropocene, introduced about a decade ago, has only recently become widely, but informally, used in the global change research community. However, the term has yet to be accepted formally as a new geological epoch or era in Earth history. In this paper, we put forward the case for formally recognizing the Anthropocene as a new epoch in Earth history, arguing that the advent of the Industrial Revolution around 1800 provides a logical start date for the new epoch. We then explore recent trends in the evolution of the Anthropocene as humanity proceeds into the twenty-first century, focusing on the profound changes to our relationship with the rest of the living world and on early attempts and proposals for managing our relationship with the large geophysical cycles that drive the Earth’s climate system. (842)

Both Teilhard and Vernadsky were readers of Suess’s La Face de la Terre and the celebrated French philosopher Henri Bergson. In his 1907 master book L’Evolution Créatrice, Bergson wrote: ‘A century has elapsed since the invention of the steam engine, and we are only just beginning to feel the depths of the shock it gave us. . . . In thousands of years, when, seen from the distance, only the broad lines of the present age will still be visible, our wars and our revolutions will count for little, even supposing they are remembered at all; but the steam engine, and the procession of inventions of every kind that accompanied it, will perhaps be spoken of as we speak of the bronze or of the chipped stone of pre-historic times: it will serve to define an age.’ (844)

Steffen, Will, et al. The Anthropocene: From Global Change to Planetary Stewardship. AMBIO. 40/739, 2011. AMBIO is a journal of environmental concerns from the Royal Swedish Academy of Sciences. Sixteen authorities including Carole Crumley, Jan Zalasiewicz, Hans Schellnhuber, Katherine Richardson, and Marten Scheffer take a long integral view of this nascent Earth era “from hunter-gatherers to a global geophysical force” to again call for an imperative phase of informed, intentional, and respectful “planetary stewardship.” But consider the 2012 American election. While the evidence and urgency for such a response could not be clearer – just look out the window – vested cultural, religious, conceptual baggage overrules to impede, confound and daunt. My paper “Environmental Ethics and the Question of Cosmic Purpose” in the August 1994 issue of that referred journal worried that we will not be moved achieve a living, sustainable bioplanet in a moribund universe of mechanist cosmology. Some two decades on, nature is “nothing” says physics, so the remedial project continues with this sourcebook website, and profound alarms as the above manifesto.

Over the past century, the total material wealth of humanity has been enhanced. However, in the twenty-first century, we face scarcity in critical resources, the degradation of ecosystem services, and the erosion of the planet’s capability to absorb our wastes. Equity issues remain stubbornly difficult to solve. This situation is novel in its speed, its global scale and its threat to the resilience of the Earth System. The advent of the Anthropence, the time interval in which human activities now rival global geophysical processes, suggests that we need to fundamentally alter our relationship with the planet we inhabit. Many approaches could be adopted, ranging from geo-engineering solutions that purposefully manipulate parts of the Earth System to becoming active stewards of our own life support system. The Anthropocene is a reminder that the Holocene, during which complex human societies have developed, has been a stable, accommodating environment and is the only state of the Earth System that we know for sure can support contemporary society. The need to achieve effective planetary stewardship is urgent. As we go further into the Anthropocene, we risk driving the Earth System onto a trajectory toward more hostile states from which we cannot easily return. (Abstract)

What are the implications of this complex systems perspective for the future of humanity? Will our attempts to achieve effective planetary stewardship slow and then halt the current trajectory further into the Anthropocene, eventually steering the Earth System back toward Holocene-like conditions and, in so doing, move contemporary civilization toward a new state of sustainability? Or is it already too late to return to a world of the Holocene that may be already lost? Is the Anthropocene, a one-way trip for humanity to an uncertain future in a new, much warmer—and very different—stable state of the Earth System? While these questions demand a greatly enhanced research effort, they reinforce the urgency for effective Earth System stewardship to maintain a global environment within which humanity can continue to develop in a humane and respectful fashion. (756)

Steffen, Will, et al. Trajectories of the Earth System in the Anthropocene. Proceedings of the National Academy of Sciences. 115/8252, 2018. An entry by 16 leadings authorities, cited below, which could be the strongest, and maybe the last definitive call to action about major global climate change. As extreme floods, fires, storms, temperatures and events occur, increase in intensity, and tip toward a new attractor state, a case for an abrupt catastrophe is made. The epochal context spans from a Holocene interglacial cycle to this late day and ahead to a resilient Stabilized Earth or terminal Hothouse Earth options. But may we add, a cultural quandary not referred to much conflates the issue. For an example, an Amazon search for a 2016 book The Great Acceleration brings up two main hits. One is by environmentalists John McNeill and Peter Engelke about this intensifying human era, but the other is by evangelist Michael Fickess which lauds how such trib

We explore the risk that self-reinforcing feedbacks could push the Earth System toward a planetary threshold that, if crossed, could prevent stabilization of the climate at intermediate temperature rises and cause continued warming on a “Hothouse Earth” pathway even as human emissions are reduced. Crossing the threshold would lead to a much higher global average temperature than any interglacial in the past 1.2 million years and to sea levels significantly higher than at any time in the Holocene. We examine the evidence that such a threshold might exist and where it might be. Collective human action is required to steer the Earth System away from a potential threshold and stabilize it in a habitable interglacial-like state. Such action entails stewardship of the entire Earth System—biosphere, climate, and societies—and could include decarbonization of the global economy, enhancement of biosphere carbon sinks, behavioral changes, technological innovations, new governance arrangements, and transformed social values. (Abstract)

The authors are Will Steffen, Johan Rockström, Katherine Richardson, Timothy M. Lenton, Carl Folke, Diana Liverman, Colin P. Summerhayes, Anthony D. Barnosky, Sarah E. Cornell, Michel Crucifix, Jonathan F. Donges, Ingo Fetzer, Steven J. Lade, Marten Scheffer, Ricarda Winkelmann, and Hans Joachim Schellnhuber. It was edited by William C. Clark.

Steffen, Will, et al, eds. Global Change and the Earth System: A Planet under Pressure. Berlin: Springer, 2004. A summary report of the International Geosphere-Biosphere Programme that views humankind as entering an Anthropocene Era of unprecedented impact on planetary life support systems. A worldwide effort is underway to quantify this in every category from mineral resources to carbon cycles, shrinking glaciers and urban air quality. A wild card is an unknown propensity to suddenly (~10 years) alter a critically poised dynamic climate. But this multifaceted research proceeds, as do many other sciences, without cosmological guidance for we do not know what kind of a universe earth springs from and abides in. So a major section is named Planetary Machinery. A great service would be rendered by an appropriate natural philosophy.

Human activities clearly have the potential to switch the Earth system to alternative modes of operation that may prove irreversible and could inadvertently trigger changes with catastrophic consequences. (261)

Stephens, Lucas, et al. Archaeological Assessment Reveals Earth’s Early Transformation through Land Use. Science. 365/897, 2019. A summary report by many coauthors from the Harvard ArchaeoGlobe Project which describes retro global visualizations which move the initial date of homo sapiens impacts some millennia further back. See also a commentary How Humans Changed the Face of Earth by Neil Roberts in the same issue.

Environmentally transformative human use of land accelerated with the emergence of agriculture, but the extent, trajectory, and implications of these early changes are not well understood. An empirical global assessment of land use from 10,000 years before the present (yr B.P.) to 1850 CE reveals a planet largely transformed by hunter-gatherers, farmers, and pastoralists by 3000 years ago, considerably earlier than thought. Archaeological reconstruction of global land-use history illuminates the deep roots of Earth’s transformation and challenges the emerging Anthropocene paradigm that large-scale anthropogenic global environmental change is mostly a recent phenomenon. (Abstract excerpt)

Szerszynski, Bronislaw. Viewing the Technosphere in an Interplanetary Light. Anthropocene Review. Online October, 2016. The Lancaster University, UK, sociologist situates this nascent presence of a global human mantle in an astronomical environ so to better appreciate, aka speculative planetology. “Matter’s self-organizing powers” are then seen at work in the major evolutionary transitions in individuality scale as it lately emerges to anthropo sapiens. With references to Stanislaw Lem’s science fiction, Peter Haff’s ecological thought, and more, an expansive vista is achieved. See also in this journal Scale and Diversity of the Physical Technosphere by Jan Salasiewicz, et al (Online November).

I argue that discussion about the ‘technosphere’ as an emergent new Earth system needs to be situated within wider reflection about how technospheres might arise on other worlds. Engaging with astrobiological speculation about ‘exo-technospheres’ can help us to understand whether technospheres are likely, what their preconditions might be, and whether they endure. Exploring earlier major transitions in Earth’s evolution can shed light on the shifting distribution of metabolic and reproductive powers between the human and technological parts of the contemporary technosphere. The long-term evolution of technical objects also suggests that they have shown a tendency to pass through their own major transitions in their relation to animality. Such reflection can shed new light on the nature and likely future development of the Earth’s technosphere. (Abstract)

Thomas, Julia Adeney, ed. Altered Earth: Getting the Anthropocene Right. Cambridge, UK: Cambridge University Press, 2022. A Harvard Radcliffe scholar edits a latest survey upon this post 1950s era after the Holocene when rampant human impacts began to take over the world. From geology to culture, authorities such as Will Steffen (Earth Science) to Kate Brown (nuclear war) cobble together its many, disparate issues. But the awkward, unnatural concepts remains troublesome. For example, a book review by ecologist Mark Maslin (see his How to Save Our Planet 2021) worries about its compass and basis. (See also The Green New Deal 2022 by Jeremy Rifkin.)

As I was viewing all this, it occurred that the flawed model ought to be transcended by a holistic, Gaian biosphere to personsphere sapience as an organic, sustainable Earthropocene era. But an attempt to Google led to one reply – its only usage so far was this very website. (Please use without any referral.) As cultures and climates crash, as gun and genocide violence rages, an imaginative reach to a better ecovillage world (promised planet), as this volume does allude to, need be a hopeful alternative. (A Rescue Planet whereby children prevent adults (warlords, fossil fools) from destroying it so to regain their future.)

Altered Earth aims to get the Anthropocene right in three senses. With essays by leading scientists, it highlights the growing consensus that our planet entered a dangerous new state in the mid-twentieth century. Second, it gets the Anthropocene right in human terms, bringing together a range of leading authors to explore, in fiction and non-fiction, our deep past, global conquest, inequality, nuclear disasters, and space travel. Finally, this landmark collection presents what hope might look like in this seemingly hopeless situation, proposing new political forms and mutualistic cities.

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