Monday, September 6, 2010

Johan Rockstrom: Let the environment guide our development | Video on TED.com

Johan Rockstrom: Let the environment guide our development | Video on TED.com




About this talk

Human growth has strained the Earth's resources, but as Johan Rockstrom reminds us, our advances also give us the science to recognize this and change behavior. His research has found nine "planetary boundaries" that can guide us in protecting our planet's many overlapping ecosystems.

About Johan Rockstrom

If Earth is a self-regulating system, it's clear that human activity is capable of disrupting it. Johan Rockstrom has led a team of scientists to define the nine Earth systems that need to be...



Talk Transcript:




The second pressure on the planet is, of course, the climate agenda, the big issue, where the policy interpretation of science is that it would be enoughto stabilize greenhouse gases at 450 ppm to avoid average temperatures exceeding two degrees, to avoid the risk that we may be destabilizing the West Antarctic Ice Sheet, holding 6 meters -- level rising, the risk of destabilizing the Greenland Ice Sheet, holding another seven meters -- sea level rising. Now, you would have wished the climate pressure to hit a strong planet, a resilient planet,but unfortunately, the third pressure is the ecosystem decline. Never have we seen, in the past 50 years, such a sharp decline of ecosystem functions and services on the planet, one of them being the ability to regulate climate on the long term, in our forests, land and biodiversity.
Now, as a scientist, what's the evidence for this?Well, the evidence is, unfortunately, ample. It's not only carbon dioxide that has this hockey stick pattern of accelerated change. You can take virtually any parameter that matters for human well-being -- nitrous oxide, methane, deforestation, overfishing land degredation, loss of species --they all show the same pattern over the past 200 years. Simultaneously, they branch off in the mid-50s, 10 years after the second world war, showing very clearly that the great acceleration of the human enterprise starts in the mid-50s. You see, for the first time, an imprint on the global level. And I can tell you, you enter the disciplinary research in each of these, you find something remarkably important, the conclusion that we may have come to the point where we have to bend the curves, that we may have entered the most challenging and exciting decade in the history humanity on the planet, the decade when we have to bend the curves.
Do we have evidence of this? Yes, coral reef systems. Biodiverse, low-nutrient, hard coral systems under multiple pressures of overfishing,unsustainable tourism, climate change. A trigger and the system tips over, loses its resilience, soft corals take over, and we get undesired systemsthat cannot support economic and social development. The Arctic, a beautiful system, a regulating biome at the planetary level, taking the knock after knock on climate change, appearing to be in a good state. No scientist could predict that in 2007, suddenly, what could be crossing a threshold. The system suddenly, very surprisingly, loses 30 to 40 percent of its summer ice cover.And the drama is, of course, that, when the system does this, the logic may change. It may get locked in an undesired state, because it changes color, absorbs more energy, and the system may get stuck. In my mind, the largest red flag warning for humanity that we are in a precarious situation. As a sideline, you know that the only red flag that popped up here was a submarine from an unnamed country that planted a red flag at the bottom of the Arctic to be able to control the oil resources.
Now, if we have evidence, which we now have, that wetlands, forests, [unclear], the rainforests,behave in this nonlinear way. 30 or so scientists around the world gathered and asked a question for the first time, "Do we have to put the planet into the the pot?" So we have to ask ourselves: are we threatening this extraordinarily stable Holocene state? Are we in fact putting ourselves in a situation where we're coming too close to thresholds that could lead to deleterious and very undesired, if now catastrophic, change for human development? You know, you don't want to stand there. In fact, you're not even allowed to standwhere this gentleman is standing, at the foaming, slippery waters at the threshold. In fact, there's a fence quite upstream of this threshold, beyond which you are in a danger zone. And this is the new paradigm, which we gathered two, three years back, recognizing that our old paradigm of just analyzing and pushing and predicting parameters into the future, aiming at minimalizing environmental impacts, is of the past.
Now we to ask ourselves: which are the large environmental processes that we have to be stewards of to keep ourselves safe in the Holocene? And could we even, thanks to major advancements in Earth systems science, identify the thresholds, the points where we may expect nonlinear change? And could we even define a planetary boundary, a fence, within which we then have a safe operating space for humanity? This work, which was published in "Nature," late 2009,after a number of years of analysis, led to the final proposition, that we can only find nine planetary boundaries with which, under active stewardship,would allow ourselves to have a safe operating space. These include, of course, climate. It may surprise you that it's not only climate. But it shows that we are interconnected, among many systems on the planet, with the three big systems, climate change, stratospheric ozone depletion and ocean acidification being the three big systems, where the scientific evidence of large-scale thresholds in the paleo-record of the history of the planet.
But we also include, what we call, the slow variables, the systems that, under the hood,regulate and buffer the capacity of the resilience of the planet -- the interference of the big nitrogen and phosphorus cycles on the planet, land use change, rate of biodiversity loss, freshwater use,functions which regulate biomass on the planet, carbon sequestration, diversity. And then we have two parameters which we were not able to quantify -- air pollution, including warming gases and air-polluting sulfates and nitrates, but also chemical pollution. Together, these form an integrated whole for guiding human development in the Anthropocene, understanding that the planet is a complex self-regulating system. In fact, most evidence indicates that these nine may behave as three Musketeers -- "One for all. All for one." You degrade forests, you go beyond the boundary on land, you undermine the ability of the climate system to stay stable. The drama here is, in fact, that it may show that the climate challenge is the easy one, if you consider the whole challenge of sustainable development.
Now this is the Big Bang equivalent then of human development within the safe operating space of the planetary boundaries. What you see here in black line is the safe operating space, the quantified boundaries, as suggested by this analysis. The yellow dot in the middle here is our starting point, the pre-industrial point, where we're very safely in the safe operating space. In the 50s, we start branching out. In the 60s already, through the green revolution and the Haber-Bosch processof fixing nitrogen from the atmosphere -- you know, human's today take out more nitrogen from the atmosphere than the whole biosphere does naturally as a whole. We don't transgress the climate boundary until the early '90s, actually, right after Rio. And today, we are in a situation where we estimate that we've transgressed three boundaries, the rate of biodiversity loss, which is the sixth extinction period in the history of humanity -- one of them being the extinctions of the dinosaurs -- nitrogen and climate change. But we still have some degrees of freedom on the others,but we are approaching fast on land, water, phosphorus and oceans. But this gives a new paradigm to guide humanity, to put the light on our, so far, overpowered industrial vehicle, which operates as if we're only on a dark, straight highway.
Now the question then is: how gloomy is this? Is then sustainable development utopia? Well, there's no science to suggest. In fact there is ample science to indicate that we can do this transformative change, that we have the ability to now move into a new innovative, a transformative gear, across scales. The drama is, of course, is that 200 countries on this planet have to simultaneously start moving in the same direction.But it changes fundamentally our governance and management paradigm, from the current linear,command and control thinking, looking at efficiencies and optimization towards a much more flexible, a much more adaptive approach,where we recognize that redundancy, both in social and environmental systems, is key to be able to deal with a turbulent era of global change.We have to invest in persistence, in the ability of social systems and ecological systems to withstand shocks and still remain in that desired cup. We have to invest in transformations capability, moving from crisis into innovation, and the ability to rise after a crisis, and, of course, to adapt to unavoidable change. This is a new paradigm. We're not doing that at any scale on governance.
But is it happening anywhere? Do we have any examples of success on this mindshift being applied at the local level? Well, yes, in fact we do,and the list can start becoming longer and longer.There's good news here, for example, from Latin America, where plow-based farming systems of the '50s and '60s led farming basically to a dead-end, with lower and lower yields, degrading the organic matter and fundamental problems at the livelihood levels in Paraguay, Uruguay, and a number of countries, Brazil, leading to innovation and entrepreneurship among farmers in partnership with scientists into an agricultural revolution of zero tillage systems combined with mulch farming with locally adapted technologies,which today, for example, in some countries, have led to a tremendous increase in area under mulch, zero till farming, which, not only produces more food, but also sequesters carbon.
Now, what about the future? Well, the future, of course, has one massive challenge, which is feeding a world of nine billion people. We need nothing less than a new green revolution, and the planet boundaries shows that agriculture has to go from a source of greenhouse gases to a sink. It has to basically do this on current land. We cannot expand anymore, because it erodes the planetary boundaries. We cannot continue consuming water as we do today, with 25 percent of world rivers not even reaching the ocean. And we need a transformation. Well, interestingly, and based on my work and others in Africa, for example, we've shown that even the most vulnerable small-scale rainfall farming systems, with innovations and supplementary irrigation to bridge dry spells and droughts, sustainable sanitation systems to close the loop on nutrients from toilets back to farmers' fields, and innovations in tillage systems, we can triple, quadruple, yield levels on current land.
Elinor Ostrom, the latest Nobel laureate of economics, clearly shows empirically across the world that we can govern the commons if we invest in trust, local, action-based partnerships and cross-scale institutional innovations, where local actors, together, can deal with the global commons at a large scale. But even on the hard policy area we have innovations. We know that we have to move from our fossil dependence very quickly into a low-carbon economy in record time.And what shall we do? Everybody talks about carbon taxes -- it wont work -- emission schemes,but for example, one policy measure, feed-in tariffs on the energy system, which is already applied,from China doing it on offshore wind systems, all the way to the U.S., where you give the guaranteed price for investment in renewable energy, but you can subsidize electricity to poor people. You get people out of poverty. You solve the climate issue with regards to the energy sector, while at the same time, stimulating innovation -- examples of things that can be out scaled quickly at the planetary level.

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