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Recent Posts by Brad Allenby
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Perhaps the most common query a lecturer on sustainability gets is also the most difficult: "what can I as an individual do?" It's a deceptively simple question to which some respond with platitudes about recycling or buying local, while others go into convoluted discussions about global systems. But either response is just rearranging deck chairs, although whether the ship is doomed or not, or for that matter is even a ship at all, remains unclear.
The underlying dilemma is illustrated by a case I participated in several years ago. The goal was to preserve an old growth North American forest, and the means selected by the environmental activists involved was to get companies to agree not to purchase any forest products from the Canadian province involved until
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The cliché has it that there is no environment in Los Angeles, but as a mythical city facing hordes of environmental, economic and social challenges, there are a multitude of lessons there that we can use in developing and sustaining the environmental movement. Apologies to James Lowell, but books praising Los Angeles are about that rare -- actually, rarer. That's one reason Rayner Banham's book, Los Angeles: The Architecture of Four Ecologies, is so thought provoking. He applauds L.A., arguing at the end that "This sense of possibilities still ahead is part of the basic life-style of Los Angeles . . . [which] by comparison with the general body of official Western culture at the moment, increasingly given over to facile, evasive and self-regarding pessimism, can be a very
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Several years ago, Dan Sarewitz and Dave Guston wrote an influential article about "real time technology assessment," or RTAA. They understood technology as a complex phenomenon combining elements of engineering, economics, and social science, demanding an appropriately flexible approach. It is increasingly apparent that a similar approach needs to be developed to be able to work rationally, responsibly and ethically with the integrated human/built/natural systems that increasingly characterize the anthropogenic world -- in short, that we also need a "real time macroethical assessment" capability, or RTMA. While there are many subtleties to RTMA, its essential importance is evident. We have developed ethical systems appropriate for conditions where either a
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Plato in his Republic celebrates the state lucky enough to be ruled by philosopher-kings, lovers of wisdom who avoid both the lure of money and military glory, and the call of the mob, governing by expertise, intelligence, and not a little Skinnerian behavioral modification. Many scientists, perceiving fundamental shortcomings in democratic processes, find themselves ideally suited to this role.
History, however, indicates that, while most authoritarianism is unfortunate, scientific and technocratic authoritarianism is even more so. This is especially true in a world increasingly characterized by new and unanticipated emergent behaviors that arise from integrated human/natural/built complex adaptive systems reflecting a profound multiculturalism.
The inclination towards
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Several years ago, it was hard to find anyone who had a bad word for biofuels. They were "renewable," "natural," and "sustainable," and were widely embraced as the means by which a nasty fossil fuel based economy could be transitioned to a more moral and righteous state. In short, everyone fell in love with them.
But love is fickle, and nothing is harder on fantasy than reality. And so it is that those who were demanding renewables and biofuels at any cost now suddenly face the price: land use and biodiversity impacts; accelerating perturbations of other critical systems such as the nitrogen, phosphorus, and hydrologic cycles; increases in food prices as agricultural production shifts to biofuel end-use.
Moreover, because the relevant markets
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Science and the 'Routes to Truth'
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Since Western technocratic culture has globalized so effectively, it is worth reflecting on what that culture considers the "routes to truth," and how they have evolved over the centuries. This is especially pertinent if one has a sneaking suspicion that the grounds are shifting, perhaps even being re-negotiated, in ways that have serious implications for environmentalism, sustainability, and indeed, science generally.
At a very high level, there is an historical interplay in Western culture of two different models of truth. In medieval Europe, how an observation aligned with revealed authority -- the Church Fathers, and to some extent Plato and Aristotle -- was in large part determinative of validity: Faith based on authority trumped observation.
It was not that observations of nature weren’t understood as meaningful, but, rather, that nature was understood to be an expression of God, and the essence of God was approachable not through nature, but through theology. With the coming of the Enlightenment and writings by such scholars as Francis Bacon, however, observation and experimentation became first an independent, and then a dominant, source of validity. Science shifted from being subservient to religion to a belief system that now is regarded by most people as the authoritative discourse of modernity.
But this world view faces two broad challenges. The explicit one, posed in different guises by radical Islam and fundamentalist Christianity (cf. Intelligent Design), amounts to an attempted renegotiation of the Enlightenment elevation of observation over faith. The reasons for this challenge lie not in theology, which has considered, and by and large rejected, such unsophisticated framings of faith for many centuries, but in accelerating rates of change, the culturally disruptive effects of emerging technologies, and other factors, including in some ways a general assault on modernity.
The implicit, and frequently unrecognized, challenge is more profound, however, for it cuts to the question of whether scientific methods can still be regarded as avenues toward truth. Moreover, it arises not from reactions against change, which can to some extent be managed, but from the essence of the anthropogenic world that the Enlightenment has enabled. This world is characterized by increasingly complex and transdisciplinary systems that integrate the human, natural, and built domains in ways that give rise to emergent behaviors which, although increasingly engaged by science and technology, cannot be either studied or understood through the reductionist methods common to science since the Enlightenment.
As a result, observation and experiment are no longer the foundations of much cutting edge science and technology. The complex systems characteristic of the anthropogenic Earth -- such as climate change, the tension between environmental protection and development, food versus biofuels, emergent technology systems in the information and communication technology, nanotechnology, biotechnology, robotics and cognitive science domains, and water systems in globalized market structures -- cannot be understood merely by studying more and more about smaller and smaller subsystems, for it is precisely the emergent behavior of these systems qua systems that is the issue.
The only way to study these systems is through models which simplify their complexity in principled ways -- that is, that adopt general rules, founded on particular world views, that determine what data are dropped, and what data retained, in constructing the models. Thus, for example, global circulation models focus on environmental rather than sociological data.
But models are neither observation nor experimentation (although they may contain both). Rather, they are a tool for exploring probability spaces of complex systems. This is especially true because when complex systems integrate built, natural and human domains they also integrate very different ontological perspectives, necessarily generating a complexity that cannot be understood by any single approach alone, no matter how sophisticated.
In short, while many scientific questions remain approachable through observation and experimentation, such simple methods are inapplicable to the complex systems which increasingly are our major challenges, and the tools we must use in such instances -- computer techniques and modeling -- raise far different validation and completeness issues than contemplated by the current scientific culture.
Environmentalism, sustainability, and science itself are increasingly trapped in a dysfunctional time warp, vesting the certainty of reductionist scientific method in new tools and frameworks that cannot justify such confidence. The problem is not inherent in the models, nor can we wish away complexity. Rather, the problem is with ourselves, in that we fail to recognize the growing mismatch between the putative authority we grant our tools, and their inevitable partiality and contingency given the complexity of the systems we attempt to parse.
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