The moment of darkness

“Papa, Father Christmas lives at the North Pole!” my daughter announced with the confidence of a four-year-old.

Yes he does, I said, wanting her to experience this magic while she can. What is the North Pole like?

“Well, it is covered with ice and ... snow ... all white and cold ...and …”

But by the time she stops believing in a few years, I think to myself, it might not be. The 2007 ice shocked everyone, shrinking so much that the sea drew near the Pole. That year the IPCC had predicted a new ocean there by 2070. Two months later a new projection said 2030. Two months later they said five years. I'm already talking about Santa Claus; what else should I pretend?

What animals would Santa see at the North Pole? I ask.

“Well,” she begins, “there are polar bears, and seals, and ...”

Perhaps not for long. The polar bears eat the seals that eat the fish that eat the plankton, and the plankton are dying – 73 percent down since 1960. Half the plankton – almost half the animal mass of the Arctic – have disappeared since the Simpsons’ first episode. Maybe it’s because the oceans are growing warmer, maybe because they are getting more acid, maybe it's the plastic and chemicals we've poured into the oceans in my short lifetime. We just don't know.

- Brian Kaller, The Moment of Darkness.

What can small children understand and handle? What can we do to prepare them for a bumpy future? What does hope look like today? This is a moving Christmas Eve reflection from the father of a young girl as he looks to the future from amidst a moment of darkness.
(H/t Dave).

"By leaves we live"

Ice sheets: A new study confirms with greater accuracy than ever before that world's major ice sheets are melting at an accelerating rate. This is why sea level rise is happening 60% faster than was expected in the most recent IPCC report.

Coal boom: 1200 new coal plants planned. Three quarters of the new plants are to be located in China and India. A breakdown of the countries is available here. Though India's expansion plans need to be taken with a grain or two of salt.

Extinction is forever: Tim Flannery reflects on the challenges facing Australian biodiversity and suggests that the current approach isn't working. With a reply from David Bowman. Perhaps how do we triage conservation priorities?

Coal seam gas: Recent measurements (yet to be peer reviewed) suggest coal seam gas production may have significant "fugitive emissions" of methane that render the claims of the gas industry to be somewhat less bad for the climate questionable. Some have suggested that natural gas is methadone to coal's heroin.

Fracking: Stories from the front line in the US. In the UK, academics have just advised the government that it is "categorically clear" that pursuing a shale gas dominated energy strategy is incompatible with legislated UK climate targets. But it looks like they are going to do it anyway.

Big cats, small space: Only 25% of the original African savannah remains undeveloped, leaving less and less room for the iconic megafauna that call it home. Lion numbers are plummeting and they may soon be listed as endangered.

IPCC: The IPCC has been repeatedly wrong on climate change, frequently underestimating the rate and impacts of change.
Note that the first link makes an embarrassingly obvious mistake in its opening claim, confusing carbon with carbon dioxide and so getting the numbers hopelessly muddled.

Trees: All around the world, ancient trees are dying at an alarming rate.

The Arctic is melting: 18 reasons to care

Arctic sea ice has once again smashed all kinds of records - for extent, area and volume. Every year a huge amount of ice melts in summer and refreezes in winter, but the trend over the last few decades has been strongly downwards, especially during the summer months. In fact, this year, the extent of ocean with at least 15% sea ice cover declined to a level less than half of what it used to average just twenty years or so ago. Through it is harder to measure, the volume of summer sea ice is down by about three quarters from what it used to be. I posted an introduction to sea ice area, extent and volume back here.

When compared to our best reconstructions of the history of Arctic sea ice over the last 1450 years, the last few decades are, well, unusual. The graph above, which shows the ups and downs of summer sea ice extent over the years gives a sense of just how staggeringly quickly this part of the world is changing. Indeed, the collapse in sea ice is so rapid that it continues to stun even the scientists who have been watching it closely for decades. Back in 2007, the IPCC Fourth Assessment Report said that it was unlikely the Arctic would be seasonally free until after 2100.* Now, the UK Met Office says it is likely sometime between 2040 and 2060, most other Arctic organisations speak about sometime around 2030, while a handful of individual experts warn that, depending on weather conditions, it could be as early as the next Olympics in Rio. There is almost no evidence that this has occurred for at least the last few hundred thousand years (estimates range from 700,000 to 4 million years). *There are different definitions for what "ice-free" means. The most common is when extent drops below one million square kilometres, meaning that there might still be some ice clinging on around the north Greenland coast or in bays and inlets in the high Canadian Arctic, but effectively, the main ocean is free of ice.

Whatever the precise timing, why do we care? So what if some polar bears drown? Why does it matter to me what is happening thousands of miles away in the middle of an ocean amidst a deserted wilderness? Because the Arctic is closer than you think. The effects of declining summer sea ice are many. Here are eighteen reasons to care about the likelihood of a seasonally ice-free Arctic Ocean in the coming years. Only one is polar bears:

1. Polar bears: And walruses, seals and all the other unique Arctic wildlife that depend on sea ice. Seasonal sea ice loss threatens the unique and endemic Arctic biota. The polar bear is an photogenic icon, and as the largest terrestrial predator it instantly commands widespread respect and attention, but there is so much more at stake than simply polar bears.

2. Cultural loss. The loss of sea ice undermines the way of life of various indigenous groups in the Arctic, who rely on hunting and the ice for their livelihood and culture.

3. Infrastructure damage: As the Arctic region is warming, the permafrost that covers the land is both melting and being rapidly eroded. There are many structures and roads built on the permafrost that are already suffering severe damage.

4. Albedo change: Less floating white ice means more exposed dark water, which absorbs more solar radiation, increasing the total incoming heat flux of the planet, and specifically of the Arctic Ocean. The reflectivity of the planet's surface is called its albedo, and the decrease in albedo caused by loss of Arctic ice during the period when it is receiving 24 hours of sunlight is considered by many scientists to be the greatest single threat on this list.

5. Permafrost methane: A warming Arctic Ocean and atmosphere speeds the melt of permafrost in Canada, Siberia and Alaska, not only threatening infrastructure (see #3), but also releasing stored methane (CH₄), a highly potent greenhouse gas that degrades into carbon dioxide, making it both a short term climate nasty and a long term headache. The total amount of frozen methane is vast and although it unlikely to all melt quickly, it is soon likely to become a significant and sustained drag on efforts to cut emissions. More emissions from thawing permafrost means less room and time for us to make our own transition away from carbon-intensive energy systems.

6. Submarine methane: Warmer waters increase the rate at which vast submarine deposits of methane clathrates found along the Siberian continental shelf destabilise and are released to the atmosphere, giving a further kick to warming. Some observers are petrified this "clathrate gun" could end basically all life on earth in matter of years through a catastrophic self-perpetuating release. As I've noted previously, scientists are yet to see a convincing geophysical mechanism for this being a sudden and catastrophic release (with consequent spike in global CH₄) rather than a progressive leak resulting in an elevation of CH₄ with rising CO₂. This represents further drain on our carbon budgets, though the precise scale and timing of these emissions are less understood than those from terrestrial thawing.

7. More available heat: To convert ice at 0ºC to water at 0ºC takes energy, even though the temperature has not changed. The considerable energy involved in this phase change is called latent heat. Without ice in the ocean sucking up extra energy during summer, the solar energy that previous went into melting ice can go into the oceans (and later be released to the atmosphere). This is like removing a handbrake, though my back of the envelope attempts to quantify it suggest it will be significantly smaller effect than albedo change (#4). I'd like to see these calculations made by someone who knows what they are doing.

8. Wacky weather: This is something of a wild card and could prove to be the biggest danger to human society. Losing the ice is already changing wind patterns around the Arctic, which in turn affect the weather throughout the northern hemisphere. There is some evidence that more exposed water in the Arctic and a decreased temperature difference between the equator and pole (since the Arctic region is warming much faster than further south) is increasing the amplitude of the meanders in the jet stream. In turn, this slows down progression of the meanders, leading to "blocking patterns", where one region gets "stuck" in a certain weather pattern, whether heatwave, drought or flood. The 2010 Moscow heatwave that killed 11,000 people and sent the price of wheat skyrocketing (in turn helping to spark the Arab Spring), the 2010 Pakistan floods that displaced 20 million people, the 2010/11 record cold winters in Europe and parts of the US and the 2012 US heatwave and drought have all been linked to unusually persistent blocking patterns. Losing the ice may mean we see more of these kinds of things. The jury is still out on this theory, but if not precisely like this, the loss of Arctic sea ice will almost certainly affect wind circulation patterns and so weather both regionally and hemispherically.

9. Greenland melt: Over the long term, this may be the biggest change. The warmer the Arctic Ocean gets, the warmer Greenland is likely to get, and the faster its glaciers slide and melt into the sea. While floating sea ice doesn't affect sea levels (and there's relatively little of it anyway), there's enough ice on top of Greenland to raise sea levels by 7.2 metres (on average). As I read it, glacial draining and calving of the ice sheet is a larger sea level rise contributor than straight melting (thus the recent fracas over dramatic surface melt may not be the key issue for Greenland - remember, this recent melt event cut centimetres off a sheet that averages over two kilometres thick). The real danger is the acceleration of ice flow dynamics (i.e. the ice cube is more likely to slide off the table before it has finished melting). And the largest boost to glacier acceleration is from warming oceans meeting marine terminating glaciers. No one is entirely sure how long this will take, but it is a process that once it is underway in earnest, is likely to have a momentum of its own, meaning that our descendants will be committed to ever rising sea levels for centuries to come. The somewhat good news is that it is also a process that (on present understandings) is assumed to have some physical constraints due to friction (i.e. there are speed limits for glaciers, even in very warm conditions). The West Antarctic ice sheet, being largely grounded on bedrock well below sea level is actually more plausibly in danger of catastrophically sudden break-up, though warming in the Antarctic is currently only a fraction of what is being observed in the Arctic.

10. Resource conflict: An increasingly ice-free Arctic opens up a geopolitical minefield as nations scramble to take advantage of the resources previously locked away under the ice. The starter's gun for this race has well and truly fired, with various oil companies sending rigs to begin drilling for oil and gas this season. As one signal of the seriousness with which this is now taken, meetings of the Arctic council (comprised of nations bordering the Arctic) now attract Hillary Clinton rather than a minor government official.

11. More oil: The presence of significant amounts of oil and gas under the Arctic Ocean has been suspected and known for some time. Less ice means that fossil hydrocarbons that were previously off limits now become economically viable to extract, thus increasing the pool of available carbon reserves and so worsening the challenge of keeping most of them underground.

12. Fishing: Another resource now increasingly able to be exploited due to the loss of seasonal sea ice. Pristine (or somewhat pristine) marine ecosystems are thus exposed to greater exploitation (and noise pollution).

13. Shipping lanes: The fabled North West passage through the remote islands of Canada has been open to commercial shipping without icebreakers only four times in recorded history: 2011, 2010, 2008, 2007. The North East passage has also been open in recent years. These previously inaccessible Arctic shipping routes reduce fuel needs of global shipping by cutting distances (a negative feedback) but also brings more diesel fuel into the Arctic region, leaving black soot on glaciers (a positive feedback). I'm not sure which is the larger effect overall.

14. Toxin release: For various reasons, certain toxins and heavy metals from human pollution seem to accumulate in Arctic sea ice. As it melts, they are being released once more into the environment.

15. Invasive species: Melting ice reconnects marine ecosystems that were previously separated by ice, enabling migration of species into new regions, with unpredictable ecosystem changes as a result. This is already occurring.

16. Ocean circulation? These last three points are more speculative and I'm yet to see studies on them. But loss of sea ice could well change the patterns of ocean currents in the great global conveyor belt known as thermohaline circulation. This drives weather patterns throughout the entire globe.

17. Acidification acceleration? By increasing the open ocean surface area for atmosphere-ocean gas exchange, the rate of ocean acidification could slightly increase. Would this make any difference to ocean capacity to act as CO₂ sink or rate of acidification? This could well be irrelevant, but it is a question I have.

18 Political tipping point? The loss of virtually all perennial Arctic sea ice would be a highly visual and difficult to dispute sign of rapid and alarming climate change, representing a potential tipping point in public awareness and concern. If we are waiting for that, however, before we make any serious efforts to slash emissions (especially if it doesn't occur until 2030 or later), we'll already have so much warming committed that we'll pretty much be toast. At best, therefore, this point might consolidate public support for massive rapid emissions reductions already underway. These eighteen reasons can be summarised in five broad headings:

1. Direct effects upon local wildlife, human communities and infrastructure (1, 2, 3, 12, 14, 15);
2. Positive feedback affects that accelerate the warming process (4, 5, 6, 7, 11);
3. Changes to human economic and political systems through the opening up of previous inaccessible resources and routes (10, 13, 18);
4. Disruptions to the great atmospheric and oceanic circulation patterns that shape the experience of billions of people directly (8, 16);
5. Acceleration of long term threats (9, 17).

The loss of Arctic sea ice will not suddenly be the end of the world, but it represents a major milestone on the path to self-destruction along which we are currently hurtling with accelerating speed.

UPDATE: My opening graph needs some important further clarification. The unamended graph is a 40 year smoothed average, while the additional material displays year-on-year changes and so is not comparing apples to apples. However, using only 40 year averages to capture the dramatic changes of the last few years is also likely misleading. There is further discussion of this image here, here and here.

The Other Arab Spring, and other stories

Tom Friedman (NYT): The Other Arab Spring: "All these tensions over land, water and food are telling us something: The Arab awakening was driven not only by political and economic stresses, but, less visibly, by environmental, population and climate stresses as well."

SMH: Coal seam gas is no climate saviour. On the contrary, exploiting alternative fossil fuels only increases the total available pool of carbon that can be transferred from safely underground into the atmosphere and oceans. Indeed, the benefits of gas over coal are frequently overstated. Natural gas is a bridge to nowhere, in the absence of major improvements to leaking. Leaks throughout the supply chain mean that, from a climate perspective, natural gas is at best only slight better than coal (and may actually be worse) over a twenty year timeframe, since methane, while relatively short-lived, is far more potent at warming the planet than carbon dioxide. According to another new study, the benefits of even a massive switch from coal to gas would be relatively minor and would not be seen until late this century.

The Conversation: Medium density is the future.

Yahoo: Beyond 2ºC. Former UNFCCC chief admits we're not going to hold warming to two degrees, long agreed as an international target. Anyone reading the literature would have known this for some time (we're on track for four degrees. Or more), but that someone with so much invested in the international negotiations to admit this publicly is a big step, largely ignored in the media. H/T Lou.

TAE: The nature of tipping points. Some clarity on a commonly misunderstood and misused phrase. Some of the final comments about CO₂ are a little overstated, but it's a useful summary.

The Atlantic: Physiological limits of adapting to warming. A summary of this 2010 PNAS paper by Sherwood and Huber, in which they point out that there are certain climatic conditions above which humans simply cannot survive.

CC: Fascinating new study on the effect of a melting Arctic on northern hemisphere weather. The basic idea is that as the Arctic warms faster than the rest of the globe, the temperature difference between the Arctic and the equator drops, which results in a slowing down of the jet stream, which in turn results in slower-moving weather patterns, which exacerbates extreme weather by making dry or wet, hot or cold spells all longer and so more intense. This is yet another study contributing to the growing body of evidence that the extreme cold UK winters of 2009/10 and 2010/11 may well have been linked to changes in the Arctic. More of these studies are linked in the comments back here.

Bill McKibben: How we subsidise our own destruction. McKibben offers five pieces of simple and straightforward advice on distinguishing good from bad subsidies.

Guardian: Lloyd's of London warns against Arctic drilling. No one really knows how we would clean up an oil spill in the Arctic, which in icy waters would not break down at anything like the pace of the BP Gulf of Mexico disaster. But even if all the oil is safely delivered from under the Arctic to the atmosphere, via a brief sojourn in our cars, it will still spell the end for Arctic ecosystems. And much else besides.

Not with a bang but with a sustained leak

Real Climate: Why Arctic methane release is bad, not catastrophic. This is a very important post. Many have been deeply worried about the possibility of a so-called "methane gun" in which truly staggering volumes of frozen methane clathrates that sit on and under the ocean floor of the Siberian continental shelf are released in a runaway feedback as the Arctic Ocean warms. Since methane (CH₄) has something like 100 times the warming potential of carbon dioxide over a twenty year period, it has been hypothesized that a rapid release of large volumes of stored methane could cause a sudden and likely catastrophic surge in global temperatures. A variation or accompaniment to this scenario is the rapid release of methane from thawing permafrost in Siberia. In the linked post, a senior climatologist argues that it is far more likely that methane release will be chronic rather than acute, and given methane's relatively short atmospheric residency (about ten years), this will lead to a dangerous (though not immediately catastrophic) rise then stabilisation of methane levels, supplementing but not overwhelming warming from carbon dioxide. However, since atmospheric methane gradually degrades to carbon dioxide in the presence of oxygen, a slow release would not only give a bump to methane levels but would also see carbon dioxide levels continue to rise. Unlike methane, carbon dioxide is basically forever, with about half of any increase in atmospheric concentration we experience likely to remain for centuries and about a quarter likely to remain for at least ten thousand years. So a relief (of sorts) for us. It's a bit like finding that the Nazis don't, as feared, have a nuclear weapon, but they do have twice as many conventional forces as was thought.

CD: A recent NASA study suggests that climate change may modify 40% the earth's surface from one biome (e.g. forest, savanna, tundra, etc.) to another.

ABC Religion and Ethics: The New Evangelicals: How Christians are rethinking Abortion and Gay marriage. Despite being published by the ABC, this piece (an extract from a new book) has its eyes on the US scene. How applicable are the trends it identifies elsewhere amongst evangelicals?

Guardian: More farmers needed. Feeding seven, eight, nine, ten billion without strip-mining the soil, using the atmosphere as a carbon dump, squeezing out biodiversity, depleting finite fuels or overloading rivers, lakes and oceans with nutrients requires more organic poly-cultural farming, which can often be more productive per unit of land overall than present industrial monocultural farming. However, it is less productive per unit of labour, meaning more people employed (again) in growing food, which probably means higher food prices and a greater share of incomes devoted to food. This in turn may help address obesity, though at the risk of increasing malnutrition associated with poverty. Hence, addressing inequality is also critical.

Peter preaches on the parable of the talents (Matthew 25.14-30). This passage is often used as a key plank in a justification of usury. There are elements in the narrative and context that suggest a very different reading. Peter highlights the key theological question lying behind this hermeneutical issue: which kind of God do we serve?

McKibben: On being hopefully naïve about getting corporate money out of US politics and why being cynical is hopeless.

Guardian: What have trees ever done for us?

NYT: My Guantánamo Nightmare. There are good reasons due process has come to be highly cherished in all civil societies.

Monbiot: The limits of vegetarianism, in which George changes his mind and shifts to ethical semi-vegetarianism. The Conversation publishes an even more provocative piece against ecological vegetarianism, and a very interesting discussion in the comments ensues.

SMH: Energy and water. In the 20thC, global energy use increased thirteen-fold and water use increased nine-fold. The two are related and any future has to consider our water habits, which might be less about having short showers than having cold ones, since energy production is one of the most water-intensive things we do (though conversely, where water is scarce, desalination is one of the most energy-intensive things we do).

Our ecological crises: Wake up and smell the stats

I'd like to put together a list of credible ecological statistics from reputable sources as a resource. Please post links to any such existing lists you are aware of or add any that have grabbed your attention (please make sure you include a source). To start us off, here are a few off the top of my head and in no particular order:

• Humans now affect over 80% of the world's land, 100% of the oceans and 100% of the atmosphere. Around 40% of the oceans have been "strongly affected" by our activities.

• Half of the world’s tropical forests have disappeared since World War II and roughly another 10 million hectares are being felled each year — the equivalent of 40 football fields every minute. The majority are being cleared by illegal loggers.

• Seventy-seven percent of global fisheries are fully exploited, over exploited or have been depleted. Based on 1998 data, the UN Food and Agriculture Organization estimates that global fishing fleets "are 2.5 times larger than needed."

• Marine apex predator numbers (i.e. large fish and sharks) have declined by 90% over the last 50-100 years, mainly due to overfishing (more stats on marine life decline). Another recent study put tuna decline at 60% in the last 50 years.

• Deep-sea trawling damages an area of sea bed twice the size of the contiguous USA each year.

• We're removing 9-10,000 tonnes of fish from the ocean every hour.

• As far as we can work out (and there are wide error margins on this one), species are currently going extinct at something like 100-1000 times the background rate of extinction, faster than at any time since the extinction of the dinosaurs 65 million years ago. It is likely that somewhere between 5,000 and 30,000 species become extinct each year. All the primary drivers of these trends are linked to human activities: land use changes, habitat destruction, pollutants, invasive species, anthropogenic climate change.

• Twenty-two percent of the world's plant species are threatened, and another 33% have an unknown status.

• Twenty-two species of Australian mammals become extinct between 1900 and 1960. Recently, mammal populations in Kakadu have gone into freefall.

• In the 1950s there were 450,000 lions worldwide and now there are only 20,000. Leopards are down from 700,000 to 50,000, cheetahs from 45,000 to 12,000 and tigers from 50,000 to just 3,000. And in the last forty years, elephant numbers have halved across protected areas in West and Central Africa. Globally, since 1970, wild vertebrate numbers have declined by almost one third.

• One study in 2001 put the annual cost of alien invasive species to the global economy at US$1.4 trillion annually, or about 5% of total GDP.

• Overall, current ecological damage is estimated to cost the global economy US$6.6 trillion annually (yes, with a "t").

• An area of arable land roughly the size of Greece or Nepal is lost to soil erosion and desertification each year. Since 1950, 1.9 billion hectares (4.7 billion acres) of land around the world has become degraded.

• By 1995, humans consumed 20% of global net terrestrial primary production. By 2005, it was 25%.

• Earth overshoot day occurs earlier each year. This is a notional measure designating the point in the year where global consumption exceeds the annual renewable biocapacity of the planet. In 2011, it falls on 27th September. Another way of saying this is that in 2010 the worldwide human population used about 135% of the resources the earth can generate in a year.

• Between 2000 and 2010, the number of cars and motorcycles in China increased twentyfold and there are now between 800 million and one billion cars in the world.

• As we burn 196,442 kilos of coal, 103,881,279 litres of natural gas and 150,179 litres of oil a second, we're dumping 62,500 tonnes of heat-trapping emissions into the earth's atmosphere every minute. Since the industrial revolution, we have increased the carbon dioxide in the atmosphere by more than 40% and increased the acidity of the oceans by 30% (a rate faster than anything seen before in Earth's history). The radiative forcing of the carbon dioxide human activities have put in the atmosphere is the equivalent of adding the energy of more than ten Hiroshima bombs every second and is likely the most significant contributing factor in Greenland losing around 9000 tonnes of ice every second (and accelerating), in about 90% of glaciers globally retreating, in precipitating the largest marine migration in two million years due to warming oceans and in ensuring that the last 318 consecutive months have had a global temperature above the 20th century average. The last month with below average temperatures was February 1985.

• Arctic summer sea ice has declined by 40% in extent and more than 75% in volume over the last three decades and 2011 saw new records for lowest extent and volume since records began. Due to increased summer melt, the fabled North West passage through the remote islands of Canada has been open to commercial shipping without icebreakers only four times in recorded history: 2011, 2010, 2008, 2007.

• Nearly 5.5 billion people (about 80% of global human population) live in an area where rivers are seriously threatened.

• The rate at which we are extracting groundwater has more than doubled between 1960 and 2000 and since 1960 18 trillion tonnes of water have been removed from underground aquifers without being replaced, enough to raise global sea levels by an average of 5 cm.

• In 1960, the Aral Sea was the world's fourth largest lake yet by 2000 it had shrunk to 20% of its original size due to over-irrigation on its feeder rivers.

• We put more than six million tonnes of plastic in the oceans annually, which is something like eight million pieces of litter each day, and over 119,000 items floating on every square kilometre of ocean.

• It is likely humanity has had a greater effect on the nitrogen cycle than any other phenomenon for the last 2.5 billion years.

Note that none of these are projections of present trends, they all relate simply to our present condition. This is currently an unsystematic sample; I have not (yet) tried to cover all of the various ecological and resource crises. This post may grow as I continue to gather more information.
I also posted some further statistics back here, though have not had a chance to post links to all the sources of those, and their credibility is something of a mixed bag.

Every second of every day

Greenland is losing around 9,000 tonnes of ice every second. But we're doing our best to mitigate this problem by removing 9-10,000 tonnes of fish from the ocean every hour. And, of course, by dumping 62,500 tonnes of heat-trapping emissions into the earth's atmosphere every minute. The radiative forcing of the carbon dioxide human activities have put in the atmosphere is the equivalent of adding the energy of more than ten Hiroshima bombs every second.

Climate Central: Extreme events related to climate change threaten three US nuclear facilities.

Guardian: UK oil and gas rigs creating spills at least once a week in 2009 and 2010. Remember, the UK claims to have some of the world's highest standards in regulation of off-shore drilling safety. Now take these operations into freezing Arctic waters, where microbes won't be so quick to deal with spills as there were in the tropical waters of the Gulf of Mexico, and where extreme conditions prevent the kind of response available there. Arctic drilling is doubly suicidal: It brings new risks to relatively untouched ecosystems and ensures more greenhouse gases in our atmosphere for thousands of years. And the only reason these waters are opening up to this exploitation is the decline of the sea ice caused by the combustion of fossil fuels in the first place.

Grist: In the worst drought in Texas history, 13.5 billion gallons of water used for fracking. Fracking is the controversial process used to exploit reserves of shale gas, a fossil fuel touted in some circles as a cleaner alternative and as a silver bullet solution to US energy security, but which is worse than coal or conventional oil when gas leaks are included (since natural gas is a very potent greenhouse gas and degrades over time into more carbon dioxide), has been associated with the poisoning of groundwater, and which may well prove commercially unviable much faster than expected according to a recent NYT report (while Stoneleigh offers an even bleaker outlook).

Independent: The plight of the big cats. According to Dereck and Beverly Joubert, leading big cat conservationists, "There were 450,000 lions when we were born and now there are only 20,000 worldwide. [...] Leopards have declined from 700,000 to 50,000, cheetahs from 45,000 to 12,000 and tigers are down from 50,000 to just 3,000."

CP: Food prices hover at historic highs.

IPS: Rising temperatures melting away food security. The impacts of climate change on food production are not limited to heat stress on crops (which may suppress global yields by 5-10% per degree of warming), but also include disruptions to precipitation patterns (i.e. floods and droughts), inundation (or salination) by rising sea levels, loss of glacial melt water (a critical factor, according to this article), increased erosion and shifting distribution of pests and invasive species.

Yale360: Wasting phosphate. "It takes one ton of phosphate to produce every 130 tons of grain, which is why the world mines about 170 million tons of phosphate rock every year to ship around the world and keep soils fertile. [...] We could hit “peak phosphorus” production by around 2030. [...] Presently, there simply are no substitutes for phosphorus."

Reuters: As CO2 levels rise, land becomes less able to curb warming, claims new study in Nature.

Mongabay: The unexpected effects of removing top predators. Another new Nature paper claims that "The loss of these animals may be humankind’s most pervasive influence on nature".

Energy Bulletin: Dilithium crystals and tomorrow's energy needs.
Image by CAC.

On track for 4ºC

At Copenhagen in 2009 and then once more in Cancún in 2010, the nations of the world agreed on the goal of limiting global warming (the most talked about part of climate change and a rough indication of the overall severity of change) to a rise in average surface temperature of no more than 2ºC above pre-industrial levels. We are already almost 0.8ºC up, with something like another 0.5ºC already committed due to the time lag between emissions and their effects. To have a 75% chance of keeping overall warming under 2ºC by 2100 would require us to emit no more than a trillion tonnes of carbon dioxide between 2000 and 2050. How much is a trillion tonnues? Well, simplifying matters somewhat, and given that we've already used a fair chunk of that, the bottom line is that it woud require us to leave more than half of the economically recoverable fossil fuels (oil, coal, gas) in the ground. That is: no more searching for new fields; no further exploitation of the non-conventional sources (shale gas, tar sands, methane hydrates); no inclusion of fields currently too expensive to exploit. And we leave more than half of what is already known and can already be removed profitably in the ground.
Those interested in the fine print of the numbers used in these calculations can consult this quite technical study.

Two degrees would still bring all kinds of very undesirable consequences. It would be likely to mean virtually no summer sea ice in the Arctic, the loss of most coral reefs around the world, potentially dramatic declines in total ocean productivity (at least as far as fish are concerned; jellyfish may do quite well), the eventual extinction of hundreds of thousands or even millions of species, significant suppression of total global crop yields (when total food demands are likely to double by 2050), sea level rises of 50-100 cm by 2100 and of many metres over the coming centuries, changes in precipitation patterns leading to both worse droughts and floods, a more fragile Amazon and already the possibility of passing thresholds that could precipitate sudden and irreversible changes. Two degrees is no walk in the park.

While the world agreed that 2ºC ought to be treated as an upper limit (except low-lying island nations, for whom 2ºC would already likely be a death-sentence), the pledges made as a result of these negotiations put us on track for a world that is more likely to be around 4ºC warmer by 2100, and more than 6ºC warmer during the following century. Note that these pledges are in some cases aspirational and lack any legislative framework to accompany them. In Australia's case, our pledge (lying quite firmly at the less ambitious end of the scale) is dependent upon the implementation and success of the Gillard government's proposed scheme to put a price on carbon. So even were we (and all other nations) to implement successfully our plans, we are still far more likely to be at 4ºC by 2100 than anywhere near 2ºC.

If a 2ºC world sees us suffering from a wide range of very difficult and worsening challenges that will stretch our ability to cope, a 4ºC world would be unrecognisable. A conference this week looking at the likely impacts on Australia of a four degrees rise suggested that Australia, the world's sixth largest food exporter, may no longer be able to feed itself. The difficulty of understanding just how different such a world would be is illustrated by the following quote from Professor Hans Joachim Schellnhuber, Chair of the German Scientific Advisory Council, advisor to the German Chancellor Angela Merkel and Director of the Potsdam Institute for Climate Impact Research (PIK). In March 2009, Schellnhuber said that on a four degree world the planet’s “carrying capacity estimates [are] below one billion people.”*

Just let that sink in.

Or find ways to avoid thinking about it.
*Carrying capacity is a complex and contested notion and obviously depends on a range of assumptions about average standard of living. The point is not to suggest that one billion is a fixed limit, but simply to highlight how severely compromised the systems on which we rely for a world of seven billion people may be in a four degrees warmer world.

UPDATE: Kevin Anderson, until recently the director of the U.K.’s leading climate research institution, the Tyndall Energy Program, had this to say about four degrees: “a 4 degrees C future is incompatible with an organized global community, is likely to be beyond ‘adaptation’, is devastating to the majority of ecosystems, and has a high probability of not being stable.”

Incompatible with an organised global community. Parse that how you will, it ain't pretty.

On thin ice

Guess the graph competition answer
Last Wednesday, I posted this graph and asked for guesses as to what it represented. Aside from a few humorous suggestions, most answers were in the right ballpark, suggesting it had something to do with our melting cryosphere. This is perhaps one of the best known effects of climate change (or that part of climate change known as global warming), yet there is widespread confusion about the details.

The correct answer is that the graph represents the Arctic sea ice volume over the last few decades. The worrying downward trend is accelerating, but, unlike the graphs for Greenland or Antarctica, which are also heading down, the number on the y-axis are absolute figures. That is, while Greenland and Antarctica are losing increasing amounts of ice, compared with their total volumes, the amounts currently being lost are miniscule. For them to completely melt would be catastrophic, raising sea level tens of metres, but this is likely to take centuries, if not longer. However, the Arctic Ocean is getting seriously close to "ice-free" in summer,* an event most of us are likely to see within our lifetimes, and which we may well witness this or next decade, according to some experts. Certainly, extrapolating those trend lines points to an early grave for our planet's white top. The lines are unlikely to simply follow that curve, for various reasons, but scientists can identify no reasons to think the trend will reverse anytime soon.
*As long as Greenland still has significant amounts of ice, a residual amount of sea ice is likely to survive. "Ice-free" is usually qualified as largely ice-free. This is different again to an ice-free North Pole, which simply means that there is no sea ice cover at the North Pole, while there might still be some polar ice cap remaining.

What is Arctic sea ice?
It is important to highlight that we are talking about sea ice, that is ice that floats on top of the Arctic Ocean and which expands in winter and contracts in summer. It is generally not nearly as thick as people imagine (averaging just a metre or two) and any given piece of ice is unlikely to be more than a few years old, since it is constantly in motion due to wind and ocean currents and each summer much of it melts. Nonetheless, there has been permanent sea ice cover on the Arctic Ocean for at least somewhere between the last 700,000 and 4 million years, allowing the evolution of unique and endemic species (i.e. not found elsewhere). Since the ice is floating, the concern is not that melting will directly raise sea levels, both because the actual volume of ice is pretty miniscule compared with Greenland and (especially) Antarctica (for comparison, while Arctic sea ice is generally at most a few metres thick, Greenland's ice sheet is generally more than 2 km thick, and over 3 km at points. Antarctica is about ten times greater in volume again) and because floating ice displaces an almost identical volume of water to that contained in the ice (melting ice in a glass of water doesn't cause it to overflow).

Why are people worried?
Concern about the loss of Arctic sea ice is eightfold.

First, it is a canary in the goldmine: a visually dramatic sign of temperature changes that is relatively easy for the public to grasp.

Second, it threatens the unique and endemic Arctic biota (of which polar bears are of course the poster child).

Third, this in turn undermines the way of life of various indigenous groups in the Arctic, who rely on hunting and on the existence of sea ice for their livelihood.

Fourth, less floating white ice means more exposed dark water, which absorbs more solar radiation, increasing the total heat budget of the planet, and specifically of the Arctic Ocean.

Fifth, a warming Arctic Ocean and atmosphere speeds the melt of permafrost in Canada, Siberia and Alaska, not only threatening infrastructure built on it, but also releasing stored methane, a highly potent greenhouse gas that degrades into carbon dioxide, making it both a short term climate nasty and a long term headache.

Sixth, and perhaps of even greater concern, warmer waters increase the rate at which vast submarine deposits of methane clathrates destabilise and are released to the atmosphere, giving a further kick to warming. There is some debate about whether this process is likely to be slow and gradual or whether it might occur relatively suddenly, a process somethings colloquially called a "clathrate gun".

Seventh, the warmer the Arctic Ocean gets, the warmer Greenland is likely to get, and the faster its glaciers slide and melt into the sea. No one is entirely sure how long this will take, but it is a process that once it is underway in earnest, is likely to have a momentum of its own, meaning that our descendants will be committed to ever rising sea levels for centuries to come. Altogether, there is enough frozen water in Greenland to raise global sea levels by more than seven metres.

Eighth, an increasingly ice-free Arctic opens up a geopolitical minefield as nations scramble to take advantage of the resources previously locked away under the ice. The starter's gun for this race has well and truly fired (see video below).

Area vs volume
Another crucial distinction to keep in mind (apart from the difference between wafer-thin and highly vulnerable floating sea ice and gigantic land-based ice sheets that are both more stable and yet ultimately of greater direct threat) is between sea ice area/extent on the one hand and volume on the other. Area/extent is the easiest metric to measure with a satellite image (there is a slight technical difference between these two terms, but they are both basically concerned with a two dimensional account of how much of the Arctic ocean is covered with floating sea ice). Extent has been dropping at a slower rate than volume, which means that the remaining ice is getting thinner. Those only looking at the numbers for area or extent might be fooled into thinking the decline is only worrying, rather than alarming. While summer minimum extent has dropped by about a third over the last thirty years, volume is down by more than three quarters. And human activities are largely to blame.

The road ahead
The Arctic is one of the places where the climate change is already hitting the road. The transformation of the landscape is not merely a computer projection, but observable today. Its consequences are already negative, but the trajectory is even worse. What kind of path are we walking? And where will we find the courage and humility to turn around if we don't like where it is going?
The video at the top of the post is from a recently broadcast BBC programme, covering some of the implications of this story, which also appeared on the BBC news site.

Ecological responsibility and Christian discipleship I: Human planet

This will be the first in three posts giving a slightly modified version of a sermon I delivered a few weeks ago based on Genesis 1. The three posts are as follows:
I. Human planet: Welcome to the Anthropocene.
II. The Community of Creation: Genesis 1.
III. Recycle or repent? Our response.

Human Planet: Welcome to the Anthropocene
We no longer live on the same planet on which we were born. I’m not just talking about the internet and globalisation, or trends in fashion and music. The chemistry of the oceans and atmosphere, the stability of the climate, the diversity and health of ecosystems are all very different to what they were. Human activity over the last handful of decades has altered the face of the globe in ways so profound that it will be visible in the geological record millions of years into the future. The Geological Society of London, which is the UK national society for geoscience and the oldest geological society in the world, is currently considering a serious proposal to declare that we have now left the Holocene and entered into a new geological epoch, called the Anthropocene, named after anthropos, which is Greek for human, because we humans are having such a extreme effect on all the ecosystems and even geology of the planet. I hardly need to tell you that most of it isn't a positive effect.

Think of the most remote places on the planet, places so wild and desolate that none live there. No matter where you picture, human fingerprints are all over the landscape.

You are probably aware that Arctic summer sea ice is in terminal decline and many of us in this room are likely to live to see a largely ice-free Arctic in summers to come. This winter, while we shivered through a December that was 5ºC below average, parts of the Canadian Arctic averaged 21ºC above their long term mean. Permafrost is no longer looking so permanent and some now call it "tempfrost". As it melts, not only are roads and buildings sinking and breaking, but it is releasing more and more of the methane and carbon dioxide that have been locked away for millennia and which will, of course, only make the melting worse.

If the Arctic isn't pristine, then perhaps the mountains, the high Andes and towering Himalayas? Well, again, you're probably aware of the accelerating glacier melt occurring on 95% of all glaciers, including the most remote. And in many places the melt is accelerated when soot particles land from cooking fires and factories land on the ice, darkening the surface and absorbing more solar energy. Indeed, thanks to Julian Assange, we know that the US State Department was told by the Dalai Lama that addressing climate change is a higher priority for Tibet than independence from China.

What about the deep Amazonian rainforest where there are still to this day dozens of uncontacted tribes? Yet first contact for these indigenous groups is most likely to be with loggers. Although deforestation rates have declined from a decade ago, tropical rainforests continue to be bulldozed at a rate of a football field every few seconds. Eighty percent of the world's ancient forests have been destroyed or degraded, half of that has been in the last 30 years.

What about bottom of the ocean? Even there the human fingerprints are everywhere. Deep sea trawling by commercial fishing fleets drags heavy metal beams over the sea floor, crushing and scattering slow-growing deep corals and other creatures and kicking up plumes of underwater dust that can be seen by satellites. And each year, an area twice the size of the continental United States is bottom trawled, scooping up more fish than the ocean can replenish. Four-fifths of commercial fish species are considered by marine biologists to be fully-exploited, over-exploited or have collapsed. On our current trajectory, no commercially-viable fish stocks will be left by the time my daughter turns 40.

Feeling stressed? Breathe in – breathe out – breathe in – breathe out. Every second breath comes from phytoplankton, microscopic plant-like organisms in the oceans that are the basis of the marine food chain and which are the source of over half the planet's oxygen. And yet, there is evidence that the number of phytoplankton has declined by 40% since 1950. I've already alluded to climate change, but did you know that all the excess carbon dioxide in the atmosphere is also changing the chemistry of the oceans? The planet's oceans are on average 30% more acidic than pre-industrial times, more acidic than they have been for millions of years and changing faster than any known previous shift. And they are getting warmer too. Climate change is first and foremost oceanic change, since oceans absorb more than 93% of the extra energy trapped by our greenhouse gas pollution. Oceanic currents are shifting. Sea levels are rising. The climate is warming: 2010 was the equal warmest year at the end of the warmest decade, which followed the previous warmest decade, which followed the previous warmest decade on record. The last 311 consecutive months have all been warmer than the 20thC average.

Seasons are changing. Plants flowering earlier in Spring, migrations and hibernations patterns are shifting. Our actions are shifting rainfall patterns: stronger droughts, more intense rain and snow.

Human actions are responsible for the extinction of about a thousand recorded species. They are just the ones we're aware of. Our best estimates of how many we've actually bumped off falls between twenty thousand and two million. And this is rising rapidly, causing most biologists to judge that we are currently causing the start of the sixth great extinction event in earth's four and a half billion year history.

Since 1970 we have reduced animal populations by 30%, the area of mangroves and sea grasses by 20%, the coverage of living corals by 40% and large African mammals by more than 60%.

Over 60% of major rivers in the world are dammed or diverted. There is five times as much water stored in dams and reservoirs as all the world's rivers put together. We have directly modified three quarters of the ice-free land surface of the planet and currently move more soil each year than the natural cycles of wind and water.

And I haven’t mentioned heavy metal toxins, soil degradation, aquifer depletion, ocean eutrophification, introduced species, desertification, or the trillions of floating plastic particles found in all the world's oceans.

We no longer live on the same planet on which we were born.

And God said to them, "Be fruitful and multiply, and fill the earth and subdue it; and have dominion over the fish of the sea. And over the birds of the air and over every living thing that moves upon the earth."

- Genesis 1.28 (NRSV).

Our passage this morning has been used to justify the patterns of exploitation and acquisition that in our lifetimes have reached such an extent as to have permanently altered the face of the planet. Can we read it again with fresh eyes and see whether it might have good news for us today?
I haven't had time to include links for all these claims, though it's worth noting that they were not first published by Greenpeace or WWF; they are not the scare stories of eco-extremists out to rob you of your fun or set up a world government. These claims appear in highly respected scientific journals – Nature, Science, Proceedings of the Royal Society and so on. Some are still quite fresh and subject to ongoing debate. Most are widely agreed as our best knowledge of our present situation. If there are particular ones you are interested in, I can try to provide relevant citations.

Twelve doomiest stories of 2010

Twelve doomiest stories of 2010. These are not my selection, but they make for depressing reading.

Top ten environmental stories of 2010. Not all of these are quite so doomy. Four are even primarily good news stories.

Top 10 climate events of 2010 - from a US-centric perspective.

Gaming carbon credits.

Humans consuming more than a quarter of all primary production. That is, more than a quarter of the earth's total productive photosynthetic capacity is devoted to human consumption or use.

Amazon suffers worst drought on record.

Per capita energy use vs GDP. H/T Tim.

The rise of climate refugees.

The great bank heist of 2010.

Invasive species' cost lags growth in globalisation, leaving a legacy to future generations.

Oil and (agricultural) water don't mix. Or rather, they do.

Polar bears are indeed starving due to declining Arctic sea ice (or interbreeding with grizzlies). I generally avoid polar bear discussions as something of a distraction from the weighty and widespread effects of climate change on human society, but this video is heartbreaking. A recent Nature cover story suggesting a slim hope for them was probably misleading.

Things are worse than you thought: links to brighten your day

Why things are worse than you thought: Peak oil might not be a slope, but a cliff.
H/T Sam.

Guardian: the next food crisis?

BP gives 148 of its Alaskan pipelines an "F", meaning that they there are in critical danger of rupture.

CP: “There are very strong indications that the current rate of species extinctions far exceeds anything in the fossil record”.

Lake Chad down 90% since 1960.

Pacific fisheries face collapse by 2035: study.

Reuters: First generation biofuels worse for the climate than fossil fuels.

Michael Hudson: The end of the US dollar as reserve currency.

Independent: Climate disruption to bite into China's food supply over the coming decades.

Guardian: Tobacco companies put in charge of UK smoking policy. No, that would be silly. Instead, let's allow McDonalds, KFC and PepsiCo to help write government policy on obesity.

And for a laugh: Why we have nothing to fear from melting Arctic sea ice.

The Onion: Report: Global Warming Issue from 2 or 3 Years Ago Could Still Be a Problem.

Water: too little or too much are both bad

A new study investigates the future of drought (and it isn't pretty). Note that when reading the images in this study, figures of -4 and below are considered "extreme drought", rarely experienced before now. Meanwhile, the Amazon is currently experiencing its worst drought in almost fifty years.

At the other end of the world, Greenland ice loss is accelerating. And more on Greenland: the plugs in the bathtub.

Pakistan is not the only place to have suffered record floods this year. Over seven million people in Pakistan remain without permanent shelter as a result of the flooding that began over three months ago.

And linking water to fossil fuels: the water cost of Canada's tar sands.

Give us this day our daily bread

The Coming Famine: The global food crisis and what we can do to avoid it by Julian Cribb. The world has consumed more food than it has produced in nine of the past 10 years and food crises are likely to become more common.

FT: Water in the desert, some Gulf cities are quickly running out. Globally, groundwater depletion rates are accelerating.

NYT: Bleaching is back in fashion, coral bleaching that is, with disastrous effects on already stressed fish populations.

Climate central: Arctic sea ice loss, why does it matter? (though fortunately, there is good news on that front). Rolling Stone also has a good article on the future of ice, including this quote: "If you look at all these dramatic changes, water is doing it all. The vulnerability the ice sheets have to heat from the ocean is the key to all of this. And there's orders of magnitude more than enough heat in the ocean to kill the ice sheet, on whatever time scale the ocean and atmosphere conspire to deliver that heat. It's not at all about subsequent warming or future warming of the oceans. We don't have to warm up the ocean any more at all. The vulnerability is really from climate change altering the atmospheric circulation and how much that's going to alter the ocean circulation. The ice sheets have no defense against warm water. They don't really stand a chance."

Science Daily: Beetle populations responsible for massive pine forest die-off likely to keep rising.

US Clean Air Act has benefits forty times greater than costs of regulation. This Act has some impressive credentials under its belt after forty years, and it inspired a number of other similar bills elsewhere.

Guardian: Good thing the UK has the greenest government in history.

Hot Topic: Have the climate wars begun?

Scared of the dangers of massive untested geoengineering projects? We've been doing them for some time.

SMH: And in Sydney, we've decided to start fracking next to Warragamba Dam. Seriously.

On track for going off the track

Perhaps you've heard that Arctic sea is "recovering" or is "just fine": unfortunately not so. You may also have heard that warming has stopped: unfortunately not so (and this doesn't include the record-breaking 2010).

Where's the talk of peak oil? Just where it should be: behind closed doors. Carry on. Nothing to see here.

The rapacious hunger of the ever expanding global economy means that it is not only species that are threatened with extinction.

Goliath whips David: enormous fossil fuel companies outspent the environmental lobby by about 8:1 blocking any US action on climate chaos.

Speaking of big money: keeping the wheels of denial, um, oiled.

Norway sells shares in illegal logging. What is it about the Norwegians that makes them smarter than the rest of us? Or maybe not.

Thank God global warming is a hoax.

Super-extreme weather in Indonesia is the worst on record.

NYT: What is the legal status of submerged countries?

NYT: Developing a climate plan Z.

Scientists reach for new term to describe super windstorm.

In case it felt left out: Atlantic garbage patch found to rival Pacific's.

The North West passage in the Arctic has melted open for only the fourth time in recorded history. The first three occurrences were way back in 2009, 2008 and 2007.

Heat records broken in 17 countries this year so far. Only one country has set a record for cold. No year has prior to this one has come close to having this many records broken (and remember, each year such a feat becomes statistically less likely if temperatures fluctuate randomly).

More doom and gloom

Asian floods affecting more people than the 2004 Indian Ocean tsunami, plus the 2005 Kashmir and 2010 Haiti earthquakes combined says UN.

Russian heat wave unparalleled in 1,000 years and could kill tens of thousands of people. What is the global cost of Russia's heat wave? When you take into account the highest cost of wheat caused by Russia's cancellation of all wheat exports for the rest of the year, it runs into billions.

But before we begin pitying Russians too much, this piece of lunacy is one of the most depressing things I've heard this week.

The largest iceberg seen in almost fifty years recently calved off Greenland. Arctic melt this year is likely to be second or third worst on record, though will very much depend on prevailing weather conditions over the next few weeks. You can follow it here. But a soot cloud from burning Russian peatland could prove to be a wild card.

Fire and rain: how can we tell when extreme weather is linked to climate change?

Commodity speculation: the price of bread depends on the whims of Wall St, not just the productivity of farms. But remember that "for each 1 degree Celsius rise in temperature we can expect a reduction in grain yields of 10 percent".

Big coal will continue to ensure US climate inertia, and without US momentum, the rest of the world will only reach small-scale and thoroughly inadequate agreements.

But at least we are cutting our throat more slowly in the Amazon.

Finally, perhaps the worst news of all comes from the Onion: Ecological disaster as millions of barrels of oil safely reach port.