Friday, August 2, 2013

Ecological Statement on the Future of Earth



The following statement was initiated by John B. Davies, in the hope that it will also be signed by many climatologists, ecologists and anyone who is similarly concerned about climate catastrophe, and given wide media coverage. The statement reflects the views of signatories personally, rather than the views of organizations they may be associated with, hence the links to personal pages such as at facebook and Google+. Nonetheless, businesses, groups and organizations are equally invited to join this call for action. Add your name and copy this statement widely! 



ECOLOGICAL STATEMENT ON THE FUTURE OF THE EARTH

Life on earth is facing a profound crisis.

Human industrial society has impacted life on earth in multitudes of ways especially through the vastly increased greenhouse gas concentration of the atmosphere. Trade and rapid transport around the earth are introducing invasive species everywhere. New bacteria and micro biological life are being moved to areas in which they did not previously live causing new diseases for animals and plants. Forests are being lost globally adding to the carbon concentration of the air and causing many species to go extinct.

Farming using nitrogenous fertilisers is causing a loss of nutrients whilst soil itself is being lost on a large scale as a result of farming

No later than 2050, and probably much sooner, global temperatures will have risen significantly. Farming will be nearly impossible in an unstable global climate and ecosystem. There will be large scale loss of species as a result of a collapsing global ecosystem.

There will probably have been a collapse of the global economy before 2050, which may come as almost a sudden event or could occur over a decade or two. This will probably lead into a political and societal collapse with far fewer people surviving on the planet in very inhospitable circumstances.

Human society is not reacting to the situation effectively because most nations and industries, but not all, make strenuous efforts to protect the living planet but because it is so costly our society does far from all that is absolutely necessary and then just hopes for the best.

The situation is far from hopeless if we react now. However, if humanity does not react to this crisis almost immediately, then global ecological collapse and the collapse of human civilisation before 2050 is almost inevitable. Most of the worst damage can still be avoided. However once the situation starts to deteriorate rapidly there will be no way in which it can be slowed or reversed, we will be doomed.

The first priority is for all governments and most people to acknowledge the grave crisis the earth is facing almost immediately because only then can humanity react effectively.

Secondly there needs to be a statement in general terms of what must be done. The two most important actions contained within the statement are a deep reduction in greenhouse gas emissions very quickly which will affect the wealthy nations more than others and very wealthy people more than poorer people. This may mean a global economic contraction. Secondly a group of leading scientists needs to be set up under the authority of the United Nations to set the priorities for urgent action in all other areas. These actions need to be implemented very quickly and with great determination so that they are effectively applied. Many areas, especially the arctic, are in a critical situation.

The trends which are leading life on this planet to disaster need to be shown to be turning around very quickly. This is achievable but unless this is done very quickly modern civilisation will collapse in the near future.

Sign the petition at AVAAZ, at:
http://www.avaaz.org/en/petition/HELP_SAVE_LIFE_ON_EARTH

John B Davies
Douglas Spence



Monday, July 29, 2013

CO2? Let Me Introduce You To My Little Friend: CH4 [Methane]!

by Nick Breeze

In the UK, if a person smells any gas in a building or outside, they are told to call an emergency number straight away so that an engineer can come and fix the leak and remove the danger. In the Arctic, atmospheric plumes of gas have been detected that are over 150kms across and likely to have disastrous consequences for our civilisation. We simply cannot ignore this problem; it underpins the fabric of all our lives. We must respond.



Last year I attended the EGU conference in Vienna to meet with Dr. Igor Semiletov and Dr. Natalia Shakhova and was extremely grateful to them for giving me time to discuss the issue of changing conditions in the Arctic. Increased temperatures from human caused greenhouse gas emissions are increasing the risk of methane release from thawing subsea permafrost. These two scientists make annual trips to the East Siberian Arctic Shelf (ESAS), in order to gain a better understanding of what is known to be the largest hydrocarbon store in the world. The methane is trapped in the frozen clathrate deposits that has been frozen for millions of years. In this stable condition we tend to consider the methane less of a risk, however, during the course of the last decade, things have started to change.

It is important to realise that methane (CH4) is approximately 20 x more powerful greenhouse gas than carbon dioxide (CO2) over a 100yr timescale. Afterwhich it breaks down into CO2. Obviously with current atmospheric increases in emissions and the effects of warming already being felt, we do not have a 100yrs. In a shorter timescale of 20yrs, methane is estimated to be 100 x more potent as CO2 as a greenhouse gas. Baring in mind that there is currently 5 gigatonnes of methane in the atmosphere and that the East Siberian Arctic Shelf (ESAS) is estimated to have between 100’s and 1000’s of gigatonnes trapped in the permafrost, if there is any destabilisation, supply of methane could rapidly move the world to a much hotter and dangerous state for humans and many other forms of life.

As a species humans add 35 billion tonnes of carbon dioxide to the atmosphere each year in the form of emissions. Over the course of the last 200 years this has caused a global temperature rise of about 0.8 C. Although this seems tiny, we are only just starting to understand how sensitive the Earth is to changes in temperature. Add to this that the Arctic has been warming at around 8 times the speed of the mid latitudes and it’s not hard to see why the Arctic Sea Ice has gone into an accelerated melt.

NASA Image of Melting Arctic Sea Ice
It may seem obvious that if we heat the planet up then we will melt the ice. When joining the dots on the severity of what climate change really means, it is important to grasp “feedbacks”. These are the Earth’s response to changes within the climate system. A general rule of thumb is that “positive feedbacks” generally are bad for us and “negative feedbacks” are not. In the case of the Arctic, it is important to understand that there are multiple feedbacks [watch this comprehensive analysis by David Wasdell, Apollo-Gaia Director for more information] that come into play when the temperature changes. The Arctic sea ice is one that has caught the world’s attention because we are entering a phase where we no longer have a northern polar ice-cap. This is, in turn, setting off other positive feedbacks, one of these being the heating of the Arctic ocean as it absorbs sunlight and starts to thaw the subsea permafrost in the shallow seas of the ESAS. This is effectively removing the seal on a vast store of potent methane greenhouse gases that could take us from a steady increase in temperature to the awful sounding “runaway” global heating.

During the interview with Dr Shakhova, I was chilled when she showed me 2 charts, one with small insignificant plumes of methane from over ten years ago, contrasted with a chart from 2011 where the plumes of escaping gas from the permafrost were over a kilometre wide. Dr Shakhova also stated that in recent years all the conditions were changing making the risk of a game changing release of methane from the ESAS much more likely. Dr Shakhova even pointed out that it was likely “in decades”. Dr Semiletov went further to say “anytime!”.

Below are a few video clips from the interview in April 2012. I am very much looking forward to seeing the new work by Dr’s Semiletov and Shakhova et al that will be released shortly, giving us a far greater understanding, and up to date view, of the state of this all important region in the Arctic.


In the meantime, the methane issue has been the focus of NASA’s ‘Carbon in Arctic Reservoirs Vulnerability Experiment’ (CARVE) who have detected 150 kilometre plumes of atmospheric methane. This raises a few questions that are critical to our future civilisation:
  1. If the Arctic Sea Ice and permafrost are degrading at 0.8C, are the IPPCC agreed “targets” of 2C really safe? 
  2. Have we underestimated Earth’s sensitivity to temperature altogether and sailed blindly over into the wild waters of runaway climate catastrophe?
  3. How much longer can we continue to release carbon emissions into the atmosphere before we lose the gift of choice in the matter and the climate shifts to a hotter state increasing sea-levels significantly, and not favouring large-scale agriculture?
For a longtime the methane issue has remained outside the larger conversation of impacts of global warming, except by reference to far off future risks. There are a handful of scientists such as Professor Peter Wadhams, Head of the Polar Institute at Cambridge University, who, based on submarine observations of the Arctic sea ice’s collapse in volume, has been pointing out that a methane feedback may not be as far away as we think. Professor Wadhams has made these points in the face of angry cries of “Alarmist” from UK politicians with financial interests in the hydrocarbon industry.

The work of scientists including the Russians, Wadhams and NASA’s CARVE team now means we can no longer ignore the risk of methane as part of the Earth’s complex system of feedbacks to temperature change. It also is very likely that at 2C the world will not be the beautifully hospitable place that it has been for humans for so long. It is very likely that we are close to that “tipping point” of no return where global heating goes into a runaway phase and we lose our only life support system. I sincerely hope this isn’t the case but we have to acknowledge the risk if we are to react appropriately.

In order to answer the third question posited above, we have to comprehend the enormity of the task of transitioning away from fossil fuels (coal, oil and gas). To say it cannot be done is to kiss the world, as we know it, goodbye. It can be done but it will take the will of all of us together, starting with citizens around the world, to politicians and those in the hydrocarbon business themselves. Whilst in Vienna in 2012, I also interviewed Dr James Hansen, one of the most outspoken climate scientists alive today and former Head of The Goddard Institute for Space Studies in New York. You can watch a video clip at http://vimeo.com/71179724 on what Hansen proposes as a way to curb emissions and start turning the tide on our collective response to global heating.

So how do we respond? It is clear that we need to make changes at a societal level. Never forget that each and everyone of us is a part of society and, as such, we have influence. The action we need to take is tied in with our attitude to the problems we face. The hydrocarbon industries lobby our governments and institutions to make sure their needs are not ignored. This is for one reason alone: profit. Societal reliance on this form of energy is no longer necessary. We should be transitioning away from hydrocarbon fuels. We can’t because these powerful companies are tucked tight inside the framework of our civilisation. There is no doubt that as such, we are entering a phase of willful self-destruction. The only thing that can stop it is us. A good example of this institutional integration is the Royal Geographic Society where Shell’s logos feature prominently and they even have their own page on the society’s web site aligning themselves with our respected institutions, paying lip service to our future concerns. This is disgusting. We should treat hydrocarbon companies as we did the tobacco industries once it was proven how harmful tobacco is to our health. These companies project the use of oil and gas way into the middle of the century. Don’t believe it. On this course, we will end up clinging to an inhospitable planet, barely recognisable as it is today. Take action.


The first and most effective thing you can do is contact your local elected representative and tell them straight. I sent the following email to my own Member of Parliament, Mary McCleod MP and waiting patiently for a reply. It is critical to remember that they have our future in their hands but we have their vote. Let’s use it!

Dear ____,

As a citizen concerned with the unnecessary proven damage being done to our environment, I am writing with the following conditions that will have to be met if you are to have my vote at the next election:
  1. Remove all links to hydrocarbon companies that currently exist within public institutions
  2. Ban hydrocarbon company advertising
  3. Introduce a fair tax on carbon that will level the playing field for renewable energy sources and force the hydrocarbon industries to clean up their act
  4. Implement a framework for a transition to renewable energy immediately
As you represent me on a local and national level I will be listening with interest to all representations you make to government on my behalf. I am also keen to hear your response and will be sharing it with friends and family.

Thank you for your time.

Yours sincerely,



____________________________

A note on climate fixes such as ‘Climate Engineering’ (aka geoengineering): I have not mentioned proposed climate engineering proposals in this post as we are currently working on an in depth look at several projects that are already in progress. Climate engineering raises many scientific, political and ethical issues and to many people the idea that man can engineer Earth’s climate is a crazy and hubristic fantasy. No matter what we think, it is important that we are all cognisant of the arguments being put forward. We will be interviewing leading commentators and authorities, not just from the climate and engineering backgrounds but also from ethical and philosophical disciplines to help form a view of this controversial subject. The worst case scenario is that we ignore the subject altogether and the decision to engineer climate falls into the hands of a foreign international power willing to gamble the fate of billions, or, a wealthy individual who can afford to take an equal gamble and become what Clive Hamilton has titled his recent book, an ‘Earthmaster’. Groups such as the Arctic Methane Emergency Group have been calling for climate engineering to be deployed immediately to cool the Arctic and prevent the runaway heating that climate scientists most fear. The argument for both sides is compelling and the more we shy away from zero carbon emissions the more climate engineering solutions start to look like a relatively cheap alternative. It is time for us all to be part of this critical discussion.

This post was originally posted at: 
http://envisionation.co.uk/index.php/blogs/72-co2-let-me-introduce-you-to-my-little-friend-ch4-methane

Saturday, July 27, 2013

Arctic Cyclone July 2013

A cyclone is raging over Arctic.


Above satellite image is from weather.gc.ca with further images added in the video below (July 25-27, 2013). To see the video in a larger size, go to https://youtube.googleapis.com/v/YgoHBAMw_Mc


Below, a Naval Research Laboratory animation showing ice speed and drift over 30 days.




The impact of the cyclone is also clearly visible on the Naval Research Laboratory ice concentration animation below.



Related

- The Great Arctic Flush - by Paul Beckwith
http://arctic-news.blogspot.com/2013/07/the-great-arctic-flush.html

Friday, July 26, 2013

Methane and the risk of runaway global warming

By Andrew Glikson

A satellite picture reveals permafrost melting around Liverpool Bay in Canada’s northwest territories. NASA Goddard Space Flight Center
Research was published this week showing the financial cost of methane being released from Earth’s permafrosts. But the risks go beyond financial – Earth’s history shows that releasing these stores could set off a series of events with calamitous consequences.

The sediments and bottom water beneath the world’s shallow oceans and lakes contain vast amounts of greenhouse gases: methane hydrates and methane clathrates (see Figure 1). In particular methane is concentrated in Arctic permafrost where the accumulation of organic matter in frozen soils covers about 24% of northern hemisphere continents (see Figure 2a) and is estimated to contain more than 900 billion tons of carbon.

Methane, a greenhouse gas more than 30 times more potent than CO2, is released from previously frozen soils when organic matter thaws and decomposes under anaerobic conditions (that is, without oxygen present).

Most of the current permafrost formed during or since the last ice age and can extend down to depths of more than 700 meters in parts of northern Siberia and Canada. Thawing of part of the permafrost has not yet been accounted for in climate projections.

The Siberian permafrost is in particular danger. A large region called the Yedoma could undergo runaway decomposition once it starts to melt. This is because elevated temperatures cause microbes in the soil to decompose, which causes heat, which creates a self-amplifying process.

Figure 1: Global distribution of methane hydrate deposits on the ocean floor. Naval Research Laboratory

Palaeoclimate studies of stalagmite cave deposits across Siberia indicate they grew faster during the warm periods 424,000 and 374,000 years ago, due to permafrost melt. At that time, mean global temperatures rose by approximately 1.5 degrees Celsius above pre-industrial temperatures. Thus Vaks et al state: “Growth at that time indicates that global climates only slightly warmer than today are sufficient to thaw extensive regions of permafrost.”

Evidence of melting of permafrost has also been reported from the dry valleys of Antarctica, where development of thermokarst (small surface hummocks formed as ice-rich permafrost thaws) has been reported, reaching a rate about 10 times that of the last ~10,000 years.

The mean temperature of the continents has already increased by about 1.5C. With sulphur aerosols masking some of the warming, the real figure may be closer to 2C.

Figure 2a: Vulnerable carbon sinks. CSIRO Global Carbon Project

Figure 2b: Global average abundances of
carbon 
dioxide and methane 1978-2011
Arctic air temperatures are expected to increase at roughly twice the global rate. A global temperature increase of 3C means a 6C rise in the Arctic, resulting in an irreversible loss of anywhere between 30 to 85% of near-surface permafrost. According to the United Nations, warming permafrost could emit 43 to 135 billion ton CO2 (GtCO2) equivalent by 2100, and 246 to 415 GtCO2 by 2200.
The geologically unprecedented rate of CO2 rise (~2.75 ppm/year during June 2012-2013) may result in faster permafrost collapse.

Already measurements along the Siberian shelf uncover enhanced methane release. In 2010 a Russian marine survey conducted more than 5000 observations of dissolved methane showing that more than 80% of East Siberian shelf bottom waters and more than 50% of surface waters are supersaturated with methane. Atmospheric methane levels (during glacial periods: 300–400 parts per billion; during interglacial periods: 600–700 ppb) have recently reached 1850 ppb – the highest in 400,000 years (see Figure 2b).

Hansen et al estimate that the rise of CO2 forcing between 1750 and 2007 has already committed the atmosphere to between +2 and +3 degrees Celsius, currently mitigated in part by sulphur aerosols.

Figure 3: Change in average annual land surface temperature since 1750. Berkeley Temperatures
Hansen refers to the “Venus Syndrome”, drawing an analogy between the enrichment of Venus’ atmosphere in CO2 (its atmosphere is 96.5% CO2 and its surface temperature is 462C) and potential terrestrial runaway greenhouse effects. This needs to be placed in context.

On Earth, weathering processes and oceans draw down the bulk of atmospheric CO2 to be deposited as carbonates. It’s therefore impossible for Earth to develop Venus-like conditions. But the onset of a hyperthermal – a huge release of carbon such as happened during the Paleocene-Eocene Thermal Maximum 55 million years ago, with an attendant mass extinction of species – is possible.

Figure 4. Estimates of fossil fuel resources and equivalent atmospheric CO2 levels, including (1) emissions to date; (2) estimated reserves, and (3) recoverable resources (1 ppm CO2 ~ 2.12 GtC). Hansen, 2012, figure 1; http://www.columbia.edu/~jeh1/mailings/2012/20120127_CowardsPart1.pdf

Extraction and combustion of the current fossil fuel reserves (more than 20,000 billion tonnes of carbon – Figure 4) would inevitably lead to a hyperthermal commensurate with or exceeding the PETM. If that happens, CO2 would rise to above 500ppm (see figure 4), temperature would rise by about 5C (figure 5) and the polar ice sheets would melt – it’s a future we could face if emissions continue to accelerate.

Figure 5: Growth in CO2 and CO2 equivalent (CO2+CH4) during the Pleistocene and the Holocene. IPCC AR4

Not that the above features too much in the Australian elections, where the reality of climate change has been replaced with pseudoscience notions, including by some who have not consulted basic climate science text books, and by hip-pocket-nerve terms such as “carbon tax”, “emission trading scheme” or “direct action”. The proposed 5% reduction in emissions relative to the year 2000 represent no more than climate window dressing.

Nor are coal exports mentioned too often, despite current exports and planned future exports, which represent carbon emissions tracking toward an order of magnitude higher than local emissions.

According to Dr Adam Lucas of the Science and Technology Studies Program at University of Wollongong, Australia (with ~0.3% of the global population) currently contributes domestic emissions of about 1.8% of global emissions. The total domestic and overseas consumption of Australian coal is responsible for more than 2% of global emissions. Plans to triple or even quadruple coal export volumes over the next 10 years would raise Australia’s total contribution to global GHG emissions to toward 9% to 11% by 2020 – an order of magnitude commensurate with that of Middle East oil.

Which places the “Great moral challenge of our generation” in perspective.

Andrew Glikson does not work for, consult to, own shares in or receive funding from any company or organisation that would benefit from this article, and has no relevant affiliations.

The Conversation
This article was earlier published at The Conversation.