USGBC Wants an Environmental Label for Every Building

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Environmental Leader

Every building in the U.S. should have a label as to its environmental impact, said the U.S. Green Building Council’s president at the Healthy Buildings meeting.  At the same event, IBM told how it is taking green buildings one step further with bright-green buildings, which converges green buildings with intelligence, said an IBM executive, reports Central New York News.

Rick Fedrizzi, president of the U.S. Green Building Council, would like to see a label similar to nutrition labels found on food packaging on the side of every building, that discloses the quality of the air, water and other environmental factors inside, reports Central New York News.  Fedrizzi was the opening keynote speaker at the Healthy Buildings 2009 conference.

Fedrizzi said in the article that indoor environmental quality ranks near the bottom of the nation’s policy issues, and to change that, more research is needed to demonstrate the links between health and indoor air quality. He also noted that green building research attracted less than 1 percent of all federally funded research in 2007.
Jane Snowdon, a key executive at IBM’s Intelligent Building and Smarter City Research at the T.J. Watson Research Center in Yorktown Heights, N.Y., told an audience at the Healthy Buildings 2009 conference that buildings need to be smarter because they consume 70 percent of the world’s electricity, 12 percent of its potable water and 40 percent of the raw materials used globally, reports the newspaper. T hey also create 136 million tons of waste per year worldwide, she said.

The smart grid would play an integral role in making buildings more energy efficient.  As an example, National Grid, a utility in New York and New England, has applied for $200 million in federal stimulus money to create a smart grid in three states involving 200,000 customers, reports the newspaper.

Christopher Cavanagh, director of new products and services for the utility, told Central New York News that smart meters, appliances and monitoring systems will let consumers choose to consume energy when it’s cheaper — generally at night, or off-peak hours — and let the utility manage demand for energy.

To help building owners garner financial savings from green building practices, a new nonprofit organization was formed earlier this year to support and promote environmental sustainability among property owners and managers nationwide.

The Association of Green Property Owners and Managers (AGPOM) offers several services to members including a cost-effective Green Building Plan, green insurance products that provide discounts for going green, and Green Premium Plus, a program based on renewable energy credits (RECs).

Green Drinks Babylon

A Force for the Sustainable Development and Future of Long Island.

Green Drinks Babylon is a monthly gathering of like-minded individuals committed to shaping our future and making Long Island a greener community. Come out and charge your eco-spirit and make some new connections.

Our 1st meeting is set for Oct 14th, 2009 @ Horace & Sylvia's Publick House in Babylon, NY.

Signup for Free@ Green Drinks Babylon

For more info email me @ emartin@advancedrestoration.com

We have a lively mixture of people from NGOs, academia, government and business.  Come along and you'll be made welcome.  Just say, "Are you green?" and we will look after you and introduce you to whoever is there.  It's a great way of catching up with people you know and also for making new contacts. Everyone invites someone else along, so there’s always a different crowd, making Green Drinks an organic, self-organising network.

These events are very simple and unstructured, but many people have found employment, made friends, developed new ideas, done deals and had moments of serendipity.


Find us on FaceBook.

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Gino is one of my closest friends. He handles all my insurance needs. Here is his new website.

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Pumping Up the Grid: Key Step to Green Energy

Yale Environment 360, 8 Sep 09

by

Michael Noble

The U.S can build all the wind turbines and solar arrays it wants, but until it does something about improving its outmoded electricity grid, renewable energy will never reach its potential. What we need is a new electricity transmission system, with the costs shared by all.

As America gets serious about the twin crises of oil dependency and climate change, many analysts believe that wind power — and eventually solar power — will make the largest carbon-free contributions to a new energy supply. But America’s aging electrical transmission system is renewable energy’s Achilles heel, and unless a broad policy consensus to upgrade our electrical grid is forged soon, the potential of wind and solar power will be vastly diminished.

Three things are needed to solve the challenge of renewable energy transmission: good technical planning, permitting and siting processes that can win public support, and broad agreement on how to pay the high cost of new power lines. Of these issues, the last one — gaining agreement on how transmission costs are spread among players — is currently the most contentious. To solve it, policymakers must come up with a plan to allocate these costs as broadly across the electricity system as possible — utilities, renewable energy generators, and consumers — since ultimately the whole system and all its users will benefit from a 21st century grid.

Today, achieving a national consensus on the importance of a better electrical transmission system is the single most important step toward vast expansion of clean, low-cost sources of energy. With every passing day, we can generate more and more energy from wind and solar power. The challenge now is getting it to the population centers where it is most needed.

Wind is the prime renewable energy source in my region of the United States, the Upper Midwest, and last year the U.S. wind market enjoyed massive growth, increasing the country’s total wind power generating capacity by nearly half. New wind energy projects accounted for more than 40 percent of all electric generating capacity added last year, as the U.S. surpassed Germany as the world’s wind power leader. A recent federal study demonstrated how wind energy could grow from 1 percent to 20 percent of U.S. electricity generation by 2030. With automakers and policymakers increasingly agreeing that electric vehicles and plug-in hybrids are important to U.S. energy security, greening the electric grid is doubly urgent.

To reach this goal, wind turbines would have to be installed across the nation and offshore. However, in many cases the highest quality wind is distant from the most densely populated parts of the country, so a major investment in a more robust grid is essential.

Our current electricity transmission infrastructure — the power lines that stretch across the landscape, the substations, the power poles and distribution lines in America’s cities — is aging and severely strained. Though not on the brink of collapse, it is critical infrastructure that’s completely outdated for an economy that will increasingly run on clean electricity. Many lines and substations are old and operating at full capacity, unable to accept the energy from even a few dozen new wind turbines. Congestion bottlenecks limit the amount of energy that can flow across the landscape, like a multi-lane highway that narrows to a single lane.

Because wind and solar energy are variable in their output, having a strong interconnected grid system boosts the system’s ability to take on more and more renewables. For example, if it’s super-windy in Kansas, we could send the extra energy to Chicago where the wind is calm. Our current web of transmission lines is just not properly sized — or properly located — to allow vast amounts of energy to do that job.

Most Americans know little or nothing about how we manage electricity transmission, plan for it, and pay for it. Not only are these not popular topics for the public, they’re not an issue for most energy and environmental groups.

Here where I live in Minnesota, the Midwest Independent System Operator (MISO) manages and plans electric transmission in 13 states, from the Dakotas to Indiana. Its job, in part, is to run the electric system fairly and openly — like the interstate highway system — so anyone can get on and move from here to there, without discrimination against any power supplier. MISO is doing an increasingly aggressive and thorough analysis of the transmission upgrades — including beefier lines, new corridors, and new substations — for multiple wind deployment scenarios, including the vision that sees wind as providing at least 20 percent of the nation’s electricity.

But MISO and similar agencies can only do so much with our outdated grid, which requires an overhaul involving government and the energy sectors at all levels — local, state, and federal.
The first hurdle is to streamline the permitting process. Wind energy farms can be built in a few months, but securing permission to construct high-voltage transmission lines can take five years or longer. This is not so much a technical problem as a social and political one. Face it: Nobody likes new transmission lines in their community or near their property.

Just last month, the Transmission Agency of Northern California (TANC), including the iconic green Sacramento Municipal Utility District and the federal Western Area Power Administration, was forced to pull the plug on a 600-mile transmission project in northern California. I cannot speak to the merits of the line or its need, but there seems to be broad agreement that because the public process was poor, the affected communities essentially killed the project. Transmission proponents often act as if public support is an afterthought, presenting the lines as a fait accompli, and assume the public will simply go along with their assurances that the lines are well sited and critical to the electric system.

Too often the public does not get a real opportunity to clearly understand the purpose of the proposed transmission line, or a meaningful chance to help select the best route. If citizens along the proposed route feel that they are being taken for granted or treated unfairly, they will fight the project rather than shape it. Even a handful of dedicated opponents can delay a necessary transmission line upgrade for years.

The standard argument for opposing new transmission lines is the potential for conservation, rooftop solar, and other community energy solutions. Diversifying our energy sources in these ways is good. But remember that over the next two to three decades we must replace virtually all of America’s existing coal-fired power stations or retrofit them with carbon-sequestration technology (a dubious proposition) if we hope to avoid the most serious consequences of a changing climate. To make this switch without large-scale wind and solar power — and new power lines — will be impossible.

As difficult as siting is, we face an even more urgent problem — fair allocation of the costs of upgrading the grid. In my home state, Minnesota utility Otter Tail Power Company attests that MISO’s current rules for sharing the cost of new transmission to wind farms are unworkable.

Currently, if a wind developer wants to connect to the electric grid of a utility, the wind developer pays half the cost, and the utility pays half. That seems reasonable, but wind energy resources in Otter Tail’s western Minnesota and North and South Dakota service area are so vast that the utility currently has connection requests for wind farms equaling 10 times the utility’s total energy need. To burden Otter Tail Power with these excessive interconnection costs simply doesn’t make sense. Without a fix, Otter Tail threatens to leave the MISO system, opting out of a voluntary wholesale electricity market that is, by all accounts, essential for the economically efficient operation of the U.S. power grid.

Unfortunately, MISO has proposed a remedy that’s worse than the problem. The power generators and transmission owners who have the majority voice in MISO now say that Otter Tail should pay nothing, but the wind developer should pay the whole freight. That proposal is pending at the Federal Energy Regulatory Commission (FERC), and a broad campaign is afoot to inform FERC that it’s a non-starter. In fact, it’s a solution guaranteed to stop wind energy development in its tracks.

What’s needed is what FERC Chairman Jon Wellinghoff has proposed to Congress: to give his agency the authority to broadly allocate the transmission costs throughout regional operating systems, like MISO. We should treat new transmission as a public infrastructure, like natural gas pipelines, bridges or transit, or high-speed rail. The solution is to spread the cost — which will reach many tens of billions of dollars — equitably across all electricity consumers. Not surprisingly, Wellinghoff’s proposal is generating opposition from some utilities and their political supporters. But the role of renewable energy transmission is too important to our energy future to let politics as usual stand in the way.

Over the past few months, parochial interests have hammered away at national grid reform in the House-approved energy legislation awaiting action in the U.S. Senate. Senate Majority Leader Harry Reid has identified upgrading the grid for renewable electricity as a key priority.

Reid, his colleagues, and federal regulators must make it clear that transmission for clean energy is a pressing national priority — for our security, our economy, and our climate goals — that should be an important component of any climate and energy legislation.

Congress should mandate that the regional independent system operators plan the transmission systems we desperately need. We must have laws that require meaningful public participation in routing of new transmission lines; but environmental opposition must not stop transmission that’s crucial to protect the environment and slow global warming. Finally, our policies must spell out a method of sharing the costs of building a 21st century grid.

If the President, Congress, and FERC act together to create a new transmission system, America will inevitably realize its potential for renewable electricity. Otherwise we will stymie development of the clean energy that could be a cornerstone of America’s economic and environmental future.

This piece originally appeared on Yale Environment 360CC photo credit

"The Age of Stupid" Trailer

This is a trailer to a new movie

The Age of Stupid

The Age of Stupid Global Premiere Trailer from Age of Stupid on Vimeo.

Could a Solar-Hydrogen Economy Supply All Our Energy Needs?

by

Lloyd Alter, Toronto

on

09. 6.09
Science & Technology (solar)

TreeHugger has never been a fan of the hydrogen economy; the gas is more of a battery than a fuel as it takes a lot of energy to make the stuff. We have called it nothing more than a front for the nuclear industry.

But Derek Abbott, Professor of Electrical Engineering at the University of Adelaide in Australia, makes a persuasive case that it is perhaps the most effective medium for using and storing solar energy, and explains in Physorg..

He looks at all of the technologies for making hydrogen and settles on solar thermal, driving Stirling engines.

"The fact that there simply is 5,000 times more sun power than our consumption needs makes me very optimistic," Abbott said. "It's a fantastic resource. We have the ingenuity to send man to the moon, so we definitively have the ingenuity to tap the sun's resources."

Despite the improvements in silicon solar cells, Abbott argues that they suffer from low efficiencies and high environmental impact compared with solar thermal collectors. Solar cells require large amounts of water and arsenic; Abbott calculates that manufacturing enough solar cells to power the world would require 6 million tonnes of arsenic, while the world's supply is estimated at about 1 million tonnes. Even the overall solar cell design is fundamentally flawed, he says. Solar cell semiconductor reliability drops as temperature increases, yet large temperature differences are required to increase thermodynamic efficiency. For this reason, semiconductor technology is much better suited to lower powers and temperatures, such as pocket calculators.

On the other hand, solar thermal collectors are specifically designed to operate under hot temperatures. The idea is to use a curved mirror to focus sunlight to boil water and create steam, which is then used to power, for example, a Stirling heat engine to produce electricity. The system has already been demonstrated in California's Mojave Desert, which has been using a solar thermal system to heat oil in a closed-cycle instead of water for the past 20 years.

He then suggests hooking these up to generators and using the power to electrolyze water and make hydrogen.

"Governments should begin by setting up sizable solar farms that supplement existing grid electricity and provide enough hydrogen to power buses," Abbott said. "Enthusiasts will then buy hydrogen cars, retrofit existing cars, and refuel at bus depots. Then things will grow from there. You gotta start somewhere."

Then he goes off what I would have called the deep end by suggesting that liquid hydrogen is the most efficient way to transport the stuff, even though this requires a huge amount of energy.

(See What Is The Carbon Footprint of The Space Program? for how much). No problem;

Since the sun supplies a virtually unlimited amount of energy, the solution is to factor in the non-recurring cost of extra solar collectors to provide the energy for liquefaction. His calculations show that the cost of a solar collector farm used to produce hydrogen is still lower than a nuclear station of equivalent power.

In some ways, Abbott sounds like those early nuclear proponents who said that they would provide electricity that was "too cheap to meter. " But you can't help but be intrigued by his conclusion in the Physorg article:

"There is so much solar that all you have to do is invest in the non-recurring cost of more dishes to drive a solar-hydrogen economy at whatever efficiency it happens to sit at. I show in my paper that if you do this you come out cheaper than nuclear and you take up less than 8% of the world's desert area. ... So let's begin now, what are we waiting for?"

Future of the Screen: Terminator-Style Augmented-Reality Glasses

from

www.wired.com

The most efficient possible display technology would be something that bypasses the eyes altogether and sends information straight to the brain. Sadly, cranial USB ports are still pretty hard to install. T he second most efficient possible display technology anyone's devised projects images directly into the eye. The dream of a wearable virtual retinal display, or VRD, has been around for nearly two decades; it's on the horizon, but it's still going to be a while until it gets here.

The idea of VRD was first tossed around at the University of Washington's Human Interface Technology Lab back around 1991. Thomas Furness, who'd been working on helmet-based displays for the Air Force in the '80s, and research engineer Joel Kollin were part of the team that put together the initial (and enormous) prototype. The concept was that tiny, ultra-low-power lasers could paint an image onto the human retina by scanning across it at high speed, essentially treating it as a tiny TV screen. If you could assemble a set of microscopic red, blue and green lasers, stick them where they could project onto your eyes, and hook them up to a computer, you could still see whatever you'd normally see, but with three-dimensional, full-color displays of additional information or imagery overlaid on the visible world—an effect called "augmented reality." Think of Arnold Schwarzenegger's sunglasses in Terminator, and you're on the right track.

Prof. Steven Feiner, of Columbia University's computer science department, notes that the potential advantages of retinal displays are energy-efficiency and unobtrusiveness: "What many of us want is something you're always wearing so that you can experience overlaid stuff, as opposed to having to put something on." There is clearly some money to be made with augmented reality, and a Seattle-area company called Microvision has been working on commercial applications of the HITLab's VRD concepts since the early '90s. (More recently, the Japanese printer company Brother Industries has been developing a similar technology, which it calls "retinal imaging display.") The military has paid Microvision to research VRD eyewear for soldiers and pilots, who need to have a lot of information instantly accessible in addition to what's in front of their eyes.

But there are plenty of day-to-day civilian uses for an unobtrusive, full-color "heads-up" display—one that wouldn't require looking away from its users' physical, nonvirtual surroundings. A mobile phone could have a "screen" as large as its user's visual field. Driving directions could appear in front of your eyes while you're looking at the road, even in bright daylight. Cooking wouldn't require shuttling your attention between the stove and a cookbook.

Hearing-impaired people could see voice-recognition transcriptions of what people around them were saying. Surgeons could keep watch on their patients' vital signs and medical reference texts without looking away from an operation.

So where are your Terminator shades? In 1992, Furness and Kollin claimed that it would be at least five years until full-on VRD was a reality, and it's been considerably more than that. One problem is that people's eyes don't stand still—in practice, projecting an image onto a retina is like trying to project a movie onto a moving screen. Another is that, while the wearable part of the system may be small, the gear that needs to be hooked up to it is still gigantic; if it's not portable, it's not very useful.

Still, Dr. Bruce H. Thomas, the director of the Wearable Computer Lab at the University of South Australia, believes that "in the near future we might actually see head-mounted displays become consumer products because of iPods—a legitimate video delivery unit that lots of people carry around with them." In the meantime, primitive VRD has begun to appear in the real world. Microvision released the Nomad Expert Technician System in 2004. (It cost $4,000 a unit and only projected images in red; Honda ordered some for their training centers, but the NETS never caught on, and was discontinued by 2006.) And Brother announced last year that it was hoping to make their retinal imaging display device commercially available sometime in 2010. Maybe by then it'll be small enough for a non-Schwarzenegger-sized person to carry around

The Rights of Future Generations

Some people seem to have a hard time even understanding the concept of the rights of future generations. The idea that people who do not yet exist have the right to assert their needs in our lives is one that seems to be hard to fully grasp.


Think of this example: If someone set a bomb to go off in a public square 100 years from now, is he committing a crime? Should he be stopped? Almost everyone would say yes. Should he be tried before a court of law and prevented from doing further harm? Most of us would agree that he should.


Now, here's the tricky part: climate change is the bomb, and our great-grandkids are the victims. By transgressing planetary boundaries, we are seriously and effectively permanently undermining the ability of the planet to provide the kind of climate stability, ecosystem services and renewable resources that future generations will need to maintain their own societies. In the worst case scenarios, we are in fact dooming many of them to extreme suffering and early death. Life on a planet 10 degrees hotter is not something we would wish to have inflicted on ourselves.


And we don't really have the ethical or legal right to inflict it on our descendants. There is no legitimate basis for thinking that we have the right to use the planet up, that the property rights of our generation trump the human rights of all generations to come.


Put it another way: ethically, our riches are not our own. We hold the planet in trust, and as long as we don't use more of the planet's bounty than can be sustainably provided in perpetuity, we have the ethical right to enjoy the best lives we can create. But the minute we stray into unsustainable levels of consumption, we're not in fact spending our own riches, but those of future people, by setting in motion slow-fuse disasters that will greatly diminish their possibilities.

Unfortunately, nearly everyone in the developed world now enriches their lives at the cost of future generations. As Paul Hawken says, “We have an economy where we steal the future, sell it in the present, and call it G.D.P."

Now, obviously, most of us did not intend to find ourselves in this situation, and so we have a legitimate argument that we need a reasonable amount of time to change and eliminate our ecological impact. What a reasonable amount of time is, though, is becoming the subject of fierce debate, especially since it's clear that many people's definition of a reasonable time for change is sometime after they're dead.

The really interesting question: if future generations have legal rights -- and it's pretty clear they do -- in what courts might those rights be defended, and how?

Planetary Boundaries and the New Generation Gap

This is a great article I figured I would share with everyone.

by

Alex Steffen,

www.worldchanging.com

June 30th 2009

A sort of generation gap on global issues is emerging around the pace of change. The older generation, especially the older generation of well-heeled white men, today respond to our calls for rapid change by urging "realism" -- meaning an expectation of delayed action and minimal commitment. We saw this most recently in the U.S. debate about the Waxman-Markey climate bill, which both takes effect too slowly and demands too little, in comparison to what we know we need to do based on climate science.

Those of us with a little clearer grasp on reality know that every moment lost now has real consequences. Ecological crises and development challenges are combining in ways that make solving both issues much more difficult with every passing day. Clear thinking people -- and at this moment, polls show, most of us tend to be on the younger side -- get that we do not have decades to act. We hear the clock ticking.

We're about to hear a lot about "planetary boundaries." Planetary boundaries reflect the idea that the limits of the Earth to support human civilization can be measured across several natural systems. They're a scientific attempt to describe the base conditions for global sustainability. If we've going to thrive, we need to figure out how to do it within these limits.

Last year, a group of scientists led by the Stockholm Resilience Centre took a shot at defining those boundaries. They found three hard targets:

Climate Change: Stabilized concentration of carbon dioxide in the atmosphere at 350 ppm

Stratospheric ozone layer: A decrease of five percent in column ozone levels at a given latitude with respect to 1964-1980 values

Ocean acidity: Concentration of carbonate ions in surface sea water of the Southern Ocean should not fall below 80 µmol per kg-1


In addition, they defined seven other boundaries for which specific hard targets were more difficult to pin down but which nonetheless demanded attention: freshwater consumption and the global hydrological cycle; deforestation; interference with the global nitrogen cycle; terrestrial biodiversity; chemicals dispersion; marine ecosystems.

We're in the process of straying beyond every single one of these boundaries. Of course, each of these boundaries is a massive issue in its own right, the subject of a global debate involving hosts of experts and advocates; but put them together -- as we must, since they are all tied together and affect one another -- and we begin to see just how massive the ecological crisis at hand is.
But, as useful as the concept of planetary boundaries is, it also leaves out another critical interplay, the one between human aspirations and abilities and the very real generational thresholds we face.

We are headed towards a peak population of at least nine billion people shortly after mid-century. Almost all of those people will aspire to greater prosperity, quite reasonably in most cases (I think that trying to talk the world's poor out of their aspirations is a fool's game). That means we need to expect to see billions more people reaching for what they see as the good life.

At the same time, we can't repeat the path to wealth that made the developed world rich. We've already exceeded the planet's biocapacity; we're already beyond the planetary boundaries, meaning that business as usual has prohibitive environmental costs. We're running out of places to dump and spew waste without dire human cost. We've also used up a tremendous share of the planet's easy bounty -- from old trees to cheap oil to big fish to virgin metals -- meaning that conventional resource and energy use will largely come from more and more difficult (and often more and more ecologically costly) stocks. Peak everything will not only make getting rich the old fashioned way more expensive, it will also make it more destructive. The combination of what are technically known as declining stocks (less good stuff to use) and shrinking sinks (fewer places to safely put the bad stuff) will make development far more difficult for the world's poor this century than last.

Adding to that difficulty is the on-going waste of human potential, and the growing costs of lost opportunities to engage the world's poor in transforming their own situations.

Think in terms of medicine for a moment. We're starting to get our heads around the fact that compared to treating disease, preventing them is far cheaper, more effective and happier for the patient. Prevention, though, to a certain degree demands early commitment. Start a lifelong exercise, nutrition and stress-reduction program in your teens, and your results will be profoundly better than someone who starts one at 60 after a lifetime of smoking, eating junk food and working too hard. For that 60 year-old, it's still worth getting healthier, but there are hard limits on how healthy he will ever get.

What applies to medicine also applies to human development, especially now in countries with very young populations: the degree of sustainable prosperity we are capable of achieving depends to some large extent on how good a start we get, how quickly.

Even another two decades of the status quo will make many of our goals nearly impossible.

Needless deaths, injuries, sicknesses and malnutrition today will impose an astronomical cost on us over the coming decades. Missed opportunities to educate children (especially girls) leave lifetimes of limited opportunities. The trauma of conflict and collapse, of natural disasters or of family tragedies, could combine with the strains of living in extreme poverty to leave hundreds of millions with a lifelong difficulties coping. The disillusionment of a generation of young people, who find themselves trapped in corrupt or failing states, or simply shut out of opportunities for dignity and work in the global economy, can turn them away from productive engagement with the problems around them and turn some of them towards extremism and terror. As much as we want to believe in an endless potential for human transformation, the reality is that people's energies, spirits and opportunities for growth are themselves limited resources.

Right now, we're squandering them in mind-boggling volumes, and that waste has costs. With every passing year, the task of raising billions of people out of poverty to become parts of stable, democratic states with functioning economic, legal and health systems becomes more difficult.

And all this while climate vulnerabilities, food shortages and rising energy costs begin to undermine even the progress much of the developing world has managed so far. There are generational thresholds for change, and it is possible to fail to act boldly enough to move through them.

The brutal reality is that failure is possible in human societies as well as in ecological systems. There are points beyond which societal problems start to become effectively impossible to solves. And when you combine the two -- an on-going societal meltdown with massive ecological degradation -- the result can be real, catastrophic failure that lasts for generations, perhaps effectively forever.

Both the planetary boundaries we're exceeding and the generational thresholds we're failing to step through ought to be matters of concern for every person on the planet. We know now that in a thousand extremely practical ways we're all tied together through webs of ecological interdependence, global economics, culture, disease and public health, conflict and terror. It may be possible for large failures to happen while much of the rest of the world improves; some large failures may even be inevitable. But widespread failure to spread stability, human welfare and a reasonable degree of prosperity will ultimately doom any level of progress we make in keeping within our planetary ecological boundaries. And ultimately, a planetary collapse will leave no one -- not even the richest and best situated -- unaffected. Our children's hopes are dependent on the futures other children inherit.

This is why bright green solutions are so important. We here in the developed world need to not only redesign our lives to reduce our own impact; we need to reinvent prosperity itself, so that billions of people around the world can take the innovations we create and make their own versions of sustainable prosperity. And the reality is that it must be us; to think otherwise is to willfully ignore the massive disparity in research funding, institutional capacity and education levels that exists between the wealthy and the poor on this planet. (Besides which, we're responsible for causing many of these problems.)

We must also do it quickly. We need to do it yesterday. We can't simply plan to cut our own impacts down to a level that could be shared by everyone over the next four or five decades.

Even if we had that long a time to reduce our impacts -- and we don't -- there is no way the rest of the word can get stable and sustainably prosperous in that time frame unless we lead the way right now. Anything less than an all-out effort now is morally inexcusable. Small steps, incremental reductions, slow plans -- unless these are tied to big, systemic and quick solutions, they will not be enough. We need a bright green future, right now.

All that is the bad news.

Here's the good news: We can build that bright green future. We have the technological prowess, the design insight and even many of the working examples we need to transform our systems and reinvent our cities. We have the money. We may even be gaining the most needed components, vision and political will.

Here's the better news: Not only can we build it, but we'll be better off when we live in it. We will be better off in a stable world than a collapsing one, rather obviously. (It is a monumental failure of our public debate that our choices are still understood as an option between "going green" and the status quo; when in fact they are transformation or imminent ruin.) But most of the evidence indicates that we will be better off in a bright green future than we are now in our dark gray present: better off in crass material terms, with more disposable income, more comfortable homes, nicer communities and better food, but also better off in terms of quality of life, health, time demands and stress. What we gain outweighs what we lose, by far. Put simply, I believe that in almost every way a bright green future would be a better choice than the status quo, even if there were no planetary crisis at all.

There are plenty of reasons for despair and cynicism these days. But it's really important not to underestimate the power of the politics of optimism, the power of actually having better ideas and answers. They are especially powerful when the people opposing us have nothing whatever to offer besides a white-knuckled grasp on a broken status quo. Their only weapons are fear, uncertainty and doubt. It's time we counter with optimism, vision and examples. We need to counter with a future that works.

In the months leading up to Copenhagen we need to insist on the fierce urgency of now: on why we cannot wait, why we have no more time, why half measures and stalling tactics are no longer acceptable; why, in short, the day for real change has come. We need to make that point ring in the media, in political debates, in our corporate boardrooms, in our community meetings, in our classrooms, in our churches and at our cultural events. Everywhere people talk about who we are and where we are going, we need to loudly demand actual reality-based realism... and a bright green economy.

This summer is the calm before the clamor. This fall, we need to let the world know what time it is.